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Data Types List
Here are the data types with brief descriptions:
[detail level 1234]
 N__cxxabiv1
 N__gnu_cxx
 Npseudopotential
 Nstd
 C__fsid_t
 C__iseqsig_type
 C__iseqsig_type< _Float128 >
 C__iseqsig_type< double >
 C__iseqsig_type< float >
 C__iseqsig_type< long double >
 C__locale_struct
 C__mbstate_t
 C__pthread_cleanup_class
 C__pthread_cleanup_frame
 C__pthread_cond_s
 C__pthread_internal_list
 C__pthread_mutex_s
 C__pthread_rwlock_arch_t
 C__pthread_unwind_buf_t
 C__sigset_t
 C_Except
 C_fpreg
 C_fpstate
 C_fpx_sw_bytes
 C_fpxreg
 C_G_fpos64_t
 C_G_fpos_t
 C_gsl_matrix_char_const_view
 C_gsl_matrix_char_view
 C_gsl_matrix_complex_const_view
 C_gsl_matrix_complex_float_const_view
 C_gsl_matrix_complex_float_view
 C_gsl_matrix_complex_long_double_const_view
 C_gsl_matrix_complex_long_double_view
 C_gsl_matrix_complex_view
 C_gsl_matrix_const_view
 C_gsl_matrix_float_const_view
 C_gsl_matrix_float_view
 C_gsl_matrix_int_const_view
 C_gsl_matrix_int_view
 C_gsl_matrix_long_const_view
 C_gsl_matrix_long_double_const_view
 C_gsl_matrix_long_double_view
 C_gsl_matrix_long_view
 C_gsl_matrix_short_const_view
 C_gsl_matrix_short_view
 C_gsl_matrix_uchar_const_view
 C_gsl_matrix_uchar_view
 C_gsl_matrix_uint_const_view
 C_gsl_matrix_uint_view
 C_gsl_matrix_ulong_const_view
 C_gsl_matrix_ulong_view
 C_gsl_matrix_ushort_const_view
 C_gsl_matrix_ushort_view
 C_gsl_matrix_view
 C_gsl_vector_char_const_view
 C_gsl_vector_char_view
 C_gsl_vector_complex_const_view
 C_gsl_vector_complex_float_const_view
 C_gsl_vector_complex_float_view
 C_gsl_vector_complex_long_double_const_view
 C_gsl_vector_complex_long_double_view
 C_gsl_vector_complex_view
 C_gsl_vector_const_view
 C_gsl_vector_float_const_view
 C_gsl_vector_float_view
 C_gsl_vector_int_const_view
 C_gsl_vector_int_view
 C_gsl_vector_long_const_view
 C_gsl_vector_long_double_const_view
 C_gsl_vector_long_double_view
 C_gsl_vector_long_view
 C_gsl_vector_short_const_view
 C_gsl_vector_short_view
 C_gsl_vector_uchar_const_view
 C_gsl_vector_uchar_view
 C_gsl_vector_uint_const_view
 C_gsl_vector_uint_view
 C_gsl_vector_ulong_const_view
 C_gsl_vector_ulong_view
 C_gsl_vector_ushort_const_view
 C_gsl_vector_ushort_view
 C_gsl_vector_view
 C_IO_cookie_io_functions_t
 C_IO_FILE
 C_libc_fpstate
 C_libc_fpxreg
 C_libc_xmmreg
 C_pthread_cleanup_buffer
 C_SYMMETRY_ELEMENT_
 C_xmmreg
 C_xsave_hdr
 C_xstate
 C_ymmh_state
 Caccel_blas_oct_m
 Caccel_oct_m
 Caffine_coordinates_oct_m
 Caffine_coordinates_t
 Calgorithm_oct_m
 Calgorithm_t
 Calloc_cache
 Calloc_cache_oct_m
 Callocate_hardware_aware_oct_mThis module contains interfaces for routines in allocate_hardware_aware.c
 CATOM
 Catom_oct_m
 Catomic_oct_m
 Catomic_orbital_oct_m
 Cbasins_oct_m
 Cbasis_set_abst_oct_mAbstract class for basis sets. In our context, basis sets include meshes, atomic orbitals, plane waves, possibly wavelets, etc. For this reason, the abstract class is very minimalistic, and only contains essential quantities and functions
