! * ************************************************************************** * ! * Interface auto generated - do not modify * ! * ************************************************************************** * #include "xios_fortran_prefix.hpp" MODULE iaxis_attr USE, INTRINSIC :: ISO_C_BINDING USE iaxis USE axis_interface_attr CONTAINS SUBROUTINE xios(set_axis_attr) & ( axis_id, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) IMPLICIT NONE TYPE(txios(axis)) :: axis_hdl CHARACTER(LEN=*), INTENT(IN) ::axis_id CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: axis_ref CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: axis_type INTEGER , OPTIONAL, INTENT(IN) :: begin REAL (KIND=8) , OPTIONAL, INTENT(IN) :: bounds(:,:) CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: bounds_name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: comment INTEGER , OPTIONAL, INTENT(IN) :: data_begin INTEGER , OPTIONAL, INTENT(IN) :: data_index(:) INTEGER , OPTIONAL, INTENT(IN) :: data_n CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: dim_name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_bounds CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_term CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_term_bounds INTEGER , OPTIONAL, INTENT(IN) :: index(:) CHARACTER(len=*) , OPTIONAL, INTENT(IN) :: label(:) CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: long_name LOGICAL , OPTIONAL, INTENT(IN) :: mask(:) LOGICAL (KIND=C_BOOL) , ALLOCATABLE :: mask_tmp(:) INTEGER , OPTIONAL, INTENT(IN) :: n INTEGER , OPTIONAL, INTENT(IN) :: n_distributed_partition INTEGER , OPTIONAL, INTENT(IN) :: n_glo CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: positive INTEGER , OPTIONAL, INTENT(IN) :: prec CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: standard_name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: unit REAL (KIND=8) , OPTIONAL, INTENT(IN) :: value(:) CALL xios(get_axis_handle) & (axis_id,axis_hdl) CALL xios(set_axis_attr_hdl_) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) END SUBROUTINE xios(set_axis_attr) SUBROUTINE xios(set_axis_attr_hdl) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) IMPLICIT NONE TYPE(txios(axis)) , INTENT(IN) :: axis_hdl CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: axis_ref CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: axis_type INTEGER , OPTIONAL, INTENT(IN) :: begin REAL (KIND=8) , OPTIONAL, INTENT(IN) :: bounds(:,:) CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: bounds_name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: comment INTEGER , OPTIONAL, INTENT(IN) :: data_begin INTEGER , OPTIONAL, INTENT(IN) :: data_index(:) INTEGER , OPTIONAL, INTENT(IN) :: data_n CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: dim_name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_bounds CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_term CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_term_bounds INTEGER , OPTIONAL, INTENT(IN) :: index(:) CHARACTER(len=*) , OPTIONAL, INTENT(IN) :: label(:) CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: long_name LOGICAL , OPTIONAL, INTENT(IN) :: mask(:) LOGICAL (KIND=C_BOOL) , ALLOCATABLE :: mask_tmp(:) INTEGER , OPTIONAL, INTENT(IN) :: n INTEGER , OPTIONAL, INTENT(IN) :: n_distributed_partition INTEGER , OPTIONAL, INTENT(IN) :: n_glo CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: positive INTEGER , OPTIONAL, INTENT(IN) :: prec CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: standard_name CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: unit REAL (KIND=8) , OPTIONAL, INTENT(IN) :: value(:) CALL xios(set_axis_attr_hdl_) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) END