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fieldml_output_routines.f90
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fieldml_output_routines.f90
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!> \file
!> \author Caton Little
!> \brief This module handles writing out FieldML files.
!>
!> \section LICENSE
!>
!> Version: MPL 1.1/GPL 2.0/LGPL 2.1
!>
!> The contents of this file are subject to the Mozilla Public License
!> Version 1.1 (the "License"); you may not use this file except in
!> compliance with the License. You may obtain a copy of the License at
!> http://www.mozilla.org/MPL/
!>
!> Software distributed under the License is distributed on an "AS IS"
!> basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the
!> License for the specific language governing rights and limitations
!> under the License.
!>
!> The Original Code is OpenCMISS
!>
!> The Initial Developer of the Original Code is University of Auckland,
!> Auckland, New Zealand, the University of Oxford, Oxford, United
!> Kingdom and King's College, London, United Kingdom. Portions created
!> by the University of Auckland, the University of Oxford and King's
!> College, London are Copyright (C) 2007-2010 by the University of
!> Auckland, the University of Oxford and King's College, London.
!> All Rights Reserved.
!>
!> Contributor(s):
!>
!> Alternatively, the contents of this file may be used under the terms of
!> either the GNU General Public License Version 2 or later (the "GPL"), or
!> the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
!> in which case the provisions of the GPL or the LGPL are applicable instead
!> of those above. If you wish to allow use of your version of this file only
!> under the terms of either the GPL or the LGPL, and not to allow others to
!> use your version of this file under the terms of the MPL, indicate your
!> decision by deleting the provisions above and replace them with the notice
!> and other provisions required by the GPL or the LGPL. If you do not delete
!> the provisions above, a recipient may use your version of this file under
!> the terms of any one of the MPL, the GPL or the LGPL.
!>
!> Output routines for FieldML
MODULE FIELDML_OUTPUT_ROUTINES
USE BaseRoutines
USE BasisRoutines
USE COORDINATE_ROUTINES
USE CONSTANTS
USE ComputationEnvironment
USE FIELD_ROUTINES
USE FieldAccessRoutines
USE FIELDML_API
USE FIELDML_TYPES
USE FIELDML_UTIL_ROUTINES
USE ISO_VARYING_STRING
USE KINDS
USE LISTS
USE MESH_ROUTINES
USE MeshAccessRoutines
USE NODE_ROUTINES
USE REGION_ROUTINES
USE RegionAccessRoutines
USE STRINGS
USE TYPES
#include "macros.h"
IMPLICIT NONE
PRIVATE
!Interfaces
TYPE CONNECTIVITY_INFO_TYPE
INTEGER(INTG) :: CONNECTIVITY_HANDLE !<The basis connectivity evaluator handle.
INTEGER(INTG) :: LAYOUT_HANDLE !<The local node layout.
END TYPE CONNECTIVITY_INFO_TYPE
TYPE BASIS_INFO_TYPE
TYPE(BASIS_TYPE), POINTER :: BASIS !<The OpenCMISS basis.
INTEGER(INTG) :: CONNECTIVITY_HANDLE !<The basis connectivity evaluator handle.
INTEGER(INTG) :: REFERENCE_HANDLE !<The reference evaluator representing the basis.
INTEGER(INTG) :: LAYOUT_HANDLE !<The local node layout.
END TYPE BASIS_INFO_TYPE
INTERFACE FIELDML_OUTPUT_ADD_FIELD
MODULE PROCEDURE FIELDML_OUTPUT_ADD_FIELD_NO_TYPE
MODULE PROCEDURE FIELDML_OUTPUT_ADD_FIELD_WITH_TYPE
END INTERFACE
PUBLIC :: FIELDML_OUTPUT_WRITE, FIELDML_OUTPUT_ADD_FIELD, FIELDML_OUTPUT_INITIALISE_INFO, &
& FIELDML_OUTPUT_ADD_IMPORT, FIELDML_OUTPUT_ADD_FIELD_COMPONENTS
CONTAINS
!
!================================================================================================================================
!
!> Asserts that the FieldML Info is associated and created for output
SUBROUTINE FIELDML_ASSERT_IS_OUT( FIELDML_INFO, ERR, ERROR, * )
!Argument variables
TYPE(FIELDML_IO_TYPE), POINTER :: FIELDML_INFO !<The FieldML parsing state.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string.
ENTERS( "FIELDML_ASSERT_IS_OUT", ERR, ERROR, *999 )
IF(.NOT.ASSOCIATED(FIELDML_INFO)) THEN
CALL FlagError( "FieldML Info is not associated.", ERR, ERROR, *999 )
ELSE IF( .NOT. FIELDML_INFO%IS_OUT ) THEN
CALL FlagError( "Inbound FieldML Info used for an output-only operation.", ERR, ERROR, *999 )
ENDIF
EXITS( "FIELDML_ASSERT_IS_OUT" )
RETURN
999 ERRORSEXITS( "FIELDML_ASSERT_IS_OUT", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_ASSERT_IS_OUT
!
!================================================================================================================================
!
!>Get the text suffix corresponding to the given array of collapse constants.
SUBROUTINE FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX( COLLAPSE_INFO, SUFFIX, ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: COLLAPSE_INFO(:) !<The collapse into from which to generate the suffix.
TYPE(VARYING_STRING), INTENT(INOUT) :: SUFFIX !<The suffix string encoding the collapse info.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
INTEGER(INTG) :: I
ENTERS( "FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX", ERR, ERROR, *999 )
SUFFIX = ""
DO I = 1, SIZE( COLLAPSE_INFO )
IF( COLLAPSE_INFO( I ) == BASIS_XI_COLLAPSED ) THEN
SUFFIX = SUFFIX // "_xi"//TRIM(NUMBER_TO_VSTRING(i,"*",ERR,ERROR))//"C"
ELSEIF( COLLAPSE_INFO( I ) == BASIS_COLLAPSED_AT_XI0 ) THEN
SUFFIX = SUFFIX // "_xi"//TRIM(NUMBER_TO_VSTRING(i,"*",ERR,ERROR))//"0"
ELSEIF( COLLAPSE_INFO( I ) == BASIS_COLLAPSED_AT_XI1 ) THEN
SUFFIX = SUFFIX // "_xi"//TRIM(NUMBER_TO_VSTRING(i,"*",ERR,ERROR))//"1"
ENDIF
ENDDO
EXITS( "FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX
!
