open Qptypes;; open Qputils;; open Core.Std;; module Hartree_fock : sig type t = { n_it_scf_max : Strictly_positive_int.t; thresh_scf : Threshold.t; } with sexp ;; val read : unit -> t val to_string : t -> string val to_rst : t -> Rst_string.t val of_rst : Rst_string.t -> t end = struct type t = { n_it_scf_max : Strictly_positive_int.t; thresh_scf : Threshold.t; } with sexp ;; let get_default = Qpackage.get_ezfio_default "hartree_fock";; let read_n_it_scf_max () = if not (Ezfio.has_hartree_fock_n_it_scf_max ()) then get_default "n_it_scf_max" |> Int.of_string |> Ezfio.set_hartree_fock_n_it_scf_max ; Ezfio.get_hartree_fock_n_it_scf_max () |> Strictly_positive_int.of_int ;; let read_thresh_scf() = if not (Ezfio.has_hartree_fock_thresh_scf()) then get_default "thresh_scf" |> Float.of_string |> Ezfio.set_hartree_fock_thresh_scf ; Ezfio.get_hartree_fock_thresh_scf () |> Threshold.of_float ;; let read () = { n_it_scf_max = read_n_it_scf_max (); thresh_scf = read_thresh_scf (); } ;; let to_string b = Printf.sprintf " n_it_scf_max = %s thresh_scf = %s " (Strictly_positive_int.to_string b.n_it_scf_max) (Threshold.to_string b.thresh_scf) ;; let to_rst b = Printf.sprintf " Max number of SCF iterations :: n_it_scf_max = %s SCF convergence criterion (on energy) :: thresh_scf = %s " (Strictly_positive_int.to_string b.n_it_scf_max) (Threshold.to_string b.thresh_scf) |> Rst_string.of_string ;; let of_rst s = let s = Rst_string.to_string s |> String.split ~on:'\n' |> List.filter ~f:(fun line -> String.contains line '=') |> List.map ~f:(fun line -> "("^( String.tr line ~target:'=' ~replacement:' ' )^")" ) |> String.concat in Sexp.of_string ("("^s^")") |> t_of_sexp ;; end