SUBROUTINE xios(set_axis_attr_hdl) SUBROUTINE xios(set_axis_attr_hdl_) & ( axis_hdl, axis_ref_, axis_type_, begin_, bounds_, bounds_name_, comment_, data_begin_, data_index_ & , data_n_, dim_name_, formula_, formula_bounds_, formula_term_, formula_term_bounds_, index_ & , label_, long_name_, mask_, n_, n_distributed_partition_, n_glo_, name_, positive_, prec_, standard_name_ & , unit_, value_ ) IMPLICIT NONE TYPE(txios(axis)) , INTENT(IN) :: axis_hdl CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: axis_ref_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: axis_type_ INTEGER , OPTIONAL, INTENT(IN) :: begin_ REAL (KIND=8) , OPTIONAL, INTENT(IN) :: bounds_(:,:) CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: bounds_name_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: comment_ INTEGER , OPTIONAL, INTENT(IN) :: data_begin_ INTEGER , OPTIONAL, INTENT(IN) :: data_index_(:) INTEGER , OPTIONAL, INTENT(IN) :: data_n_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: dim_name_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_bounds_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_term_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: formula_term_bounds_ INTEGER , OPTIONAL, INTENT(IN) :: index_(:) CHARACTER(len=*) , OPTIONAL, INTENT(IN) :: label_(:) CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: long_name_ LOGICAL , OPTIONAL, INTENT(IN) :: mask_(:) LOGICAL (KIND=C_BOOL) , ALLOCATABLE :: mask__tmp(:) INTEGER , OPTIONAL, INTENT(IN) :: n_ INTEGER , OPTIONAL, INTENT(IN) :: n_distributed_partition_ INTEGER , OPTIONAL, INTENT(IN) :: n_glo_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: name_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: positive_ INTEGER , OPTIONAL, INTENT(IN) :: prec_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: standard_name_ CHARACTER(len = *) , OPTIONAL, INTENT(IN) :: unit_ REAL (KIND=8) , OPTIONAL, INTENT(IN) :: value_(:) IF (PRESENT(axis_ref_)) THEN CALL cxios_set_axis_axis_ref & (axis_hdl%daddr, axis_ref_, len(axis_ref_)) ENDIF IF (PRESENT(axis_type_)) THEN CALL cxios_set_axis_axis_type & (axis_hdl%daddr, axis_type_, len(axis_type_)) ENDIF IF (PRESENT(begin_)) THEN CALL cxios_set_axis_begin & (axis_hdl%daddr, begin_) ENDIF IF (PRESENT(bounds_)) THEN CALL cxios_set_axis_bounds & (axis_hdl%daddr, bounds_, SHAPE(bounds_)) ENDIF IF (PRESENT(bounds_name_)) THEN CALL cxios_set_axis_bounds_name & (axis_hdl%daddr, bounds_name_, len(bounds_name_)) ENDIF IF (PRESENT(comment_)) THEN CALL cxios_set_axis_comment & (axis_hdl%daddr, comment_, len(comment_)) ENDIF IF (PRESENT(data_begin_)) THEN CALL cxios_set_axis_data_begin & (axis_hdl%daddr, data_begin_) ENDIF IF (PRESENT(data_index_)) THEN CALL cxios_set_axis_data_index & (axis_hdl%daddr, data_index_, SHAPE(data_index_)) ENDIF IF (PRESENT(data_n_)) THEN CALL cxios_set_axis_data_n & (axis_hdl%daddr, data_n_) ENDIF IF (PRESENT(dim_name_)) THEN CALL cxios_set_axis_dim_name & (axis_hdl%daddr, dim_name_, len(dim_name_)) ENDIF IF (PRESENT(formula_)) THEN CALL cxios_set_axis_formula & (axis_hdl%daddr, formula_, len(formula_)) ENDIF IF (PRESENT(formula_bounds_)) THEN CALL cxios_set_axis_formula_bounds & (axis_hdl%daddr, formula_bounds_, len(formula_bounds_)) ENDIF IF (PRESENT(formula_term_)) THEN CALL cxios_set_axis_formula_term & (axis_hdl%daddr, formula_term_, len(formula_term_)) ENDIF IF (PRESENT(formula_term_bounds_)) THEN CALL cxios_set_axis_formula_term_bounds & (axis_hdl%daddr, formula_term_bounds_, len(formula_term_bounds_)) ENDIF IF (PRESENT(index_)) THEN CALL cxios_set_axis_index & (axis_hdl%daddr, index_, SHAPE(index_)) ENDIF IF (PRESENT(label_)) THEN CALL cxios_set_axis_label & (axis_hdl%daddr, label_, LEN(label_), LEN_TRIM(label_), SHAPE(label_)) ENDIF IF (PRESENT(long_name_)) THEN CALL cxios_set_axis_long_name & (axis_hdl%daddr, long_name_, len(long_name_)) ENDIF IF (PRESENT(mask_)) THEN ALLOCATE(mask__tmp(SIZE(mask_,1))) mask__tmp = mask_ CALL cxios_set_axis_mask & (axis_hdl%daddr, mask__tmp, SHAPE(mask_)) ENDIF IF (PRESENT(n_)) THEN CALL cxios_set_axis_n & (axis_hdl%daddr, n_) ENDIF IF (PRESENT(n_distributed_partition_)) THEN CALL cxios_set_axis_n_distributed_partition & (axis_hdl%daddr, n_distributed_partition_) ENDIF IF (PRESENT(n_glo_)) THEN CALL cxios_set_axis_n_glo & (axis_hdl%daddr, n_glo_) ENDIF IF (PRESENT(name_)) THEN CALL cxios_set_axis_name & (axis_hdl%daddr, name_, len(name_)) ENDIF IF (PRESENT(positive_)) THEN CALL cxios_set_axis_positive & (axis_hdl%daddr, positive_, len(positive_)) ENDIF IF (PRESENT(prec_)) THEN CALL cxios_set_axis_prec & (axis_hdl%daddr, prec_) ENDIF IF (PRESENT(standard_name_)) THEN CALL cxios_set_axis_standard_name & (axis_hdl%daddr, standard_name_, len(standard_name_)) ENDIF IF (PRESENT(unit_)) THEN CALL cxios_set_axis_unit & (axis_hdl%daddr, unit_, len(unit_)) ENDIF IF (PRESENT(value_)) THEN CALL cxios_set_axis_value & (axis_hdl%daddr, value_, SHAPE(value_)) ENDIF END SUBROUTINE xios(set_axis_attr_hdl_) SUBROUTINE xios(get_axis_attr) & ( axis_id, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) IMPLICIT NONE TYPE(txios(axis)) :: axis_hdl CHARACTER(LEN=*), INTENT(IN) ::axis_id CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: axis_ref CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: axis_type INTEGER , OPTIONAL, INTENT(OUT) :: begin REAL (KIND=8) , OPTIONAL, INTENT(OUT) :: bounds(:,:) CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: bounds_name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: comment INTEGER , OPTIONAL, INTENT(OUT) :: data_begin INTEGER , OPTIONAL, INTENT(OUT) :: data_index(:) INTEGER , OPTIONAL, INTENT(OUT) :: data_n CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: dim_name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_bounds CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_term CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_term_bounds INTEGER , OPTIONAL, INTENT(OUT) :: index(:) CHARACTER(len=*) , OPTIONAL, INTENT(OUT) :: label(:) CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: long_name LOGICAL , OPTIONAL, INTENT(OUT) :: mask(:) LOGICAL (KIND=C_BOOL) , ALLOCATABLE :: mask_tmp(:) INTEGER , OPTIONAL, INTENT(OUT) :: n INTEGER , OPTIONAL, INTENT(OUT) :: n_distributed_partition INTEGER , OPTIONAL, INTENT(OUT) :: n_glo CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: positive INTEGER , OPTIONAL, INTENT(OUT) :: prec CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: standard_name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: unit REAL (KIND=8) , OPTIONAL, INTENT(OUT) :: value(:) CALL xios(get_axis_handle) & (axis_id,axis_hdl) CALL xios(get_axis_attr_hdl_) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) END SUBROUTINE xios(get_axis_attr) SUBROUTINE xios(get_axis_attr_hdl) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) IMPLICIT NONE TYPE(txios(axis)) , INTENT(IN) :: axis_hdl CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: axis_ref CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: axis_type INTEGER , OPTIONAL, INTENT(OUT) :: begin REAL (KIND=8) , OPTIONAL, INTENT(OUT) :: bounds(:,:) CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: bounds_name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: comment INTEGER , OPTIONAL, INTENT(OUT) :: data_begin INTEGER , OPTIONAL, INTENT(OUT) :: data_index(:) INTEGER , OPTIONAL, INTENT(OUT) :: data_n CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: dim_name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_bounds CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_term CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_term_bounds INTEGER , OPTIONAL, INTENT(OUT) :: index(:) CHARACTER(len=*) , OPTIONAL, INTENT(OUT) :: label(:) CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: long_name LOGICAL , OPTIONAL, INTENT(OUT) :: mask(:) LOGICAL (KIND=C_BOOL) , ALLOCATABLE :: mask_tmp(:) INTEGER , OPTIONAL, INTENT(OUT) :: n INTEGER , OPTIONAL, INTENT(OUT) :: n_distributed_partition INTEGER , OPTIONAL, INTENT(OUT) :: n_glo CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: positive INTEGER , OPTIONAL, INTENT(OUT) :: prec CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: standard_name CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: unit REAL (KIND=8) , OPTIONAL, INTENT(OUT) :: value(:) CALL xios(get_axis_attr_hdl_) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) END SUBROUTINE xios(get_axis_attr_hdl) SUBROUTINE xios(get_axis_attr_hdl_) & ( axis_hdl, axis_ref_, axis_type_, begin_, bounds_, bounds_name_, comment_, data_begin_, data_index_ & , data_n_, dim_name_, formula_, formula_bounds_, formula_term_, formula_term_bounds_, index_ & , label_, long_name_, mask_, n_, n_distributed_partition_, n_glo_, name_, positive_, prec_, standard_name_ & , unit_, value_ ) IMPLICIT NONE TYPE(txios(axis)) , INTENT(IN) :: axis_hdl CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: axis_ref_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: axis_type_ INTEGER , OPTIONAL, INTENT(OUT) :: begin_ REAL (KIND=8) , OPTIONAL, INTENT(OUT) :: bounds_(:,:) CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: bounds_name_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: comment_ INTEGER , OPTIONAL, INTENT(OUT) :: data_begin_ INTEGER , OPTIONAL, INTENT(OUT) :: data_index_(:) INTEGER , OPTIONAL, INTENT(OUT) :: data_n_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: dim_name_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_bounds_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_term_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: formula_term_bounds_ INTEGER , OPTIONAL, INTENT(OUT) :: index_(:) CHARACTER(len=*) , OPTIONAL, INTENT(OUT) :: label_(:) CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: long_name_ LOGICAL , OPTIONAL, INTENT(OUT) :: mask_(:) LOGICAL (KIND=C_BOOL) , ALLOCATABLE :: mask__tmp(:) INTEGER , OPTIONAL, INTENT(OUT) :: n_ INTEGER , OPTIONAL, INTENT(OUT) :: n_distributed_partition_ INTEGER , OPTIONAL, INTENT(OUT) :: n_glo_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: name_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: positive_ INTEGER , OPTIONAL, INTENT(OUT) :: prec_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: standard_name_ CHARACTER(len = *) , OPTIONAL, INTENT(OUT) :: unit_ REAL (KIND=8) , OPTIONAL, INTENT(OUT) :: value_(:) IF (PRESENT(axis_ref_)) THEN CALL cxios_get_axis_axis_ref & (axis_hdl%daddr, axis_ref_, len(axis_ref_)) ENDIF IF (PRESENT(axis_type_)) THEN CALL cxios_get_axis_axis_type & (axis_hdl%daddr, axis_type_, len(axis_type_)) ENDIF IF (PRESENT(begin_)) THEN CALL cxios_get_axis_begin & (axis_hdl%daddr, begin_) ENDIF IF (PRESENT(bounds_)) THEN CALL cxios_get_axis_bounds & (axis_hdl%daddr, bounds_, SHAPE(bounds_)) ENDIF IF (PRESENT(bounds_name_)) THEN CALL cxios_get_axis_bounds_name & (axis_hdl%daddr, bounds_name_, len(bounds_name_)) ENDIF IF (PRESENT(comment_)) THEN CALL cxios_get_axis_comment & (axis_hdl%daddr, comment_, len(comment_)) ENDIF IF (PRESENT(data_begin_)) THEN CALL cxios_get_axis_data_begin & (axis_hdl%daddr, data_begin_) ENDIF