!================================================================================================================================
!
!>Import the named object from the built-in library into the current FieldML document. The local name will be the same as the remote name.
FUNCTION FIELDML_OUTPUT_IMPORT_FML( FML_HANDLE, REMOTE_NAME, ERR, ERROR )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FML_HANDLE !<The FieldML session handle.
TYPE(VARYING_STRING), INTENT(IN) :: REMOTE_NAME !<The name of the object to import.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
INTEGER(INTG) :: FIELDML_OUTPUT_IMPORT_FML
!Local variables
INTEGER(INTG) :: IMPORT_INDEX
ENTERS( "FIELDML_OUTPUT_IMPORT_FML", ERR, ERROR, *999 )
FIELDML_OUTPUT_IMPORT_FML = Fieldml_GetObjectByName( FML_HANDLE, cchar(REMOTE_NAME) )
IF( FIELDML_OUTPUT_IMPORT_FML == FML_INVALID_HANDLE ) THEN
IMPORT_INDEX = Fieldml_AddImportSource( FML_HANDLE, &
& "http://www.fieldml.org/resources/xml/0.5/FieldML_Library_0.5.xml"//C_NULL_CHAR, "library"//C_NULL_CHAR )
FIELDML_OUTPUT_IMPORT_FML = Fieldml_AddImport( FML_HANDLE, IMPORT_INDEX, cchar(REMOTE_NAME), cchar(REMOTE_NAME) )
IF( FIELDML_OUTPUT_IMPORT_FML == FML_INVALID_HANDLE ) ERR = 1
ENDIF
EXITS( "FIELDML_OUTPUT_IMPORT_FML" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_IMPORT_FML", ERR, ERROR )
END FUNCTION FIELDML_OUTPUT_IMPORT_FML
!
!================================================================================================================================
!
!>Import the named object from the built-in library into the current FieldML document. The local name will be the same as the remote name.
FUNCTION FIELDML_OUTPUT_IMPORT( FIELDML_INFO, REMOTE_NAME, ERR, ERROR )
!Argument variables
TYPE(FIELDML_IO_TYPE), INTENT(IN) :: FIELDML_INFO !<The FieldML parsing state.
TYPE(VARYING_STRING), INTENT(IN) :: REMOTE_NAME !<The name of the object to import.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
INTEGER(INTG) :: FIELDML_OUTPUT_IMPORT
ENTERS( "FIELDML_OUTPUT_IMPORT", ERR, ERROR, *999 )
FIELDML_OUTPUT_IMPORT = FIELDML_OUTPUT_IMPORT_FML( FIELDML_INFO%FML_HANDLE, REMOTE_NAME, ERR, ERROR )
EXITS( "FIELDML_OUTPUT_IMPORT" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_IMPORT", ERR, ERROR )
END FUNCTION FIELDML_OUTPUT_IMPORT
!
!================================================================================================================================
!
!>Import the named object from the built-in library into the current FieldML document. The local name will be the same as the remote name.
! External variant of FIELDML_OUTPUT_IMPORT taking pointer argument and checking it
FUNCTION FIELDML_OUTPUT_ADD_IMPORT( FIELDML_INFO, REMOTE_NAME, ERR, ERROR )
!Argument variables
TYPE(FIELDML_IO_TYPE), POINTER :: FIELDML_INFO !<The FieldML parsing state.
TYPE(VARYING_STRING), INTENT(IN) :: REMOTE_NAME !<The name of the object to import.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
INTEGER(INTG) :: FIELDML_OUTPUT_ADD_IMPORT
ENTERS( "FIELDML_OUTPUT_ADD_IMPORT", ERR, ERROR, *999 )
CALL FIELDML_ASSERT_IS_OUT( FIELDML_INFO, ERR, ERROR, *999 )
FIELDML_OUTPUT_ADD_IMPORT = FIELDML_OUTPUT_IMPORT_FML( FIELDML_INFO%FML_HANDLE, REMOTE_NAME, ERR, ERROR )
EXITS( "FIELDML_OUTPUT_ADD_IMPORT" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_ADD_IMPORT", ERR, ERROR )
END FUNCTION FIELDML_OUTPUT_ADD_IMPORT
!
!================================================================================================================================
!
!>Import the given FieldML object if it is not already imported or local.
FUNCTION FIELDML_OUTPUT_IMPORT_HANDLE( FML_HANDLE, HANDLE, ERR, ERROR )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FML_HANDLE !<The FieldML session handle.
INTEGER(INTG), INTENT(IN) :: HANDLE !<The FieldML object to import.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
INTEGER(INTG) :: FIELDML_OUTPUT_IMPORT_HANDLE
!Local variables
INTEGER(INTG) :: IMPORT_INDEX, LOCAL_HANDLE
CHARACTER(KIND=C_CHAR,LEN=MAXSTRLEN) :: NAME
INTEGER(INTG) :: LENGTH
ENTERS( "FIELDML_OUTPUT_IMPORT_HANDLE", ERR, ERROR, *999 )
FIELDML_OUTPUT_IMPORT_HANDLE = FML_INVALID_HANDLE
LENGTH = Fieldml_CopyObjectDeclaredName( FML_HANDLE, HANDLE, NAME, MAXSTRLEN )
IF( Fieldml_IsObjectLocal( FML_HANDLE, HANDLE , 1 ) /= 1 ) THEN
IF( LENGTH > 0 ) THEN
LOCAL_HANDLE = Fieldml_GetObjectByName( FML_HANDLE, NAME(1:LENGTH)//C_NULL_CHAR )
IF( LOCAL_HANDLE == FML_INVALID_HANDLE ) THEN
IMPORT_INDEX = Fieldml_AddImportSource( FML_HANDLE, &
& "http://www.fieldml.org/resources/xml/0.5/FieldML_Library_0.5.xml"//C_NULL_CHAR, "library"//C_NULL_CHAR )
FIELDML_OUTPUT_IMPORT_HANDLE = Fieldml_AddImport( FML_HANDLE, &
& IMPORT_INDEX, NAME(1:LENGTH)//C_NULL_CHAR, NAME(1:LENGTH)//C_NULL_CHAR )
ELSE IF( LOCAL_HANDLE == HANDLE ) THEN
FIELDML_OUTPUT_IMPORT_HANDLE = HANDLE
ENDIF
ENDIF
ENDIF
EXITS( "FIELDML_OUTPUT_IMPORT_HANDLE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_IMPORT_HANDLE", ERR, ERROR )
END FUNCTION FIELDML_OUTPUT_IMPORT_HANDLE
!
