mirror of
https://github.com/QuantumPackage/qp2.git
synced 2024-11-19 20:42:36 +01:00
113 lines
2.7 KiB
OCaml
113 lines
2.7 KiB
OCaml
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(* =~=~ *)
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(* Init *)
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(* =~=~ *)
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open Qptypes;;
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open Qputils;;
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open Sexplib.Std;;
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module Ao_two_e_eff_pot : sig
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(* Generate type *)
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type t =
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{
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adjoint_tc_h : bool;
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grad_squared : bool;
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} [@@deriving sexp]
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;;
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val read : unit -> t option
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val write : t-> unit
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val to_string : t -> string
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val to_rst : t -> Rst_string.t
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val of_rst : Rst_string.t -> t option
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end = struct
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(* Generate type *)
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type t =
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{
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adjoint_tc_h : bool;
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grad_squared : bool;
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} [@@deriving sexp]
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;;
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let get_default = Qpackage.get_ezfio_default "ao_two_e_eff_pot";;
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(* =~=~=~=~=~=~==~=~=~=~=~=~ *)
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(* Generate Special Function *)
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(* =~=~=~==~=~~=~=~=~=~=~=~=~ *)
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(* Read snippet for adjoint_tc_h *)
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let read_adjoint_tc_h () =
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if not (Ezfio.has_ao_two_e_eff_pot_adjoint_tc_h ()) then
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get_default "adjoint_tc_h"
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|> bool_of_string
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|> Ezfio.set_ao_two_e_eff_pot_adjoint_tc_h
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;
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Ezfio.get_ao_two_e_eff_pot_adjoint_tc_h ()
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;;
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(* Write snippet for adjoint_tc_h *)
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let write_adjoint_tc_h =
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Ezfio.set_ao_two_e_eff_pot_adjoint_tc_h
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;;
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(* Read snippet for grad_squared *)
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let read_grad_squared () =
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if not (Ezfio.has_ao_two_e_eff_pot_grad_squared ()) then
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get_default "grad_squared"
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|> bool_of_string
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|> Ezfio.set_ao_two_e_eff_pot_grad_squared
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;
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Ezfio.get_ao_two_e_eff_pot_grad_squared ()
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;;
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(* Write snippet for grad_squared *)
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let write_grad_squared =
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Ezfio.set_ao_two_e_eff_pot_grad_squared
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;;
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(* =~=~=~=~=~=~=~=~=~=~=~=~ *)
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(* Generate Global Function *)
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(* =~=~=~=~=~=~=~=~=~=~=~=~ *)
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(* Read all *)
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let read() =
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Some
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{
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adjoint_tc_h = read_adjoint_tc_h ();
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grad_squared = read_grad_squared ();
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}
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;;
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(* Write all *)
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let write{
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adjoint_tc_h;
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grad_squared;
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} =
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write_adjoint_tc_h adjoint_tc_h;
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write_grad_squared grad_squared;
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;;
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(* to_string*)
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let to_string b =
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Printf.sprintf "
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adjoint_tc_h = %s
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grad_squared = %s
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"
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(string_of_bool b.adjoint_tc_h)
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(string_of_bool b.grad_squared)
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;;
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(* to_rst*)
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let to_rst b =
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Printf.sprintf "
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If |true|, you compute the adjoint of the transcorrelated Hamiltonian ::
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adjoint_tc_h = %s
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If |true|, you compute also the square of the gradient of the correlation factor ::
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grad_squared = %s
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"
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(string_of_bool b.adjoint_tc_h)
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(string_of_bool b.grad_squared)
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|> Rst_string.of_string
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;;
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include Generic_input_of_rst;;
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let of_rst = of_rst t_of_sexp;;
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end
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