IF (PRESENT(data_index_)) THEN CALL cxios_get_axis_data_index & (axis_hdl%daddr, data_index_, SHAPE(data_index_)) ENDIF IF (PRESENT(data_n_)) THEN CALL cxios_get_axis_data_n & (axis_hdl%daddr, data_n_) ENDIF IF (PRESENT(dim_name_)) THEN CALL cxios_get_axis_dim_name & (axis_hdl%daddr, dim_name_, len(dim_name_)) ENDIF IF (PRESENT(formula_)) THEN CALL cxios_get_axis_formula & (axis_hdl%daddr, formula_, len(formula_)) ENDIF IF (PRESENT(formula_bounds_)) THEN CALL cxios_get_axis_formula_bounds & (axis_hdl%daddr, formula_bounds_, len(formula_bounds_)) ENDIF IF (PRESENT(formula_term_)) THEN CALL cxios_get_axis_formula_term & (axis_hdl%daddr, formula_term_, len(formula_term_)) ENDIF IF (PRESENT(formula_term_bounds_)) THEN CALL cxios_get_axis_formula_term_bounds & (axis_hdl%daddr, formula_term_bounds_, len(formula_term_bounds_)) ENDIF IF (PRESENT(index_)) THEN CALL cxios_get_axis_index & (axis_hdl%daddr, index_, SHAPE(index_)) ENDIF IF (PRESENT(label_)) THEN CALL cxios_get_axis_label & (axis_hdl%daddr, label_, LEN(label_), SHAPE(label_)) ENDIF IF (PRESENT(long_name_)) THEN CALL cxios_get_axis_long_name & (axis_hdl%daddr, long_name_, len(long_name_)) ENDIF IF (PRESENT(mask_)) THEN ALLOCATE(mask__tmp(SIZE(mask_,1))) CALL cxios_get_axis_mask & (axis_hdl%daddr, mask__tmp, SHAPE(mask_)) mask_ = mask__tmp ENDIF IF (PRESENT(n_)) THEN CALL cxios_get_axis_n & (axis_hdl%daddr, n_) ENDIF IF (PRESENT(n_distributed_partition_)) THEN CALL cxios_get_axis_n_distributed_partition & (axis_hdl%daddr, n_distributed_partition_) ENDIF IF (PRESENT(n_glo_)) THEN CALL cxios_get_axis_n_glo & (axis_hdl%daddr, n_glo_) ENDIF IF (PRESENT(name_)) THEN CALL cxios_get_axis_name & (axis_hdl%daddr, name_, len(name_)) ENDIF IF (PRESENT(positive_)) THEN CALL cxios_get_axis_positive & (axis_hdl%daddr, positive_, len(positive_)) ENDIF IF (PRESENT(prec_)) THEN CALL cxios_get_axis_prec & (axis_hdl%daddr, prec_) ENDIF IF (PRESENT(standard_name_)) THEN CALL cxios_get_axis_standard_name & (axis_hdl%daddr, standard_name_, len(standard_name_)) ENDIF IF (PRESENT(unit_)) THEN CALL cxios_get_axis_unit & (axis_hdl%daddr, unit_, len(unit_)) ENDIF IF (PRESENT(value_)) THEN CALL cxios_get_axis_value & (axis_hdl%daddr, value_, SHAPE(value_)) ENDIF END SUBROUTINE xios(get_axis_attr_hdl_) SUBROUTINE xios(is_defined_axis_attr) & ( axis_id, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) IMPLICIT NONE TYPE(txios(axis)) :: axis_hdl CHARACTER(LEN=*), INTENT(IN) ::axis_id LOGICAL, OPTIONAL, INTENT(OUT) :: axis_ref LOGICAL(KIND=C_BOOL) :: axis_ref_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: axis_type LOGICAL(KIND=C_BOOL) :: axis_type_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: begin LOGICAL(KIND=C_BOOL) :: begin_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: bounds LOGICAL(KIND=C_BOOL) :: bounds_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: bounds_name LOGICAL(KIND=C_BOOL) :: bounds_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: comment LOGICAL(KIND=C_BOOL) :: comment_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_begin LOGICAL(KIND=C_BOOL) :: data_begin_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_index LOGICAL(KIND=C_BOOL) :: data_index_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_n LOGICAL(KIND=C_BOOL) :: data_n_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: dim_name LOGICAL(KIND=C_BOOL) :: dim_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula LOGICAL(KIND=C_BOOL) :: formula_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_bounds LOGICAL(KIND=C_BOOL) :: formula_bounds_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_term LOGICAL(KIND=C_BOOL) :: formula_term_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_term_bounds