open Core.Std;; let input_data = " * Positive_float : float assert (x >= 0.) ; * Strictly_positive_float : float assert (x > 0.) ; * Negative_float : float assert (x <= 0.) ; * Strictly_negative_float : float assert (x < 0.) ; * Positive_int : int assert (x >= 0) ; * Strictly_positive_int : int assert (x > 0) ; * Negative_int : int assert (x <= 0) ; * Det_coef : float assert (x >= -1.) ; assert (x <= 1.) ; * Normalized_float : float assert (x <= 1.) ; assert (x >= 0.) ; * Strictly_negative_int : int assert (x < 0) ; * Non_empty_string : string assert (x <> \"\") ; * Det_number_max : int assert (x > 0) ; if (x > 100000000) then warning \"More than 100 million determinants\"; * States_number : int assert (x > 0) ; if (x > 100) then warning \"More than 100 states\"; if (Ezfio.has_determinants_n_states_diag ()) then assert (x <= (Ezfio.get_determinants_n_states_diag ())) else if (Ezfio.has_determinants_n_states ()) then assert (x <= (Ezfio.get_determinants_n_states ())); * Bit_kind_size : int begin match x with | 8 | 16 | 32 | 64 -> () | _ -> raise (Failure \"Bit_kind_size should be (8|16|32|64).\") end; * Bit_kind : int begin match x with | 1 | 2 | 4 | 8 -> () | _ -> raise (Failure \"Bit_kind should be (1|2|4|8).\") end; * Bitmask_number : int assert (x > 0) ; * MO_coef : float * MO_occ : float assert (x >= 0.); * AO_coef : float * AO_expo : float assert (x >= 0.) ; * AO_prim_number : int assert (x > 0) ; * R_power : int assert (x >= -2) ; assert (x <= 8) ; * Threshold : float assert (x >= 0.) ; assert (x <= 1.) ; * Energy : float assert (x <=0.) ; * S2 : float assert (x >=0.) ; * PT2_energy : float assert (x >=0.) ; * Elec_alpha_number : int assert (x > 0) ; * Elec_beta_number : int assert (x >= 0) ; * Elec_number : int assert (x > 0) ; * MD5 : string assert ((String.length x) = 32); assert (String.fold x ~init:true ~f:(fun accu x -> accu && (x < 'g'))); * Rst_string : string * AO_basis_name : string assert (x <> \"\") ; " ;; let input_ezfio = " * MO_number : int mo_basis_mo_tot_num 1 : 10000 More than 10000 MOs * AO_number : int ao_basis_ao_num 1 : 10000 More than 10000 AOs * Nucl_number : int nuclei_nucl_num 1 : 10000 More than 10000 nuclei * N_int_number : int determinants_n_int 1 : 30 N_int > 30 * Det_number : int determinants_n_det 1 : 100000000 More than 100 million of determinants " ;; let untouched = " module MO_guess : sig type t with sexp val to_string : t -> string val of_string : string -> t end = struct type t = | Huckel | HCore with sexp let to_string = function | Huckel -> \"Huckel\" | HCore -> \"HCore\" let of_string s = match (String.lowercase s) with | \"huckel\" -> Huckel | \"hcore\" -> HCore | _ -> failwith (\"Wrong Guess type : \"^s) end module Disk_access : sig type t with sexp val to_string : t -> string val of_string : string -> t end = struct type t = | Read | Write | None with sexp let to_string = function | Read -> \"Read\" | Write -> \"Write\" | None -> \"None\" let of_string s = match (String.lowercase s) with | \"read\" -> Read | \"write\" -> Write | \"none\" -> None | _ -> failwith (\"Wrong IO type : \"^s) end " ;; let template = format_of_string " module %s : sig type t with sexp val to_%s : t -> %s val of_%s : %s %s -> t val to_string : t -> string end = struct type t = %s with sexp let to_%s x = x let of_%s %s x = ( %s x ) let to_string x = %s.to_string x end " ;; let parse_input input= print_string "open Core.Std;;\nlet warning = print_string;;\n" ; let rec parse result = function | [] -> result | ( "" , "" )::tail -> parse result tail | ( t , text )::tail -> let name,typ,params,params_val = match String.split ~on:':' t with | [name;typ] -> (name,typ,"","") | name::typ::params::params_val -> (name,typ,params, (String.concat params_val ~sep:":") ) | _ -> assert false in let typ = String.strip typ and name = String.strip name in let typ_cap = String.capitalize typ in let newstring = Printf.sprintf template name typ typ typ params_val typ typ typ typ params ( String.strip text ) typ_cap in List.rev (parse (newstring::result) tail ) in String.split ~on:'*' input |> List.map ~f:(String.lsplit2_exn ~on:'\n') |> parse [] |> String.concat |> print_string ;; let ezfio_template = format_of_string " module %s : sig type t with sexp val to_%s : t -> %s val get_max : unit -> %s val of_%s : ?min:%s -> ?max:%s -> %s -> t val to_string : t -> string end = struct type t = %s with sexp let to_string x = %s.to_string x let get_max () = if (Ezfio.has_%s ()) then Ezfio.get_%s () else %s let get_min () = %s let to_%s x = x let of_%s ?(min=get_min ()) ?(max=get_max ()) x = begin assert (x >= min) ; if (x > %s) then warning \"%s\"; begin match max with | %s -> () | i -> assert ( x <= i ) end ; x end end " ;; let parse_input_ezfio input= let parse s = match ( String.split s ~on:'\n' |> List.filter ~f:(fun x -> (String.strip x) <> "") ) with | [] -> "" | a :: b :: c :: d :: [] -> begin let (name,typ) = String.lsplit2_exn ~on:':' a and ezfio_func = b and (min, max) = String.lsplit2_exn ~on:':' c and msg = d in let (name, typ, ezfio_func, min, max, msg) = match (List.map [ name ; typ ; ezfio_func ; min ; max ; msg ] ~f:String.strip) with | [ name ; typ ; ezfio_func ; min ; max ; msg ] -> (name, typ, ezfio_func, min, max, msg) | _ -> assert false in Printf.sprintf ezfio_template name typ typ typ typ typ typ typ typ (String.capitalize typ) ezfio_func ezfio_func max min typ typ max msg min end | _ -> failwith "Error in input_ezfio" in String.split ~on:'*' input |> List.map ~f:parse |> String.concat |> print_string ;; let () = parse_input input_data ; parse_input_ezfio input_ezfio; print_endline untouched;