!================================================================================================================================
!
!>Get the argument corresponding to the given type (named *.argument), importing it if needed.
FUNCTION FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE( FIELDML_INFO, TYPE_HANDLE, DO_IMPORT, ERR, ERROR )
!Argument variables
TYPE(FIELDML_IO_TYPE), INTENT(IN) :: FIELDML_INFO !<The FieldML parsing state.
LOGICAL, INTENT(IN) :: DO_IMPORT !<If true, import the argument.
INTEGER(INTG), INTENT(IN) :: TYPE_HANDLE !<The type out of whose name the argument name is built.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
INTEGER(INTG) :: FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE
!Local variables
CHARACTER(KIND=C_CHAR,LEN=MAXSTRLEN) :: NAME
INTEGER(INTG) :: LENGTH
INTEGER(INTG) :: HANDLE, FML_ERR
TYPE(VARYING_STRING) :: FULL_NAME
ENTERS( "FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE", ERR, ERROR, *999 )
LENGTH = Fieldml_CopyObjectName( FIELDML_INFO%FML_HANDLE, TYPE_HANDLE, NAME, MAXSTRLEN )
IF( LENGTH < 1 ) THEN
LENGTH = Fieldml_CopyObjectDeclaredName( FIELDML_INFO%FML_HANDLE, TYPE_HANDLE, NAME, MAXSTRLEN )
FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE = FML_INVALID_HANDLE
EXITS( "FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE" )
RETURN
ENDIF
IF( DO_IMPORT ) THEN
FULL_NAME = NAME(1:LENGTH)//".argument"
FML_ERR = FIELDML_OUTPUT_IMPORT( FIELDML_INFO, FULL_NAME, ERR, ERROR )
IF(ERR/=0) GOTO 999
ENDIF
HANDLE = Fieldml_GetObjectByName( FIELDML_INFO%FML_HANDLE, NAME(1:LENGTH)//".argument"//C_NULL_CHAR )
IF( HANDLE == FML_INVALID_HANDLE ) THEN
FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE = FML_INVALID_HANDLE
EXITS( "FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE" )
RETURN
ENDIF
FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE = HANDLE
ENTERS( "FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE", ERR, ERROR, *999 )
EXITS( "FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE", ERR, ERROR )
END FUNCTION FIELDML_OUTPUT_GET_TYPE_ARGUMENT_HANDLE
!
!================================================================================================================================
!
!>Get the FieldML built-in library type corresponding to the given OpenCMISS coordinate system type.
SUBROUTINE FIELDML_OUTPUT_GET_COORDINATES_TYPE( FIELDML_HANDLE, COORDS_TYPE, DIMENSIONS, DO_IMPORT, TYPE_HANDLE, &
& ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FIELDML_HANDLE !<The FieldML session handle.
INTEGER(INTG), INTENT(IN) :: COORDS_TYPE !<The OpenCMISS coordinates type.
INTEGER(INTG), INTENT(IN) :: DIMENSIONS !<The coordinate system's number of dimensions.
LOGICAL, INTENT(IN) :: DO_IMPORT !<If true, import the FieldML type.
INTEGER(INTG), INTENT(OUT) :: TYPE_HANDLE !<The FieldML type corresponding to the given OpenCMISS coordinate system type.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
TYPE(VARYING_STRING) :: TYPE_NAME
INTEGER(INTG) :: TEMP
ENTERS( "FIELDML_OUTPUT_GET_COORDINATES_TYPE", ERR, ERROR, *999 )
IF( COORDS_TYPE == COORDINATE_RECTANGULAR_CARTESIAN_TYPE ) THEN
IF( DIMENSIONS == 1 ) THEN
TYPE_NAME = "coordinates.rc.1d"
ELSE IF( DIMENSIONS == 2 ) THEN
TYPE_NAME = "coordinates.rc.2d"
ELSE IF( DIMENSIONS == 3 ) THEN
TYPE_NAME = "coordinates.rc.3d"
ELSE
TYPE_HANDLE = FML_INVALID_HANDLE
CALL FlagError( var_str("Cannot get FieldML RC coordinates type of dimension ")//DIMENSIONS//".", ERR, ERROR, *999)
ENDIF
ELSE
TYPE_HANDLE = FML_INVALID_HANDLE
CALL FlagError( var_str("Cannot get FieldML coordinates for OpenCMISS type ")//COORDS_TYPE//".", ERR, ERROR, *999 )
ENDIF
IF( DO_IMPORT ) THEN
TEMP = FIELDML_OUTPUT_IMPORT_FML( FIELDML_HANDLE, TYPE_NAME, ERR, ERROR )
IF(ERR/=0) GOTO 999
ENDIF
TYPE_HANDLE = Fieldml_GetObjectByName( FIELDML_HANDLE, cchar(TYPE_NAME) )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot get FieldML coordinates type "//char(TYPE_NAME)//".", FIELDML_HANDLE, &
& ERR, ERROR, *999 )
EXITS( "FIELDML_OUTPUT_GET_COORDINATES_TYPE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_COORDINATES_TYPE", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_COORDINATES_TYPE
!
!================================================================================================================================
!
!>Returns a generic n-dimensional real type from the built-in library.
SUBROUTINE FIELDML_OUTPUT_GET_GENERIC_TYPE( FIELDML_HANDLE, DIMENSIONS, TYPE_HANDLE, DO_IMPORT, ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FIELDML_HANDLE !<The FieldML session handle.
INTEGER(INTG), INTENT(IN) :: DIMENSIONS !<The number of dimensions of the type.
INTEGER(INTG), INTENT(OUT) :: TYPE_HANDLE !<The FieldML type.