 Cbasis_set_abst_t
 Cbasis_vectors_oct_m
 Cbatch_oct_m
 Cbatch_ops_oct_m
 Cbatch_t
 Cberry_oct_m
 Cblacs_oct_mThis module contains interfaces for BLACS routines Interfaces are from http:
 Cblacs_proc_grid_oct_m
 Cblas_oct_mThis module contains interfaces for BLAS routines You should not use these routines directly. Please use the lalg_XXXX
 Cborn_charges_oct_m
 Cboundaries_oct_m
 Cboundary_op_oct_m
 Cbox_cylinder_oct_m
 Cbox_hypercube_oct_m
 Cbox_image_oct_m
 Cbox_intersection_oct_m
 Cbox_minimum_oct_m
 Cbox_oct_m
 Cbox_parallelepiped_oct_m
 Cbox_parallelepiped_t
 Cbox_shape_oct_m
 Cbox_shape_t
 Cbox_sphere_oct_m
 Cbox_t
 Cbox_union_oct_m
 Cbox_user_defined_oct_m
 Ccalc_mode_par_oct_mThis module uses a module-scope global object to allow calculation modes to set the available parallelization strategies and whether the layout must be compatible with ScaLAPACK, and to allow this information to be accessed elsewhere. It does not, and should not, contain the definitions of the calculation modes themselves, to avoid writing code explicitly dependent on the calculation mode elsewhere
 Ccartesian_oct_m
 Ccasida_oct_m
 Ccasida_spectrum_t
 Ccgal_polyhedra_oct_m
 Ccharged_particle_oct_m
 Cchecksum_interface_oct_m
 Cclassical_particle_oct_m
 Cclassical_particle_t
 Cclassical_particles_oct_m
 Cclassical_particles_t
 Cclock_oct_m
 Ccomm_oct_m
 Ccommand_line_oct_mThis module:
 Ccompare
 Ccompressed_sensing_oct_m
 Ccontrolfunction_oct_mThis module contains the definition of the data type that holds a "control function" used for OCT runs
 Cconvergence_criterion_oct_m
 Cconvergence_criterion_t
 Ccoordinate_system_oct_m
 Ccoordinate_system_t
 Ccoulomb_force_oct_m
 Ccpu_set_t
 Ccriteria_factory_oct_m
 Ccube_function_oct_m
 Ccube_oct_m
 Ccuda_oct_m
 Ccurrent_oct_m
 Ccurv_briggs_oct_mThis module implements the curvilinear coordinates given in E.L. Briggs, D.J. Sullivan, and J. Bernholc, PRB 54 14362 (1996)
 Ccurv_gygi_oct_mThis module implements the curvilinear coordinates given in F. Gygi and G. Galli, PRB 52 R2229 (1996)
 Ccurv_modine_oct_mThis module implements the curvilinear coordinates given in N. A. Modine, G. Zumbach, and E. Kaxiras, Phys. Rev. B 55, 10289-10301 (1997)
 Cdebug_oct_m
 Cdensity_criterion_oct_m
 Cdensity_interaction_oct_m
 Cdensity_interaction_t
 Cdensity_oct_m
 Cderivatives_oct_m
 Cdirent
 Cdirent64
 Cdistributed_oct_m
 Cdiv_t
 Cdos_oct_m
 Cdrand48_data
 Ceigen_cg_oct_m
 Ceigen_rmmdiis_oct_m
 Ceigensolver_oct_m
 Ceigenval_criterion_oct_m
 Celectrons_ground_state_oct_m
 Celectrons_oct_m
 Celement_oct_m
 Celf_oct_m
 Cem_resp_calc_oct_m
 Cem_resp_oct_m
 Cenergy_calc_oct_m
 Cenergy_criterion_oct_m
 Cenergy_mxll_oct_m
 Cenergy_oct_m
 Cepot_oct_m
 Cexchange_operator_oct_m
 Cexcited_states_oct_m
 Cexponential_oct_m
 Cexternal_densities_oct_m
 Cexternal_potential_oct_m
 Cf_owner_ex
 Cfd_set
 Cfft_oct_mFast Fourier Transform module. This module provides a single interface that works with different FFT implementations
 Cfftw_oct_m
 Cfftw_params_oct_m
 Cfile_handle
