TABLE OF CONTENTS
etsf_io_dims_def
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NAME
etsf_io_dims_def
FUNCTION
Create dimensions and set their values. For normal dimensions, their are defined if their values are different from etsf_no_dimension (see ETSF_IO_CONSTANTS). For split dimensions (my_<something>), they are defined only if they are different from etsf_no_dimension or from the value of dimension <something>.
INPUTS
- ncid = integer returned by an 'open' NetCDF call. The file can be either in define or write mode. This status can be changed by the call.
- dims <type(etsf_dims)> = contains all the dimensions required by the ETSF file. These values will be used later to allocate the disk space for variables, see etsf_io_electrons_def() or routines of the same kind.
OUTPUT
- lstat = return .true. if all the actions succeed, if not the status of the file is undefined.
- error_data <type(etsf_io_low_error)> = contains the details of the error is @lstat is false.
NOTES
This file has been automatically generated by the autogen_subroutines.py script. Any change you would bring to it will systematically be overwritten.
SOURCE
subroutine etsf_io_dims_def(ncid, dims, lstat, error_data) !Arguments ------------------------------------ integer, intent(in) :: ncid type(etsf_dims), intent(in) :: dims logical, intent(out) :: lstat type(etsf_io_low_error), intent(out) :: error_data !Local variables------------------------------- character(len = *), parameter :: my_name = 'etsf_io_dims_def' ! ************************************************************************* !DEBUG !write (*,*) 'etsf_io_dims_def : enter' !ENDDEBUG if (dims%character_string_length /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "character_string_length", & & dims%character_string_length, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%complex /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "complex", & & dims%complex, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%max_number_of_angular_momenta /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "max_number_of_angular_momenta", & & dims%max_number_of_angular_momenta, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%max_number_of_basis_grid_points /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "max_number_of_basis_grid_points", & & dims%max_number_of_basis_grid_points, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%max_number_of_coefficients /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "max_number_of_coefficients", & & dims%max_number_of_coefficients, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%max_number_of_projectors /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "max_number_of_projectors", & & dims%max_number_of_projectors, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%max_number_of_states /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "max_number_of_states", & & dims%max_number_of_states, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_atoms /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_atoms", & & dims%number_of_atoms, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_atom_species /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_atom_species", & & dims%number_of_atom_species, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_cartesian_directions /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_cartesian_directions", & & dims%number_of_cartesian_directions, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_coefficients_dielectric_function /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_coefficients_dielectric_function", & & dims%number_of_coefficients_dielectric_function, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_components /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_components", & & dims%number_of_components, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_frequencies_dielectric_function /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_frequencies_dielectric_function", & & dims%number_of_frequencies_dielectric_function, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_grid_points_vector1 /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_grid_points_vector1", & & dims%number_of_grid_points_vector1, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_grid_points_vector2 /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_grid_points_vector2", & & dims%number_of_grid_points_vector2, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_grid_points_vector3 /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_grid_points_vector3", & & dims%number_of_grid_points_vector3, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_kpoints /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_kpoints", & & dims%number_of_kpoints, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_localization_regions /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_localization_regions", & & dims%number_of_localization_regions, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_qpoints_dielectric_function /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_qpoints_dielectric_function", & & dims%number_of_qpoints_dielectric_function, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_qpoints_gamma_limit /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_qpoints_gamma_limit", & & dims%number_of_qpoints_gamma_limit, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_reduced_dimensions /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_reduced_dimensions", & & dims%number_of_reduced_dimensions, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_spinor_components /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_spinor_components", & & dims%number_of_spinor_components, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_spins /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_spins", & & dims%number_of_spins, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_symmetry_operations /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_symmetry_operations", & & dims%number_of_symmetry_operations, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%number_of_vectors /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "number_of_vectors", & & dims%number_of_vectors, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%real_or_complex_coefficients /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "real_or_complex_coefficients", & & dims%real_or_complex_coefficients, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%real_or_complex_density /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "real_or_complex_density", & & dims%real_or_complex_density, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%real_or_complex_gw_corrections /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "real_or_complex_gw_corrections", & & dims%real_or_complex_gw_corrections, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%real_or_complex_potential /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "real_or_complex_potential", & & dims%real_or_complex_potential, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%real_or_complex_wavefunctions /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "real_or_complex_wavefunctions", & & dims%real_or_complex_wavefunctions, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%symbol_length /= etsf_no_dimension) then call etsf_io_low_write_dim(ncid, "symbol_length", & & dims%symbol_length, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_max_number_of_coefficients /= etsf_no_dimension .and. & dims%my_max_number_of_coefficients /= dims%max_number_of_coefficients) then call etsf_io_low_write_dim(ncid, "my_max_number_of_coefficients", & & dims%my_max_number_of_coefficients, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_max_number_of_states /= etsf_no_dimension .and. & dims%my_max_number_of_states /= dims%max_number_of_states) then call etsf_io_low_write_dim(ncid, "my_max_number_of_states", & & dims%my_max_number_of_states, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_number_of_components /= etsf_no_dimension .and. & dims%my_number_of_components /= dims%number_of_components) then call etsf_io_low_write_dim(ncid, "my_number_of_components", & & dims%my_number_of_components, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_number_of_grid_points_vect1 /= etsf_no_dimension .and. & dims%my_number_of_grid_points_vect1 /= dims%number_of_grid_points_vector1) then call etsf_io_low_write_dim(ncid, "my_number_of_grid_points_vector1", & & dims%my_number_of_grid_points_vect1, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_number_of_grid_points_vect2 /= etsf_no_dimension .and. & dims%my_number_of_grid_points_vect2 /= dims%number_of_grid_points_vector2) then call etsf_io_low_write_dim(ncid, "my_number_of_grid_points_vector2", & & dims%my_number_of_grid_points_vect2, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_number_of_grid_points_vect3 /= etsf_no_dimension .and. & dims%my_number_of_grid_points_vect3 /= dims%number_of_grid_points_vector3) then call etsf_io_low_write_dim(ncid, "my_number_of_grid_points_vector3", & & dims%my_number_of_grid_points_vect3, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_number_of_kpoints /= etsf_no_dimension .and. & dims%my_number_of_kpoints /= dims%number_of_kpoints) then call etsf_io_low_write_dim(ncid, "my_number_of_kpoints", & & dims%my_number_of_kpoints, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if if (dims%my_number_of_spins /= etsf_no_dimension .and. & dims%my_number_of_spins /= dims%number_of_spins) then call etsf_io_low_write_dim(ncid, "my_number_of_spins", & & dims%my_number_of_spins, & & lstat, error_data = error_data) if (.not. lstat) then call etsf_io_low_error_update(error_data, my_name) return end if end if lstat = .true. !DEBUG !write (*,*) 'etsf_io_dims_def : exit' !ENDDEBUG end subroutine etsf_io_dims_def