LOGICAL(KIND=C_BOOL) :: formula_term_bounds_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: index LOGICAL(KIND=C_BOOL) :: index_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: label LOGICAL(KIND=C_BOOL) :: label_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: long_name LOGICAL(KIND=C_BOOL) :: long_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: mask LOGICAL(KIND=C_BOOL) :: mask_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n LOGICAL(KIND=C_BOOL) :: n_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_distributed_partition LOGICAL(KIND=C_BOOL) :: n_distributed_partition_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_glo LOGICAL(KIND=C_BOOL) :: n_glo_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: name LOGICAL(KIND=C_BOOL) :: name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: positive LOGICAL(KIND=C_BOOL) :: positive_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: prec LOGICAL(KIND=C_BOOL) :: prec_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: standard_name LOGICAL(KIND=C_BOOL) :: standard_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: unit LOGICAL(KIND=C_BOOL) :: unit_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: value LOGICAL(KIND=C_BOOL) :: value_tmp CALL xios(get_axis_handle) & (axis_id,axis_hdl) CALL xios(is_defined_axis_attr_hdl_) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) END SUBROUTINE xios(is_defined_axis_attr) SUBROUTINE xios(is_defined_axis_attr_hdl) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) IMPLICIT NONE TYPE(txios(axis)) , INTENT(IN) :: axis_hdl LOGICAL, OPTIONAL, INTENT(OUT) :: axis_ref LOGICAL(KIND=C_BOOL) :: axis_ref_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: axis_type LOGICAL(KIND=C_BOOL) :: axis_type_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: begin LOGICAL(KIND=C_BOOL) :: begin_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: bounds LOGICAL(KIND=C_BOOL) :: bounds_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: bounds_name LOGICAL(KIND=C_BOOL) :: bounds_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: comment LOGICAL(KIND=C_BOOL) :: comment_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_begin LOGICAL(KIND=C_BOOL) :: data_begin_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_index LOGICAL(KIND=C_BOOL) :: data_index_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_n LOGICAL(KIND=C_BOOL) :: data_n_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: dim_name LOGICAL(KIND=C_BOOL) :: dim_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula LOGICAL(KIND=C_BOOL) :: formula_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_bounds LOGICAL(KIND=C_BOOL) :: formula_bounds_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_term LOGICAL(KIND=C_BOOL) :: formula_term_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_term_bounds LOGICAL(KIND=C_BOOL) :: formula_term_bounds_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: index LOGICAL(KIND=C_BOOL) :: index_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: label LOGICAL(KIND=C_BOOL) :: label_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: long_name LOGICAL(KIND=C_BOOL) :: long_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: mask LOGICAL(KIND=C_BOOL) :: mask_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n LOGICAL(KIND=C_BOOL) :: n_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_distributed_partition LOGICAL(KIND=C_BOOL) :: n_distributed_partition_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_glo LOGICAL(KIND=C_BOOL) :: n_glo_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: name