 Cfilter_oct_m
 Cflock
 Cflock64
 Cforce_interaction_oct_m
 Cforce_interaction_t
 Cforces_oct_m
 Cfourier_shell_oct_m
 Cfourier_space_oct_m
 Cgauge_field_oct_m
 Cgauss_legendre_oct_m
 Cgdlib_oct_m
 Cgeom_opt_oct_m
 Cghost_interaction_oct_m
 Cglobal_oct_m
 Cgravity_oct_m
 Cgrid_oct_m
 Cground_state_oct_m
 Cgsl_block_char_struct
 Cgsl_block_complex_float_struct
 Cgsl_block_complex_long_double_struct
 Cgsl_block_complex_struct
 Cgsl_block_float_struct
 Cgsl_block_int_struct
 Cgsl_block_long_double_struct
 Cgsl_block_long_struct
 Cgsl_block_short_struct
 Cgsl_block_struct
 Cgsl_block_uchar_struct
 Cgsl_block_uint_struct
 Cgsl_block_ulong_struct
 Cgsl_block_ushort_struct
 Cgsl_combination_struct
 Cgsl_complex
 Cgsl_complex_float
 Cgsl_complex_long_double
 Cgsl_eigen_francis_workspace
 Cgsl_eigen_gen_workspace
 Cgsl_eigen_genherm_workspace
 Cgsl_eigen_genhermv_workspace
 Cgsl_eigen_gensymm_workspace
 Cgsl_eigen_gensymmv_workspace
 Cgsl_eigen_genv_workspace
 Cgsl_eigen_herm_workspace
 Cgsl_eigen_hermv_workspace
 Cgsl_eigen_nonsymm_workspace
 Cgsl_eigen_nonsymmv_workspace
 Cgsl_eigen_symm_workspace
 Cgsl_eigen_symmv_workspace
 Cgsl_function_fdf_struct
 Cgsl_function_struct
 Cgsl_function_vec_struct
 Cgsl_integration_cquad_ival
 Cgsl_integration_cquad_workspace
 Cgsl_integration_fixed_params
 Cgsl_integration_fixed_type
 Cgsl_integration_fixed_workspace
 Cgsl_integration_glfixed_table
 Cgsl_integration_qawo_table
 Cgsl_integration_qaws_table
 Cgsl_integration_romberg_workspace
 Cgsl_integration_workspace
 Cgsl_interp
 Cgsl_interp_accel
 Cgsl_interp_type
 Cgsl_matrix
 Cgsl_matrix_char
 Cgsl_matrix_complex
 Cgsl_matrix_complex_float
 Cgsl_matrix_complex_long_double
 Cgsl_matrix_float
 Cgsl_matrix_int
 Cgsl_matrix_long
 Cgsl_matrix_long_double
 Cgsl_matrix_short
 Cgsl_matrix_uchar
 Cgsl_matrix_uint
 Cgsl_matrix_ulong
 Cgsl_matrix_ushort
 Cgsl_min_fminimizer
 Cgsl_min_fminimizer_type
 Cgsl_multimin_fdfminimizer
 Cgsl_multimin_fdfminimizer_type
 Cgsl_multimin_fminimizer
 Cgsl_multimin_fminimizer_type
 Cgsl_multimin_function_fdf_struct
 Cgsl_multimin_function_struct
 Cgsl_ran_discrete_t
 Cgsl_rng
 Cgsl_rng_type
 Cgsl_sf_mathieu_workspace
 Cgsl_sf_result_e10_struct
 Cgsl_sf_result_struct
 Cgsl_spline
 Cgsl_vector
 Cgsl_vector_char
 Cgsl_vector_complex
 Cgsl_vector_complex_float
 Cgsl_vector_complex_long_double
 Cgsl_vector_float
 Cgsl_vector_int
 Cgsl_vector_long
 Cgsl_vector_long_double
 Cgsl_vector_short
 Cgsl_vector_uchar
 Cgsl_vector_uint
 Cgsl_vector_ulong
 Cgsl_vector_ushort
 Chamiltonian_abst_oct_m
 Chamiltonian_abst_t
 Chamiltonian_elec_base_oct_m
 Chamiltonian_elec_oct_m
 Chamiltonian_mxll_oct_m
 Chardware_oct_m
 Cheader_t
 Cheap_oct_m
 Chgh_projector_oct_m
 Chirshfeld_oct_m
 Chypercube_oct_m
 Ciihash_oct_mThis module implements a simple hash table for non-negative integer keys and integer values
 Cindex_oct_m
 Cinitst_oct_m
 Cinteraction_oct_m
 Cinteraction_partner_oct_m
 Cinteraction_partner_t
 Cinteraction_t
 Cinteraction_with_partner_oct_m
 Cinteraction_with_partner_t
