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QCaml/MOBasis/MOClass.ml

141 lines
3.7 KiB
OCaml

type mo_class =
| Core of int (* Always doubly occupied *)
| Inactive of int (* With 0,1 or 2 holes *)
| Active of int (* With 0,1 or 2 holes or particles *)
| Virtual of int (* With 0,1 or 2 particles *)
| Deleted of int (* Always unoccupied *)
| Auxiliary of int (* Auxiliary basis function *)
type t = mo_class list
let pp_mo_class ppf = function
| Core i -> Format.fprintf ppf "@[Core %d@]" i
| Inactive i -> Format.fprintf ppf "@[Inactive %d@]" i
| Active i -> Format.fprintf ppf "@[Active %d@]" i
| Virtual i -> Format.fprintf ppf "@[Virtual %d@]" i
| Deleted i -> Format.fprintf ppf "@[Deleted %d@]" i
| Auxiliary i -> Format.fprintf ppf "@[Auxiliary %d@]" i
let pp ppf t =
Format.fprintf ppf "@[[@,";
let rec aux = function
| [] -> Format.fprintf ppf "]@]"
| x :: [] -> Format.fprintf ppf "%a@,]@]" pp_mo_class x
| x :: rest -> ( Format.fprintf ppf "%a@,;@," pp_mo_class x; aux rest )
in
aux t
let of_list t = t
let to_list t = t
let core_mos t =
List.filter_map (fun x ->
match x with
| Core i -> Some i
| _ -> None) t
let inactive_mos t =
List.filter_map (fun x ->
match x with
| Inactive i -> Some i
| _ -> None ) t
let active_mos t =
List.filter_map (fun x ->
match x with
| Active i -> Some i
| _ -> None ) t
let virtual_mos t =
List.filter_map (fun x ->
match x with
| Virtual i -> Some i
| _ -> None ) t
let deleted_mos t =
List.filter_map (fun x ->
match x with
| Deleted i -> Some i
| _ -> None ) t
let auxiliary_mos t =
List.filter_map (fun x ->
match x with
| Auxiliary i -> Some i
| _ -> None ) t
let mo_class_array t =
let sze = List.length t + 1 in
let result = Array.make sze (Deleted 0) in
List.iter (fun c ->
match c with
| Core i -> result.(i) <- Core i
| Inactive i -> result.(i) <- Inactive i
| Active i -> result.(i) <- Active i
| Virtual i -> result.(i) <- Virtual i
| Deleted i -> result.(i) <- Deleted i
| Auxiliary i -> result.(i) <- Auxiliary i
) t;
result
let fci ~frozen_core mo_basis =
let mo_num = MOBasis.size mo_basis in
let ncore = (Nuclei.small_core @@ Simulation.nuclei @@ MOBasis.simulation mo_basis) / 2 in
of_list (
if frozen_core then
List.concat [
Util.list_range 1 ncore
|> List.map (fun i -> Core i) ;
Util.list_range (ncore+1) mo_num
|> List.map (fun i -> Active i)
]
else
Util.list_range 1 mo_num
|> List.map (fun i -> Active i)
)
let cas_sd mo_basis ~frozen_core n m =
let mo_num = MOBasis.size mo_basis in
let n_alfa = MOBasis.simulation mo_basis |> Simulation.electrons |> Electrons.n_alfa in
let n_beta = MOBasis.simulation mo_basis |> Simulation.electrons |> Electrons.n_beta in
let n_unpaired = n_alfa - n_beta in
let n_alfa_in_cas = (n - n_unpaired)/2 + n_unpaired in
let last_inactive = n_alfa - n_alfa_in_cas in
let last_active = last_inactive + m in
let ncore =
if frozen_core then
(Nuclei.small_core @@ Simulation.nuclei @@ MOBasis.simulation mo_basis) / 2
|> min last_inactive
else 0
in
of_list (
List.concat [
if ncore > 0 then
Util.list_range 1 ncore
|> List.map (fun i -> Core i)
else
[] ;
Util.list_range (ncore+1) last_inactive
|> List.map (fun i -> Inactive i) ;
Util.list_range (last_inactive+1) last_active
|> List.map (fun i -> Active i) ;
Util.list_range (last_active+1) mo_num
|> List.map (fun i -> Virtual i)
]
)