LOGICAL, INTENT(IN) :: DO_IMPORT !<If true, import the type.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
TYPE(VARYING_STRING) :: TYPE_NAME
INTEGER(INTG) :: TEMP
ENTERS( "FIELDML_OUTPUT_GET_GENERIC_TYPE", ERR, ERROR, *999 )
IF( DIMENSIONS == 1 ) THEN
TYPE_NAME = "real.1d"
ELSE IF( DIMENSIONS == 2 ) THEN
TYPE_NAME = "real.2d"
ELSE IF( DIMENSIONS == 3 ) THEN
TYPE_NAME = "real.3d"
ELSE
TYPE_HANDLE = FML_INVALID_HANDLE
CALL FlagError( var_str("Cannot get FieldML generic type of dimensionality ")//DIMENSIONS//".", ERR, ERROR, *999 )
ENDIF
IF( DO_IMPORT ) THEN
TEMP = FIELDML_OUTPUT_IMPORT_FML( FIELDML_HANDLE, TYPE_NAME, ERR, ERROR )
IF(ERR/=0) GOTO 999
ENDIF
TYPE_HANDLE = Fieldml_GetObjectByName( FIELDML_HANDLE, cchar(TYPE_NAME) )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot get generic type "//TYPE_NAME//".", FIELDML_HANDLE, ERR, ERROR, *999 )
EXITS( "FIELDML_OUTPUT_GET_GENERIC_TYPE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_GENERIC_TYPE", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_GENERIC_TYPE
!
!================================================================================================================================
!
!>Returns a type in the built-in library corresponding to a chart of the given dimensionality.
SUBROUTINE FIELDML_OUTPUT_GET_XI_TYPE( FIELDML_HANDLE, DIMENSIONS, DO_IMPORT, TYPE_HANDLE, ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FIELDML_HANDLE !<The FieldML session handle.
INTEGER(INTG), INTENT(IN) :: DIMENSIONS !<The number of dimensions of the chart.
LOGICAL, INTENT(IN) :: DO_IMPORT !<If true, import the type.
INTEGER(INTG), INTENT(OUT) :: TYPE_HANDLE !<The FieldML type.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
INTEGER(INTG) :: TEMP
TYPE(VARYING_STRING) :: TYPE_NAME
ENTERS( "FIELDML_OUTPUT_GET_XI_TYPE", ERR, ERROR, *999 )
IF( DIMENSIONS == 1 ) THEN
TYPE_NAME = "chart.1d"
ELSE IF( DIMENSIONS == 2 ) THEN
TYPE_NAME = "chart.2d"
ELSE IF( DIMENSIONS == 3 ) THEN
TYPE_NAME = "chart.3d"
ELSE
TYPE_HANDLE = FML_INVALID_HANDLE
CALL FlagError( var_str("Chart dimensionality ")//DIMENSIONS//" not supported.", ERR, ERROR, *999 )
ENDIF
IF( DO_IMPORT ) THEN
TEMP = FIELDML_OUTPUT_IMPORT_FML( FIELDML_HANDLE, TYPE_NAME, ERR, ERROR )
IF(ERR/=0) GOTO 999
ENDIF
TYPE_HANDLE = Fieldml_GetObjectByName( FIELDML_HANDLE, cchar(TYPE_NAME) )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot get xi type "//TYPE_NAME//".", FIELDML_HANDLE, ERR, ERROR, *999 )
EXITS( "FIELDML_OUTPUT_GET_XI_TYPE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_XI_TYPE", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_XI_TYPE
!
!================================================================================================================================
!
!>Returns a FieldML type appropriate for the given OpenCMISS field.
SUBROUTINE FIELDML_OUTPUT_GET_VALUE_TYPE( FML_HANDLE, FIELD, VARIABLE_TYPE, DO_IMPORT, TYPE_HANDLE, ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FML_HANDLE !<The FieldML session handle.
TYPE(FIELD_TYPE), POINTER, INTENT(IN) :: FIELD !<The field whose type is to be obtained.
INTEGER(INTG), INTENT(IN) :: VARIABLE_TYPE !<The OpenCMISS variable type to generate dofs for.
LOGICAL, INTENT(IN) :: DO_IMPORT !<If true, import the type.
INTEGER(INTG), INTENT(OUT) :: TYPE_HANDLE !<The FieldML type handle.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
INTEGER(INTG) :: FIELDTYPE, SUB_TYPE, COUNT
TYPE(COORDINATE_SYSTEM_TYPE), POINTER :: COORDINATE_SYSTEM
TYPE(REGION_TYPE), POINTER :: REGION
ENTERS( "FIELDML_OUTPUT_GET_VALUE_TYPE", ERR, ERROR, *999 )
REGION => FIELD%REGION
CALL FIELD_TYPE_GET( FIELD, FIELDTYPE, ERR, ERROR, *999 )
CALL FIELD_NUMBER_OF_COMPONENTS_GET( FIELD, VARIABLE_TYPE, COUNT, ERR, ERROR, *999 )
SELECT CASE( FIELDTYPE )
CASE( FIELD_GEOMETRIC_TYPE )
NULLIFY( COORDINATE_SYSTEM )
CALL REGION_COORDINATE_SYSTEM_GET( REGION, COORDINATE_SYSTEM, ERR, ERROR, *999 )
CALL COORDINATE_SYSTEM_TYPE_GET( COORDINATE_SYSTEM, SUB_TYPE, ERR, ERROR, *999 )
CALL FIELDML_OUTPUT_GET_COORDINATES_TYPE( FML_HANDLE, SUB_TYPE, COUNT, DO_IMPORT, TYPE_HANDLE, ERR, ERROR, *999 )
!CASE( CMISSFieldFibreType )
!CASE( CMISSFieldGeneralType )
!CASE( CMISSFieldMaterialType )
CASE DEFAULT
CALL FIELDML_OUTPUT_GET_GENERIC_TYPE( FML_HANDLE, COUNT, TYPE_HANDLE, DO_IMPORT, ERR, ERROR, *999 )
END SELECT
EXITS( "FIELDML_OUTPUT_GET_VALUE_TYPE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_VALUE_TYPE", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_VALUE_TYPE
!
!================================================================================================================================
!
!>Get an evaluator from the built-in library that corresponds to the given OpenCMISS tensor-product basis.
SUBROUTINE FIELDML_OUTPUT_GET_TP_BASIS_EVALUATOR( FML_HANDLE, XI_INTERPOLATIONS, COLLAPSE_INFO, EVALUATOR_HANDLE, &
& PARAMETERS_HANDLE, ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FML_HANDLE !<The FieldML session handle
INTEGER(INTG), INTENT(IN) :: XI_INTERPOLATIONS(:) !<The per-xi interpolations used by the basis.