 Cinteractions_factory_abst_oct_m
 Cinteractions_factory_abst_t
 Cinteractions_factory_oct_m
 Cinvert_ks_oct_m
 Cio_binary_oct_m
 Cio_csv_oct_m
 Cio_function_oct_m
 Cio_oct_m
 Cion_dynamics_oct_m
 Cion_electron_local_potential_oct_m
 Cion_interaction_oct_m
 Cions_oct_m
 Ciovec
 Citimerspec
 Citimerval
 Ckb_projector_oct_m
 Ckdotp_calc_oct_m
 Ckdotp_oct_m
 Ckick_oct_m
 Ckpoints_oct_m
 Clalg_adv_oct_m
 Clalg_basic_oct_m
 Clapack_oct_mThis module contains interfaces for LAPACK routines
 Clasers_oct_m
 Clattice_vectors_oct_m
 Clcao_oct_m
 Clconv
 Clda_u_io_oct_m
 Clda_u_mixer_oct_m
 Clda_u_oct_m
 Cldiv_t
 Clibvdwxc_oct_m
 Clinear_medium_em_field_oct_m
 Clinear_response_oct_m
 Clinear_solver_oct_m
 Clinked_list_iterator_t
 Clinked_list_oct_m
 Clinked_list_t
 Clist_node_oct_m
 Clldiv_t
 Clocal_domain_t
 Clocal_write_oct_m
 Cloct_math_oct_m
 Cloct_oct_m
 Cloewdin_oct_m
 Clogrid_oct_m
 Clookup_oct_m
 Clorentz_force_oct_m
 Cmagnetic_oct_m
 Cmath_oct_mThis module is intended to contain "only mathematical" functions and procedures
 Cmax_align_t
 Cmaxwell_boundary_op_oct_m
 Cmaxwell_function_oct_m

This module defines "Maxwell functions", to be used by

the Maxwell module especially for Maxwell incident waves

 Cmcontext_t
 Cmerge_sorted_oct_m
 Cmesh_batch_oct_m
 Cmesh_cube_map_oct_m
 Cmesh_cube_parallel_map_oct_m
 Cmesh_function_oct_m
 Cmesh_init_oct_m
 Cmesh_interpolation_oct_m
 Cmesh_oct_m
 Cmesh_partition_oct_m
 Cmessages_oct_m
 Cmetis_oct_mThis module contains interfaces for METIS and PARMETIS routines
 Cminimizer_oct_m
 Cmix_oct_m
 Cmixing_metric_oct_m
 Cmodelmb_1part_oct_mGeneral module for modelmb particles (eg 4 electrons in 1D equiv to 1 in 4D). Also calculate different densities on request
 Cmodelmb_density_matrix_oct_m
 Cmodelmb_exchange_syms_oct_m
 Cmodelmb_particles_oct_mGeneral module for modelmb particles (e.g. 4 electrons in 1D equiv to 1 in 4D). Also calculate different densities on request
 Cmpi_debug_oct_m
 Cmpi_lib_oct_mThis module contains some common usage patterns of MPI routines
 Cmpi_oct_m
 Cmulti
 Cmultibox_oct_m
 Cmultibox_t
 Cmulticomm_oct_mGiven a number n_index of indices and their ranges index_range(1:n_index), we divide the n_nodes in groups and create communicators for each group. Each group is associated with one index. The min_range indicates the minimum number of elements in each processor. For example, given min_range(1) = 25000, the algorithm will try to put at least 25000 points in each processor
 Cmultigrid_oct_m
 Cmultisystem_basic_oct_m
 Cmultisystem_debug_oct_m
 Cmultisystem_oct_m
 Cmultisystem_t
 Cnamespace_oct_m
 Cnfft_oct_m
 Cnl_operator_oct_m
 Cnlcc_oct_m
 Cnlo_set_min_objective
 Cnvtx_oct_m
 Coct_exchange_oct_m
 Coperate_f_oct_mThis module contains interfaces for routines in operate.c
 Copt_control_global_oct_mThis module contains the definition of the oct_t data type, which contains some of the basic information about how the OCT run will be done. The "oct" variable (whose datatype is oct_t) is declared in the main OCT module, opt_control_oct_m (as a module variable). It is initialized by calling oct_read_inp, defined below in this module