LOGICAL(KIND=C_BOOL) :: name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: positive LOGICAL(KIND=C_BOOL) :: positive_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: prec LOGICAL(KIND=C_BOOL) :: prec_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: standard_name LOGICAL(KIND=C_BOOL) :: standard_name_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: unit LOGICAL(KIND=C_BOOL) :: unit_tmp LOGICAL, OPTIONAL, INTENT(OUT) :: value LOGICAL(KIND=C_BOOL) :: value_tmp CALL xios(is_defined_axis_attr_hdl_) & ( axis_hdl, axis_ref, axis_type, begin, bounds, bounds_name, comment, data_begin, data_index & , data_n, dim_name, formula, formula_bounds, formula_term, formula_term_bounds, index, label & , long_name, mask, n, n_distributed_partition, n_glo, name, positive, prec, standard_name, unit & , value ) END SUBROUTINE xios(is_defined_axis_attr_hdl) SUBROUTINE xios(is_defined_axis_attr_hdl_) & ( axis_hdl, axis_ref_, axis_type_, begin_, bounds_, bounds_name_, comment_, data_begin_, data_index_ & , data_n_, dim_name_, formula_, formula_bounds_, formula_term_, formula_term_bounds_, index_ & , label_, long_name_, mask_, n_, n_distributed_partition_, n_glo_, name_, positive_, prec_, standard_name_ & , unit_, value_ ) IMPLICIT NONE TYPE(txios(axis)) , INTENT(IN) :: axis_hdl LOGICAL, OPTIONAL, INTENT(OUT) :: axis_ref_ LOGICAL(KIND=C_BOOL) :: axis_ref__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: axis_type_ LOGICAL(KIND=C_BOOL) :: axis_type__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: begin_ LOGICAL(KIND=C_BOOL) :: begin__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: bounds_ LOGICAL(KIND=C_BOOL) :: bounds__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: bounds_name_ LOGICAL(KIND=C_BOOL) :: bounds_name__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: comment_ LOGICAL(KIND=C_BOOL) :: comment__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_begin_ LOGICAL(KIND=C_BOOL) :: data_begin__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_index_ LOGICAL(KIND=C_BOOL) :: data_index__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: data_n_ LOGICAL(KIND=C_BOOL) :: data_n__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: dim_name_ LOGICAL(KIND=C_BOOL) :: dim_name__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_ LOGICAL(KIND=C_BOOL) :: formula__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_bounds_ LOGICAL(KIND=C_BOOL) :: formula_bounds__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_term_ LOGICAL(KIND=C_BOOL) :: formula_term__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: formula_term_bounds_ LOGICAL(KIND=C_BOOL) :: formula_term_bounds__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: index_ LOGICAL(KIND=C_BOOL) :: index__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: label_ LOGICAL(KIND=C_BOOL) :: label__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: long_name_ LOGICAL(KIND=C_BOOL) :: long_name__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: mask_ LOGICAL(KIND=C_BOOL) :: mask__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_ LOGICAL(KIND=C_BOOL) :: n__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_distributed_partition_ LOGICAL(KIND=C_BOOL) :: n_distributed_partition__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: n_glo_ LOGICAL(KIND=C_BOOL) :: n_glo__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: name_ LOGICAL(KIND=C_BOOL) :: name__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: positive_ LOGICAL(KIND=C_BOOL) :: positive__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: prec_ LOGICAL(KIND=C_BOOL) :: prec__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: standard_name_ LOGICAL(KIND=C_BOOL) :: standard_name__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: unit_ LOGICAL(KIND=C_BOOL) :: unit__tmp LOGICAL, OPTIONAL, INTENT(OUT) :: value_ LOGICAL(KIND=C_BOOL) :: value__tmp IF (PRESENT(axis_ref_)) THEN axis_ref__tmp = cxios_is_defined_axis_axis_ref & (axis_hdl%daddr) axis_ref_ = axis_ref__tmp ENDIF IF (PRESENT(axis_type_)) THEN axis_type__tmp = cxios_is_defined_axis_axis_type & (axis_hdl%daddr) axis_type_ = axis_type__tmp ENDIF IF (PRESENT(begin_)) THEN begin__tmp = cxios_is_defined_axis_begin & (axis_hdl%daddr) begin_ = begin__tmp ENDIF IF (PRESENT(bounds_)) THEN bounds__tmp = cxios_is_defined_axis_bounds & (axis_hdl%daddr) bounds_ = bounds__tmp ENDIF IF (PRESENT(bounds_name_)) THEN bounds_name__tmp = cxios_is_defined_axis_bounds_name & (axis_hdl%daddr) bounds_name_ = bounds_name__tmp ENDIF IF (PRESENT(comment_)) THEN comment__tmp = cxios_is_defined_axis_comment & (axis_hdl%daddr) comment_ = comment__tmp ENDIF IF (PRESENT(data_begin_)) THEN data_begin__tmp = cxios_is_defined_axis_data_begin & (axis_hdl%daddr) data_begin_ = data_begin__tmp ENDIF IF (PRESENT(data_index_)) THEN data_index__tmp = cxios_is_defined_axis_data_index & (axis_hdl%daddr) data_index_ = data_index__tmp ENDIF IF (PRESENT(data_n_)) THEN data_n__tmp = cxios_is_defined_axis_data_n & (axis_hdl%daddr) data_n_ = data_n__tmp ENDIF IF (PRESENT(dim_name_)) THEN dim_name__tmp = cxios_is_defined_axis_dim_name & (axis_hdl%daddr) dim_name_ = dim_name__tmp ENDIF IF (PRESENT(formula_)) THEN formula__tmp = cxios_is_defined_axis_formula & (axis_hdl%daddr) formula_ = formula__tmp ENDIF IF (PRESENT(formula_bounds_)) THEN formula_bounds__tmp = cxios_is_defined_axis_formula_bounds & (axis_hdl%daddr) formula_bounds_ = formula_bounds__tmp ENDIF IF (PRESENT(formula_term_)) THEN formula_term__tmp = cxios_is_defined_axis_formula_term & (axis_hdl%daddr) formula_term_ = formula_term__tmp ENDIF IF (PRESENT(formula_term_bounds_)) THEN formula_term_bounds__tmp = cxios_is_defined_axis_formula_term_bounds & (axis_hdl%daddr) formula_term_bounds_ = formula_term_bounds__tmp ENDIF IF (PRESENT(index_)) THEN index__tmp = cxios_is_defined_axis_index & (axis_hdl%daddr) index_ = index__tmp ENDIF IF (PRESENT(label_)) THEN label__tmp = cxios_is_defined_axis_label & (axis_hdl%daddr) label_ = label__tmp ENDIF IF (PRESENT(long_name_)) THEN long_name__tmp = cxios_is_defined_axis_long_name & (axis_hdl%daddr) long_name_ = long_name__tmp ENDIF IF (PRESENT(mask_)) THEN mask__tmp = cxios_is_defined_axis_mask & (axis_hdl%daddr) mask_ = mask__tmp ENDIF IF (PRESENT(n_)) THEN n__tmp = cxios_is_defined_axis_n & (axis_hdl%daddr) n_ = n__tmp ENDIF IF (PRESENT(n_distributed_partition_)) THEN n_distributed_partition__tmp = cxios_is_defined_axis_n_distributed_partition & (axis_hdl%daddr) n_distributed_partition_ = n_distributed_partition__tmp ENDIF IF (PRESENT(n_glo_)) THEN n_glo__tmp = cxios_is_defined_axis_n_glo & (axis_hdl%daddr) n_glo_ = n_glo__tmp ENDIF IF (PRESENT(name_)) THEN name__tmp = cxios_is_defined_axis_name & (axis_hdl%daddr) name_ = name__tmp ENDIF IF (PRESENT(positive_)) THEN positive__tmp = cxios_is_defined_axis_positive & (axis_hdl%daddr) positive_ = positive__tmp ENDIF IF (PRESENT(prec_)) THEN prec__tmp = cxios_is_defined_axis_prec & (axis_hdl%daddr) prec_ = prec__tmp ENDIF IF (PRESENT(standard_name_)) THEN standard_name__tmp = cxios_is_defined_axis_standard_name & (axis_hdl%daddr) standard_name_ = standard_name__tmp ENDIF IF (PRESENT(unit_)) THEN unit__tmp = cxios_is_defined_axis_unit & (axis_hdl%daddr) unit_ = unit__tmp ENDIF IF (PRESENT(value_)) THEN value__tmp = cxios_is_defined_axis_value & (axis_hdl%daddr) value_ = value__tmp ENDIF END SUBROUTINE xios(is_defined_axis_attr_hdl_) END MODULE iaxis_attr