INTEGER(INTG), INTENT(IN) :: COLLAPSE_INFO(:) !<The basis collapse info.
INTEGER(INTG), INTENT(OUT) :: EVALUATOR_HANDLE !<The evaluator handle for the basis.
INTEGER(INTG), INTENT(OUT) :: PARAMETERS_HANDLE !<The basis parameters argument evaluator.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string.
!Locals
INTEGER(INTG) :: XI_COUNT, FIRST_INTERPOLATION, I
TYPE(VARYING_STRING) :: SUFFIX, INTERPOLATOR_NAME, PARAMETER_NAME
ENTERS( "FIELDML_OUTPUT_GET_TP_BASIS_EVALUATOR", ERR, ERROR, *999 )
XI_COUNT = SIZE( XI_INTERPOLATIONS )
DO I = 1, XI_COUNT
IF( I == 1 ) THEN
FIRST_INTERPOLATION = XI_INTERPOLATIONS(I)
ELSE IF( XI_INTERPOLATIONS(I) /= FIRST_INTERPOLATION ) THEN
!Do not yet support inhomogeneous TP bases
CALL FlagError( "Translation of inhomogeneous tensor-product basis not yet supported.", ERR, ERROR, *999 )
ENDIF
ENDDO
CALL FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX( COLLAPSE_INFO, SUFFIX, ERR, ERROR, *999 )
EVALUATOR_HANDLE = FML_INVALID_HANDLE
PARAMETERS_HANDLE = FML_INVALID_HANDLE
IF( FIRST_INTERPOLATION == BASIS_QUADRATIC_LAGRANGE_INTERPOLATION ) THEN
IF( XI_COUNT == 1 ) THEN
INTERPOLATOR_NAME = "interpolator.1d.unit.quadraticLagrange"
PARAMETER_NAME = "parameters.1d.unit.quadraticLagrange"
ELSE IF( XI_COUNT == 2 ) THEN
INTERPOLATOR_NAME = "interpolator.2d.unit.biquadraticLagrange"//SUFFIX
PARAMETER_NAME = "parameters.2d.unit.biquadraticLagrange"//SUFFIX
ELSE IF( XI_COUNT == 3 ) THEN
INTERPOLATOR_NAME = "interpolator.3d.unit.triquadraticLagrange"//SUFFIX
PARAMETER_NAME = "parameters.3d.unit.triquadraticLagrange"//SUFFIX
ELSE
!Do not yet support dimensions higher than 3.
CALL FlagError( var_str("Quadratic Lagrangian interpolation not supported for ")//XI_COUNT//" dimensions.", &
& ERR, ERROR, *999 )
ENDIF
ELSE IF( FIRST_INTERPOLATION == BASIS_LINEAR_LAGRANGE_INTERPOLATION ) THEN
IF( XI_COUNT == 1 ) THEN
INTERPOLATOR_NAME = "interpolator.1d.unit.linearLagrange"
PARAMETER_NAME = "parameters.1d.unit.linearLagrange"
ELSE IF( XI_COUNT == 2 ) THEN
INTERPOLATOR_NAME = "interpolator.2d.unit.bilinearLagrange"//SUFFIX
PARAMETER_NAME = "parameters.2d.unit.bilinearLagrange"//SUFFIX
ELSE IF( XI_COUNT == 3 ) THEN
INTERPOLATOR_NAME = "interpolator.3d.unit.trilinearLagrange"//SUFFIX
PARAMETER_NAME = "parameters.3d.unit.trilinearLagrange"//SUFFIX
ELSE
!Do not yet support dimensions higher than 3.
CALL FlagError( var_str("Quadratic Lagrangian interpolation not supported for ")//XI_COUNT//" dimensions.", &
& ERR, ERROR, *999 )
ENDIF
ELSE
CALL FlagError( var_str("FieldML translation not yet supported for interpolation type ")//FIRST_INTERPOLATION//".", &
& ERR, ERROR, *999 )
ENDIF
EVALUATOR_HANDLE = FIELDML_OUTPUT_IMPORT_FML( FML_HANDLE, INTERPOLATOR_NAME, ERR, ERROR )
IF( ERR /= 0 ) CALL FlagError( "Could not import interpolator "//char(INTERPOLATOR_NAME)//".", ERR, ERROR, *999 )
PARAMETERS_HANDLE = FIELDML_OUTPUT_IMPORT_FML( FML_HANDLE, PARAMETER_NAME, ERR, ERROR )
IF( ERR /= 0 ) CALL FlagError( "Could not import parameter type "//char(PARAMETER_NAME)//".", ERR, ERROR, *999 )
IF( EVALUATOR_HANDLE == FML_INVALID_HANDLE ) THEN
CALL FlagError( "Cannot get a handle for basis evaluator "//char(INTERPOLATOR_NAME)//".", ERR, ERROR, *999 )
ENDIF
IF( PARAMETERS_HANDLE == FML_INVALID_HANDLE ) THEN
CALL FlagError( "Cannot get a handle for basis parameters "//char(PARAMETER_NAME)//".", ERR, ERROR, *999 )
ENDIF
EXITS( "FIELDML_OUTPUT_GET_TP_BASIS_EVALUATOR" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_TP_BASIS_EVALUATOR", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_TP_BASIS_EVALUATOR
!
!================================================================================================================================
!
!>Get an evaluator from the built-in library that corresponds to the given OpenCMISS simplex basis. Currently does not support collapsed bases
SUBROUTINE FieldmlOutputGetSimplexBasisEvaluator( fmlHandle, xiInterpolations, evaluatorHandle, &
& parametersHandle, err, error, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: fmlHandle !<The FieldML session handle
INTEGER(INTG), INTENT(IN) :: xiInterpolations(:) !<The per-xi interpolations used by the basis.
INTEGER(INTG), INTENT(OUT) :: evaluatorHandle !<The evaluator handle for the basis.
INTEGER(INTG), INTENT(OUT) :: parametersHandle !<The basis parameters argument evaluator.
INTEGER(INTG), INTENT(OUT) :: err !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: error !<The error string.
