open Lacaml.D open Util type t = { guess : Guess.t; eigenvectors : Lacaml.D.Mat.t ; eigenvalues : Lacaml.D.Vec.t ; nocc : int; energy : float ; nuclear_repulsion : float ; kin_energy : float ; eN_energy : float ; coulomb_energy : float ; exchange_energy : float ; iterations : (float * float * float) array; } let iterations_to_string hf_calc = " # HF energy Convergence HOMO-LUMO ---------------------------------------------------" :: Array.to_list (Array.mapi (fun i (e, c, g) -> Printf.sprintf " %5d %13.8f %11.4e %11.4f " (i+1) e c g) hf_calc.iterations) @ [ " -----------------------------------------------------" ] |> String.concat "\n" let summary hf_calc = let ha_to_ev = Constants.ha_to_ev in String.concat "\n" [ " ====================================================="; Printf.sprintf " One-electron energy %16.10f" (hf_calc.kin_energy +. hf_calc.eN_energy) ; Printf.sprintf " Kinetic energy %16.10f" hf_calc.kin_energy ; Printf.sprintf " Potential energy %16.10f" hf_calc.eN_energy ; " ---------------------------------------------------"; Printf.sprintf " Two-electron energy %16.10f" (hf_calc.coulomb_energy +. hf_calc.exchange_energy) ; Printf.sprintf " Coulomb energy %16.10f" hf_calc.coulomb_energy ; Printf.sprintf " Exchange energy %16.10f" hf_calc.exchange_energy ; " ---------------------------------------------------"; Printf.sprintf " Electronic energy %16.10f" (hf_calc.energy -. hf_calc.nuclear_repulsion); Printf.sprintf " Nuclear repulsion %16.10f" hf_calc.coulomb_energy ; Printf.sprintf " Hartree-Fock energy %16.10f" hf_calc.energy ; " ---------------------------------------------------"; Printf.sprintf " HF HOMO energy %16.10f eV" (ha_to_ev *. hf_calc.eigenvalues.{hf_calc.nocc} ); Printf.sprintf " HF LUMO energy %16.10f eV" (ha_to_ev *. hf_calc.eigenvalues.{hf_calc.nocc+1} ); Printf.sprintf " HF HOMO-LUMO gap %16.10f eV" (ha_to_ev *.(hf_calc.eigenvalues.{hf_calc.nocc+1} -. hf_calc.eigenvalues.{hf_calc.nocc})); " =====================================================" ] let mos_to_string hf_calc = let open Lacaml.Io in let rows = Mat.dim1 hf_calc.eigenvectors and cols = Mat.dim2 hf_calc.eigenvectors in let rec aux accu first last = if (first > last) then String.concat "\n" (List.rev accu) else let nw = "\n Eigenvalues : " ^ ( Array.mapi (fun i x -> if (i+1 >= first) && (i+1 <= first+4 ) then Some (Printf.sprintf " %f " x) else None ) (Vec.to_array hf_calc.eigenvalues) |> Array.to_list |> list_some |> String.concat " " )^ Format.asprintf "\n\n %a\n" (Lacaml.Io.pp_lfmat ~row_labels: (Array.init rows (fun i -> Printf.sprintf "%d " (i + 1))) ~col_labels: (Array.init (min 5 (cols-first+1)) (fun i -> Printf.sprintf "-- %d --" (i + first) )) ~print_right:false ~print_foot:false () ) (lacpy ~ac:first ~n:(min 5 (cols-first+1)) hf_calc.eigenvectors) in aux (nw :: accu) (first+5) last in String.concat "\n" [ " ========================================================================= Molecular Orbitals ========================================================================= Occupied ----------------------------------------------------------------------- " ; aux [] 1 hf_calc.nocc ; " Virtual ----------------------------------------------------------------------- " ; aux [] (hf_calc.nocc+1) (Mat.dim2 hf_calc.eigenvectors) ; " ========================================================================= " ] let to_string hf_calc = String.concat "\n" [ " ===================================================== Hartree-Fock =====================================================" ; "" ; iterations_to_string hf_calc ; "" ; summary hf_calc ; "" ; mos_to_string hf_calc ; "" ; ]