 Copt_control_iter_oct_m
 Copt_control_oct_mThis module contains the main procedure ("opt_control_run") that is used when optimal control runs are requested
 Copt_control_state_oct_mThis module holds the "opt_control_state_t" datatype, which contains a quantum-classical state
 Copt_type
 Coption
 Corbitalbasis_oct_m
 Corbitalset_oct_m
 Corbitalset_utils_oct_m
 Coscillator_strength_oct_m
 Coutput_me_oct_m
 Coutput_oct_m
 Cpar_vec_oct_mSome general things and nomenclature:
 Cparam_f1_t
 Cparam_fdf_t
 Cparam_fn_t
 Cparameters
 Cparameters_1d_0d
 Cparameters_2d_1d
 Cparser_oct_m
 Cpartial_charges_oct_m
 Cpartition_oct_m
 Cpartition_transfer_oct_m
 Cpartner_list_t
 Cpblas_oct_m
 Cpcm_eom_oct_m
 Cpcm_oct_m
 Cpermutations_oct_m
 Cpert_oct_m
 Cpes_flux_oct_m
 Cpes_mask_oct_m
 Cpes_oct_m
 Cpes_out_oct_m
 Cpes_spm_oct_m
 Cpesoutput_t
 Cpfft_oct_mThe low level module to work with the PFFT library. http:
 Cpfft_params_oct_mThe includes for the PFFT
 Cphonons_fd_oct_m
 Cphonons_lr_oct_m
 Cphoton_mode_mf_oct_m
 Cphoton_mode_oct_m
 Cphysics_op_oct_m
 Cpnfft_oct_mThe low level module to work with the PNFFT library. http:
 Cpnfft_params_oct_mThe includes for the PNFFT
 CPOINT_GROUP
 Cpoisson_cg_oct_m
 Cpoisson_corrections_oct_m
 Cpoisson_cutoff_oct_m
 Cpoisson_fft_oct_m
 Cpoisson_fmm_oct_m
 Cpoisson_isf_oct_m
 Cpoisson_multigrid_oct_m
 Cpoisson_no_oct_m
 Cpoisson_oct_m
 Cpoisson_psolver_oct_m
 Cpotential_interaction_oct_m
 Cpotential_interaction_t
 Cpotential_interpolation_oct_m
 Cpreconditioners_oct_m
 Cprofiling_oct_m
 Cprojector_matrix_oct_m
 Cprojector_oct_m
 Cpropagation_oct_m
 Cpropagation_ops_elec_oct_m
 Cpropagator_base_oct_m
 Cpropagator_beeman_oct_m
 Cpropagator_cn_oct_m
 Cpropagator_elec_oct_m
 Cpropagator_etrs_oct_m
 Cpropagator_exp_mid_oct_m
 Cpropagator_expmid_oct_m
 Cpropagator_magnus_oct_m
 Cpropagator_mxll_oct_m
 Cpropagator_oct_m
 Cpropagator_qoct_oct_m
 Cpropagator_rk_oct_m
 Cpropagator_static_oct_m
 Cpropagator_t
 Cpropagator_verlet_oct_m
 Cps_cpi_file_oct_m
 Cps_cpi_oct_m
 Cps_fhi_file_oct_m
 Cps_fhi_oct_m
 Cps_hgh_oct_m
 Cps_in_grid_oct_m
 Cps_oct_m
 Cps_psf_file_oct_m
 Cps_psf_oct_m
 Cps_xml_oct_m
 Cpseudo_oct_m
 Cpseudo_set_oct_m
 Cpthread_attr_t
 Cpthread_barrier_t
 Cpthread_barrierattr_t
 Cpthread_cond_t
 Cpthread_condattr_t
 Cpthread_mutex_t
 Cpthread_mutexattr_t
 Cpthread_rwlock_t
 Cpthread_rwlockattr_t
 Cpulpo_oct_m
 Cqshep_oct_m
 Cquantity_oct_m
 Cquickrnd_oct_mSimple congruent random number generator
 Crandom_data
 Crdmft_oct_m
 Cread_coords_oct_m
 Crestart_oct_m
 Crkb_projector_oct_m
 Croot_solver_oct_m
 Crun_oct_m
 Cscalapack_oct_mThis module contains interfaces for ScaLAPACK routines Interfaces are from http:
 Cscaling_function_oct_m
 Cscf_oct_m
 Cscf_tol_oct_m
 Csched_param
 Cscissor_oct_m
 Csgfft_oct_mThese routines are part of the ISF poisson solver, eventually they will be integrated with the other FFT. Do not use them for other purposes