!Locals
INTEGER(INTG) :: xiCount, firstInterpolation, i
TYPE(VARYING_STRING) :: interpolatorName, parameterName
ENTERS( "FieldmlOutputGetSimplexBasisEvaluator", err, error, *999 )
xiCount = SIZE( xiInterpolations )
DO i = 1, xiCount
IF( i == 1 ) THEN
firstInterpolation = xiInterpolations(i)
ELSE IF( xiInterpolations(i) /= firstInterpolation ) THEN
!Do not yet support inhomogeneous simplex bases
CALL Flag_Error( "Translation of inhomogeneous tensor-product basis not yet supported.", err, error, *999 )
ENDIF
ENDDO
evaluatorHandle = FML_INVALID_HANDLE
parametersHandle = FML_INVALID_HANDLE
IF( firstInterpolation == BASIS_QUADRATIC_SIMPLEX_INTERPOLATION ) THEN
IF( xiCount == 1 ) THEN
interpolatorName = "interpolator.1d.unit.quadraticSimplex"
parameterName = "parameters.1d.unit.quadraticLagrange"
ELSE IF( xiCount == 2 ) THEN
interpolatorName = "interpolator.2d.unit.biquadraticSimplex.vtk"
parameterName = "parameters.2d.unit.biquadraticSimplex.vtk"
ELSE IF( xiCount == 3 ) THEN
interpolatorName = "interpolator.3d.unit.triquadraticSimplex.zienkiewicz"
parameterName = "parameters.3d.unit.triquadraticSimplex.zienkiewicz"
ELSE
!Do not yet support dimensions higher than 3.
CALL Flag_Error( var_str("Quadratic simplex interpolation not supported for ")//xiCount//" dimensions.", &
& err, error, *999 )
ENDIF
ELSE IF( firstInterpolation == BASIS_LINEAR_SIMPLEX_INTERPOLATION ) THEN
IF( xiCount == 1 ) THEN
interpolatorName = "interpolator.1d.unit.linearSimplex"
parameterName = "parameters.1d.unit.linearLagrange"
ELSE IF( xiCount == 2 ) THEN
interpolatorName = "interpolator.2d.unit.bilinearSimplex"
parameterName = "parameters.2d.unit.bilinearSimplex"
ELSE IF( xiCount == 3 ) THEN
interpolatorName = "interpolator.3d.unit.trilinearSimplex"
parameterName = "parameters.3d.unit.trilinearSimplex"
ELSE
!Do not yet support dimensions higher than 3.
CALL Flag_Error( var_str("Linear simplex interpolation not supported for ")//xiCount//" dimensions.", &
& err, error, *999 )
ENDIF
ELSE
CALL Flag_Error( var_str("FieldML translation not yet supported for interpolation type ")//firstInterpolation//".", &
& err, error, *999 )
ENDIF
evaluatorHandle = FIELDML_OUTPUT_IMPORT_FML( fmlHandle, interpolatorName, err, error )
IF( err /= 0 ) CALL Flag_Error( "Could not import interpolator "//char(interpolatorName)//".", err, error, *999 )
parametersHandle = FIELDML_OUTPUT_IMPORT_FML( fmlHandle, parameterName, err, error )
IF( err /= 0 ) CALL Flag_Error( "Could not import parameter type "//char(parameterName)//".", err, error, *999 )
IF( evaluatorHandle == FML_INVALID_HANDLE ) THEN
CALL Flag_Error( "Cannot get a handle for basis evaluator "//char(interpolatorName)//".", err, error, *999 )
ENDIF
IF( parametersHandle == FML_INVALID_HANDLE ) THEN
CALL Flag_Error( "Cannot get a handle for basis parameters "//char(parameterName)//".", err, error, *999 )
ENDIF
EXITS( "FieldmlOutputGetSimplexBasisEvaluator" )
RETURN
999 ERRORSEXITS( "FieldmlOutputGetSimplexBasisEvaluator", err, error )
RETURN 1
END SUBROUTINE FieldmlOutputGetSimplexBasisEvaluator
!
!================================================================================================================================
!
!>Return the FieldML connectivity ensemble corresponding to the given tensor-product basis info.
SUBROUTINE FIELDML_OUTPUT_GET_TP_CONNECTIVITY_TYPE( FIELDML_HANDLE, XI_INTERPOLATIONS, COLLAPSE_INFO, DO_IMPORT, TYPE_HANDLE, &
& ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FIELDML_HANDLE !<The FieldML session handle.
INTEGER(INTG), INTENT(IN) :: XI_INTERPOLATIONS(:) !<The per-xi interpolation of the given TP basis.
INTEGER(INTG), INTENT(IN) :: COLLAPSE_INFO(:) !<The collapse-constant for the given basis.
LOGICAL, INTENT(IN) :: DO_IMPORT !<If true, import the connectivity ensemble.
INTEGER(INTG), INTENT(OUT) :: TYPE_HANDLE !<The FieldML ensemble handle.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
INTEGER(INTG) :: XI_COUNT, FIRST_INTERPOLATION, I, IMPORT_INDEX, TEMP
TYPE(VARYING_STRING) :: SUFFIX, LAYOUT_NAME
ENTERS( "FIELDML_OUTPUT_GET_TP_CONNECTIVITY_TYPE", ERR, ERROR, *999 )
XI_COUNT = SIZE( XI_INTERPOLATIONS )
IMPORT_INDEX = Fieldml_AddImportSource( FIELDML_HANDLE, &
& "http://www.fieldml.org/resources/xml/0.5/FieldML_Library_0.5.xml"//C_NULL_CHAR, "library"//C_NULL_CHAR )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot access built-in FieldML library.", FIELDML_HANDLE, ERR, ERROR, *999 )
FIRST_INTERPOLATION = XI_INTERPOLATIONS(1)
DO I = 2, XI_COUNT
IF( XI_INTERPOLATIONS(I) /= FIRST_INTERPOLATION ) THEN
!Do not yet support inhomogeneous TP bases
CALL FlagError( "FieldML translation of inhomogeneous tensor-product bases are not yet supported.", &
& ERR, ERROR, *999 )
ENDIF
ENDDO
CALL FIELDML_OUTPUT_GET_COLLAPSE_SUFFIX( COLLAPSE_INFO, SUFFIX, ERR, ERROR, *999 )
IF( FIRST_INTERPOLATION == BASIS_QUADRATIC_LAGRANGE_INTERPOLATION ) THEN
IF( XI_COUNT == 1 ) THEN
LAYOUT_NAME = "localNodes.1d.line3"
ELSE IF( XI_COUNT == 2 ) THEN
LAYOUT_NAME = "localNodes.2d.square3x3"//SUFFIX
ELSE IF( XI_COUNT == 3 ) THEN
LAYOUT_NAME = "localNodes.3d.cube3x3x3"//SUFFIX
ELSE
!Do not yet support dimensions higher than 3.
