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https://github.com/QuantumPackage/qp2.git
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281 lines
7.1 KiB
OCaml
281 lines
7.1 KiB
OCaml
open Sexplib.Std
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open Qptypes
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module GaussianPrimitive_local : sig
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type t = {
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expo : AO_expo.t ;
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r_power : R_power.t ;
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} [@@deriving sexp]
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val of_expo_r_power : AO_expo.t -> R_power.t -> t
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val to_string : t -> string
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end = struct
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type t = {
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expo : AO_expo.t ;
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r_power : R_power.t ;
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} [@@deriving sexp]
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let of_expo_r_power dz n =
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{ expo = dz ; r_power = n }
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let to_string p =
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Printf.sprintf "(%d, %22e)"
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(R_power.to_int p.r_power)
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(AO_expo.to_float p.expo)
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end
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module GaussianPrimitive_non_local : sig
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type t = {
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expo : AO_expo.t ;
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r_power : R_power.t ;
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proj : Positive_int.t
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} [@@deriving sexp]
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val of_proj_expo_r_power : Positive_int.t -> AO_expo.t -> R_power.t -> t
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val to_string : t -> string
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end = struct
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type t = {
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expo : AO_expo.t ;
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r_power : R_power.t ;
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proj : Positive_int.t
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} [@@deriving sexp]
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let of_proj_expo_r_power p dz n =
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{ expo = dz ; r_power = n ; proj = p }
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let to_string p =
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Printf.sprintf "(%d, %22e, %d)"
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(R_power.to_int p.r_power)
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(AO_expo.to_float p.expo)
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(Positive_int.to_int p.proj)
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end
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type t = {
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element : Element.t ;
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n_elec : Positive_int.t ;
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local : (GaussianPrimitive_local.t * AO_coef.t ) list ;
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non_local : (GaussianPrimitive_non_local.t * AO_coef.t ) list
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} [@@deriving sexp]
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let empty e =
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{ element = e;
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n_elec = Positive_int.of_int 0;
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local = [];
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non_local = [];
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}
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(** Transform the local component of the pseudopotential to a string *)
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let to_string_local = function
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| [] -> ""
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| t ->
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"Local component:" ::
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( Printf.sprintf "%20s %8s %20s" "Coeff." "r^n" "Exp." ) ::
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( List.map (fun (l,c) -> Printf.sprintf "%20f %8d %20f"
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(AO_coef.to_float c)
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(R_power.to_int l.GaussianPrimitive_local.r_power)
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(AO_expo.to_float l.GaussianPrimitive_local.expo)
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) t )
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|> String.concat "\n"
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(** Transform the non-local component of the pseudopotential to a string *)
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let to_string_non_local = function
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| [] -> ""
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| t ->
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"Non-local component:" ::
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( Printf.sprintf "%20s %8s %20s %8s" "Coeff." "r^n" "Exp." "Proj") ::
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( List.map (fun (l,c) ->
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let p =
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Positive_int.to_int l.GaussianPrimitive_non_local.proj
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in
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Printf.sprintf "%20f %8d %20f |%d><%d|"
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(AO_coef.to_float c)
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(R_power.to_int l.GaussianPrimitive_non_local.r_power)
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(AO_expo.to_float l.GaussianPrimitive_non_local.expo)
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p p
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) t )
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|> String.concat "\n"
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(** Transform the Pseudopotential to a string *)
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let to_string t =
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Printf.sprintf "%s %d electrons removed"
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(Element.to_string t.element)
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(Positive_int.to_int t.n_elec)
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:: to_string_local t.local
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:: to_string_non_local t.non_local
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:: []
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|> List.filter (fun x -> x <> "")
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|> String.concat "\n"
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(** Find an element in the file *)
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let find in_channel element =
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seek_in in_channel 0;
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let loop, element_read, old_pos =
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ref true,
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ref None,
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ref (pos_in in_channel)
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in
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while !loop
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do
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try
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let buffer =
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old_pos := pos_in in_channel;
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try
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input_line in_channel
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|> String_ext.split ~on:' '
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|> List.hd
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with _ -> raise End_of_file
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in
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element_read := Some (Element.of_string buffer);
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loop := !element_read <> (Some element)
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with
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| Element.ElementError _ -> ()
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| End_of_file -> loop := false
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done ;
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seek_in in_channel !old_pos;
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!element_read
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(** Read the Pseudopotential in GAMESS format *)
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let read_element in_channel element =
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match find in_channel element with
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| Some e when e = element ->
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begin
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let rec read result =
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try
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let line = input_line in_channel in
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if (String.trim line = "") then
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result
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else
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read (line::result)
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with _ -> result
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in
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let data =
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read []
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|> List.rev
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in
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let debug_data =
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String.concat "\n" data
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in
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let decode_first_line = function
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| first_line :: rest ->
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begin
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let first_line_split =
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String_ext.split first_line ~on:' '
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|> List.filter (fun x -> (String.trim x) <> "")
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in
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match first_line_split with
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| e :: "GEN" :: n :: p ->
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{ element = Element.of_string e ;
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n_elec = int_of_string n |> Positive_int.of_int ;
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local = [] ;
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non_local = []
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}, rest
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| _ -> failwith (
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Printf.sprintf "Unable to read Pseudopotential : \n%s\n"
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debug_data )
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end
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| _ -> failwith ("Error reading pseudopotential\n"^debug_data)
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in
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let rec loop create_primitive accu = function
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| (0,rest) -> List.rev accu, rest
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| (n,line::rest) ->
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begin
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match
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String_ext.split line ~on:' '
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|> List.filter (fun x -> String.trim x <> "")
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with
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| c :: i :: e :: [] ->
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let i =
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int_of_string i
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in
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let elem =
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( create_primitive
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(float_of_string e |> AO_expo.of_float)
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(i-2 |> R_power.of_int),
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float_of_string c |> AO_coef.of_float
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)
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in
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loop create_primitive (elem::accu) (n-1, rest)
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| _ -> failwith ("Error reading pseudopotential\n"^debug_data)
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end
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| _ -> failwith ("Error reading pseudopotential\n"^debug_data)
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in
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let decode_local (pseudo,data) =
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let decode_local_n n rest =
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let result, rest =
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loop GaussianPrimitive_local.of_expo_r_power [] (Positive_int.to_int n,rest)
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in
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{ pseudo with local = result }, rest
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in
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match data with
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| n :: rest ->
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let n =
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String.trim n
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|> int_of_string
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|> Positive_int.of_int
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in
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decode_local_n n rest
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| _ -> failwith ("Unable to read (non-)local pseudopotential\n"^debug_data)
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in
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let decode_non_local (pseudo,data) =
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let decode_non_local_n proj n (pseudo,data) =
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let result, rest =
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loop (GaussianPrimitive_non_local.of_proj_expo_r_power proj)
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[] (Positive_int.to_int n, data)
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in
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{ pseudo with non_local = pseudo.non_local @ result }, rest
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in
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let rec new_proj (pseudo,data) proj =
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match data with
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| n :: rest ->
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let n =
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String.trim n
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|> int_of_string
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|> Positive_int.of_int
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in
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let result =
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decode_non_local_n proj n (pseudo,rest)
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and proj_next =
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(Positive_int.to_int proj)+1
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|> Positive_int.of_int
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in
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new_proj result proj_next
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| _ -> pseudo
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in
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new_proj (pseudo,data) (Positive_int.of_int 0)
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in
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decode_first_line data
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|> decode_local
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|> decode_non_local
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end
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| _ -> empty element
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include To_md5
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let to_md5 = to_md5 sexp_of_t
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