 Cshare_directory_oct_m
 Csigaction
 Csigcontext
 Csigevent
 Csiginfo_t
 Csigstack
 Csigval
 Csimul_box_oct_m
 Csingularity_oct_m
 Csmear_oct_m
 Csolvers_oct_mThis module is intended to contain "only mathematical" functions and procedures
 Csort_oct_mThis module is intended to contain "only mathematical" functions and procedures
 Cspace_oct_m
 Csparskit_oct_m
 Cspecies_oct_m
 Cspecies_pot_oct_m
 Cspectrum_oct_m
 Cspglib_f08
 CSpline
 Cspline_filter_oct_m
 Csplines_oct_m
 Cstack_t
 Cstat
 Cstat64
 Cstates_abst_oct_m
 Cstates_abst_t
 Cstates_elec_calc_oct_m
 Cstates_elec_dim_oct_m
 Cstates_elec_group_oct_m
 Cstates_elec_io_oct_m
 Cstates_elec_oct_m
 Cstates_elec_parallel_oct_m
 Cstates_elec_restart_oct_m
 Cstates_mxll_oct_m
 Cstates_mxll_restart_oct_m
 Cstatic_pol_oct_m
 Cstatx
 Cstatx_timestamp
 Cstencil_cube_oct_m
 Cstencil_oct_m
 Cstencil_star_oct_m
 Cstencil_stargeneral_oct_m
 Cstencil_starplus_oct_m
 Cstencil_variational_oct_mImplements the variational discretization of the Laplacian as proposed by P. Maragakis, J. Soler, and E. Kaxiras, PRB 64, 193101 (2001)
 Csternheimer_oct_m
 Cstress_oct_m
 Cstring_oct_m
 Csubmesh_oct_m
 Csubspace_oct_m
 Csymm_op_oct_m
 Csymmetries_oct_m
 Csymmetrizer_oct_m
 Csystem_dftb_oct_m
 Csystem_factory_abst_oct_m
 Csystem_factory_abst_t
 Csystem_factory_oct_m
 Csystem_linear_medium_oct_m
 Csystem_mxll_oct_m
 Csystem_oct_m
 Csystem_t
 Ctarget_oct_m
 Ctd_calc_oct_m
 Ctd_oct_m
 Ctd_write_oct_m
 Ctdfunction_oct_m

This module defines "time-dependent functions", to be used by the lasers module, or in the future in order to define time-dependent

magnetic fields.

 Ctermio
 Ctermios
 Ctest_oct_m
 Ctime_dependent_oct_m
 Ctimespec
 Ctimeval
 Ctimex
 Ctimezone
 Ctm
 Ctransfer_table_oct_m
 Ctypes_oct_m
 Cucontext_t
 Cunit_oct_mAtomic weights should be read in "atomic mass units" (u) (not to be confused with mass in "atomic units"), that is, it should be given the relative atomic weight). 1 u is roughly the mass of the proton, and exactly one twelfth of mass of the ^{12}C isotope. The relation of the atomic mass unit and the atomic unit of mass, au_[mass], is:
 Cunit_system_oct_mAtomic weights should be read in "atomic mass units" (u) (not to be confused with mass in "atomic units"), that is, it should be given the relative atomic weight). 1 u is roughly the mass of the proton, and exactly one twelfth of mass of the ^{12}C isotope. The relation of the atomic mass unit and the atomic unit of mass, au_[mass], is:
 Cunocc_oct_m
 Cutils_oct_mThis module is intended to contain simple general-purpose utility functions and procedures
 Cutsname
 Cv_ks_oct_m
 Cvar_type
 Cvarinfo_oct_m
 Cvdw_oct_m
 Cvdw_ts_oct_m
 Cvibrations_oct_m
 Cvolume_oct_m
 Cvtk_oct_m
 Cwalltimer_oct_mThis module provices a simple timer class which can be used to trigger the writing of a restart file before the requested CPU time is up
 Cwfs_elec_oct_m
 Cwinsize
 Cwrite_iter
 Cwrite_iter_oct_m
 Cxc_functl_oct_m
 Cxc_ks_inversion_oct_m
 Cxc_oct_m
 Cxc_oep_oct_m
 Cylm_wannier_oct_m
 Cyoung_oct_m