CALL FlagError( var_str("Quadratic Lagrangian interpolation not supported for ")//XI_COUNT//" dimensions.", &
& ERR, ERROR, *999 )
ENDIF
ELSE IF( FIRST_INTERPOLATION == BASIS_LINEAR_LAGRANGE_INTERPOLATION ) THEN
IF( XI_COUNT == 1 ) THEN
LAYOUT_NAME = "localNodes.1d.line2"
ELSE IF( XI_COUNT == 2 ) THEN
LAYOUT_NAME = "localNodes.2d.square2x2"//SUFFIX
ELSE IF( XI_COUNT == 3 ) THEN
LAYOUT_NAME = "localNodes.3d.cube2x2x2"//SUFFIX
ELSE
!Do not yet support dimensions higher than 3.
CALL FlagError( var_str("Linear Lagrangian interpolation not supported for ")//XI_COUNT//" dimensions.", &
& ERR, ERROR, *999 )
ENDIF
ELSE
CALL FlagError( var_str("FieldML translation not yet supported for interpolation type ")//FIRST_INTERPOLATION//".", &
& ERR, ERROR, *999 )
ENDIF
IF( DO_IMPORT ) THEN
TEMP = FIELDML_OUTPUT_IMPORT_FML( FIELDML_HANDLE, LAYOUT_NAME, ERR, ERROR )
IF(ERR/=0) GOTO 999
ENDIF
TYPE_HANDLE = Fieldml_GetObjectByName( FIELDML_HANDLE, cchar(LAYOUT_NAME) )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot get local nodes type "//LAYOUT_NAME//".", FIELDML_HANDLE, ERR, ERROR, *999 )
EXITS( "FIELDML_OUTPUT_GET_TP_CONNECTIVITY_TYPE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_TP_CONNECTIVITY_TYPE", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_TP_CONNECTIVITY_TYPE
!
!================================================================================================================================
!
!>Return the FieldML connectivity ensemble corresponding to the given simplex basis info.
SUBROUTINE FieldmlOutputGetSimplexConnectivityType( fieldmlHandle, xiInterpolations, doImport, typeHandle, err, error, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: fieldmlHandle !<The FieldML session handle.
INTEGER(INTG), INTENT(IN) :: xiInterpolations(:) !<The per-xi interpolation of the given TP basis.
LOGICAL, INTENT(IN) :: doImport !<If true, import the connectivity ensemble.
INTEGER(INTG), INTENT(OUT) :: typeHandle !<The FieldML ensemble handle.
INTEGER(INTG), INTENT(OUT) :: err !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: error !<The error string
!Locals
INTEGER(INTG) :: xiCount, firstInterpolation, i, importIndex, temp
TYPE(VARYING_STRING) :: layoutName
ENTERS( "FieldmlOutputGetSimplexConnectivityType", err, error, *999 )
xiCount = SIZE( xiInterpolations )
importIndex = Fieldml_AddImportSource( fieldmlHandle, &
& "http://www.fieldml.org/resources/xml/0.4/FieldML_Library_0.4.xml"//C_NULL_CHAR, "library"//C_NULL_CHAR )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot access built-in FieldML library.", fieldmlHandle, err, error, *999 )
firstInterpolation = xiInterpolations(1)
DO i = 2, xiCount
IF( xiInterpolations(i) /= firstInterpolation ) THEN
!Do not yet support inhomogeneous TP bases
CALL Flag_Error( "FieldML translation of inhomogeneous simplex bases are not yet supported.", &
& err, error, *999 )
ENDIF
ENDDO
IF( firstInterpolation == BASIS_QUADRATIC_SIMPLEX_INTERPOLATION ) THEN
IF( xiCount == 1 ) THEN
layoutName = "localNodes.1d.line3"
ELSE IF( xiCount == 2 ) THEN
layoutName = "localNodes.2d.triangle6.vtk"
ELSE IF( xiCount == 3 ) THEN
layoutName = "localNodes.3d.tetrahedron10.zienkiewicz"
ELSE
!Do not yet support dimensions higher than 3.
CALL Flag_Error( var_str("Quadratic Simplex interpolation not supported for ")//xiCount//" dimensions.", &
& err, error, *999 )
ENDIF
ELSE IF( firstInterpolation == BASIS_LINEAR_SIMPLEX_INTERPOLATION ) THEN
IF( xiCount == 1 ) THEN
layoutName = "localNodes.1d.line2"
ELSE IF( xiCount == 2 ) THEN
layoutName = "localNodes.2d.triangle3"
ELSE IF( xiCount == 3 ) THEN
layoutName = "localNodes.3d.tetrahedron4"
ELSE
!Do not yet support dimensions higher than 3.
CALL Flag_Error( var_str("Linear Simplex interpolation not supported for ")//xiCount//" dimensions.", &
& err, error, *999 )
ENDIF
ELSE
CALL Flag_Error( var_str("FieldML translation not yet supported for interpolation type ")//firstInterpolation//".", &
& err, error, *999 )
ENDIF
IF( doImport ) THEN
temp = FIELDML_OUTPUT_IMPORT_FML( fieldmlHandle, layoutName, err, error )
IF(err/=0) GOTO 999
ENDIF
typeHandle = Fieldml_GetObjectByName( fieldmlHandle, cchar(layoutName) )
CALL FIELDML_UTIL_CHECK_FIELDML_ERROR( "Cannot get local nodes type "//layoutName//".", fieldmlHandle, err, error, *999 )
EXITS( "FieldmlOutputGetSimplexConnectivityType" )
RETURN
999 ERRORSEXITS( "FieldmlOutputGetSimplexConnectivityType", err, error )
RETURN 1
END SUBROUTINE FieldmlOutputGetSimplexConnectivityType
!
!================================================================================================================================
!
!>Get the connectivity ensemble for the given basis. Currently, only tensor-product bases are supported.
SUBROUTINE FIELDML_OUTPUT_GET_CONNECTIVITY_ENSEMBLE( FIELDML_HANDLE, BASIS, TYPE_HANDLE, ERR, ERROR, * )
!Argument variables
INTEGER(INTG), INTENT(IN) :: FIELDML_HANDLE !<The FieldML session handle.
TYPE(BASIS_TYPE), POINTER :: BASIS !<The basis for which to return the connectivity.
INTEGER(INTG), INTENT(OUT) :: TYPE_HANDLE !<The FieldML connectivity ensemble.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Locals
INTEGER(INTG) :: BASISTYPE, XI_COUNT
INTEGER(INTG), ALLOCATABLE :: XI_INTERPOLATIONS(:), COLLAPSE_INFO(:)
ENTERS( "FIELDML_OUTPUT_GET_CONNECTIVITY_ENSEMBLE", ERR, ERROR, *999 )
TYPE_HANDLE = FML_INVALID_HANDLE
CALL BASIS_TYPE_GET( BASIS, BASISTYPE, ERR, ERROR, *999 )
CALL BASIS_NUMBER_OF_XI_GET( BASIS, XI_COUNT, ERR, ERROR, *999 )
IF( BASISTYPE == BASIS_LAGRANGE_HERMITE_TP_TYPE ) THEN
ALLOCATE( XI_INTERPOLATIONS( XI_COUNT ), STAT = ERR )
IF( ERR /= 0 ) CALL FlagError( "Could not allocate xi interpolations array.", ERR, ERROR, *999 )
ALLOCATE( COLLAPSE_INFO( XI_COUNT ), STAT = ERR )
IF( ERR /= 0 ) CALL FlagError( "Could not allocate collapse info array.", ERR, ERROR, *999 )
CALL BASIS_INTERPOLATION_XI_GET( BASIS, XI_INTERPOLATIONS, ERR, ERROR, *999 )
CALL BASIS_COLLAPSED_XI_GET( BASIS, COLLAPSE_INFO, ERR, ERROR, *999 )
CALL FIELDML_OUTPUT_GET_TP_CONNECTIVITY_TYPE( FIELDML_HANDLE, XI_INTERPOLATIONS, COLLAPSE_INFO, .TRUE., TYPE_HANDLE, &
& ERR, ERROR, *999 )
DEALLOCATE( XI_INTERPOLATIONS )
DEALLOCATE( COLLAPSE_INFO )
ELSE IF( BASISTYPE == BASIS_SIMPLEX_TYPE ) THEN
ALLOCATE( XI_INTERPOLATIONS( XI_COUNT ), STAT = ERR )
IF( ERR /= 0 ) CALL FlagError( "Could not allocate xi interpolations array.", ERR, ERROR, *999 )
CALL BASIS_INTERPOLATION_XI_GET( BASIS, XI_INTERPOLATIONS, ERR, ERROR, *999 )
CALL FieldmlOutputGetSimplexConnectivityType( FIELDML_HANDLE, XI_INTERPOLATIONS, .TRUE., TYPE_HANDLE, &
& ERR, ERROR, *999 )
DEALLOCATE( XI_INTERPOLATIONS )
ELSE
CALL FlagError( "Only translation of tensor product bases are currently supported", ERR, ERROR, *999 )
ENDIF
EXITS( "FIELDML_OUTPUT_GET_CONNECTIVITY_ENSEMBLE" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_GET_CONNECTIVITY_ENSEMBLE", ERR, ERROR )
RETURN 1
END SUBROUTINE FIELDML_OUTPUT_GET_CONNECTIVITY_ENSEMBLE
!
!================================================================================================================================
!
!>Returns the index of the layout handle used by the given connectivity info array, or -1 if none can be found.
FUNCTION FIELDML_OUTPUT_FIND_LAYOUT( CONNECTIVITY_INFO, LAYOUT_HANDLE, ERR, ERROR )
!Argument variables
TYPE(CONNECTIVITY_INFO_TYPE), INTENT(IN) :: CONNECTIVITY_INFO(:) !<The connectivity info array to search.
INTEGER(INTG), INTENT(IN) :: LAYOUT_HANDLE !<The local node layout handle to search for.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Function
INTEGER(INTG) :: FIELDML_OUTPUT_FIND_LAYOUT
!Locals
INTEGER(INTG) :: I
ENTERS( "FIELDML_OUTPUT_FIND_LAYOUT", ERR, ERROR, *999 )
FIELDML_OUTPUT_FIND_LAYOUT = -1
DO I = 1, SIZE( CONNECTIVITY_INFO )
IF( CONNECTIVITY_INFO(I)%LAYOUT_HANDLE == LAYOUT_HANDLE ) THEN
FIELDML_OUTPUT_FIND_LAYOUT = I
ENDIF
ENDDO
EXITS( "FIELDML_OUTPUT_FIND_LAYOUT" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_FIND_LAYOUT", ERR, ERROR )
END FUNCTION FIELDML_OUTPUT_FIND_LAYOUT
!
!================================================================================================================================
!
!>Returns the index of the basis handle used by the given basis info array, or -1 if none can be found.
FUNCTION FIELDML_OUTPUT_FIND_BASIS( BASIS_INFO, BASIS, ERR, ERROR )
!Argument variables
TYPE(BASIS_INFO_TYPE), INTENT(IN) :: BASIS_INFO(:) !<The basis info array to search.
TYPE(BASIS_TYPE), POINTER, INTENT(IN) :: BASIS !<The basis handle to search for.
INTEGER(INTG), INTENT(OUT) :: ERR !<The error code.
TYPE(VARYING_STRING), INTENT(OUT) :: ERROR !<The error string
!Function
INTEGER(INTG) :: FIELDML_OUTPUT_FIND_BASIS
!Locals
INTEGER(INTG) :: I
ENTERS( "FIELDML_OUTPUT_FIND_BASIS", ERR, ERROR, *999 )
FIELDML_OUTPUT_FIND_BASIS = -1
DO I = 1, SIZE( BASIS_INFO )
IF( ASSOCIATED( BASIS_INFO(I)%BASIS, TARGET = BASIS ) ) THEN
FIELDML_OUTPUT_FIND_BASIS = I
ENDIF
ENDDO
EXITS( "FIELDML_OUTPUT_FIND_BASIS" )
RETURN
999 ERRORSEXITS( "FIELDML_OUTPUT_FIND_BASIS", ERR, ERROR )