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QCaml/Basis/ContractedShellPair.ml

212 lines
5.8 KiB
OCaml

open Util
open Constants
exception Null_contribution
type t =
{
shell_a : ContractedShell.t;
shell_b : ContractedShell.t;
shell_pairs : ShellPair.t array;
coef : float array;
expo_inv : float array;
center_ab : Coordinate.t; (* A-B *)
norm_sq : float; (* |A-B|^2 *)
norm_coef_scale : float array; (* norm_coef.(i) / norm_coef.(0) *)
totAngMomInt : int; (* Total angular Momentum *)
}
module Am = AngularMomentum
module Co = Coordinate
module Cs = ContractedShell
module Sp = ShellPair
(** Creates an contracted shell pair : an array of pairs of primitive shells.
A contracted shell with N functions combined with a contracted
shell with M functions generates a NxM array of shell pairs.
*)
let create ?cutoff p_a p_b =
let cutoff, log_cutoff =
match cutoff with
| None -> -1., max_float
| Some cutoff -> cutoff, -. (log cutoff)
in
let center_ab = Co.( Cs.center p_a |- Cs.center p_b )
in
let norm_sq =
Co.dot center_ab center_ab
in
let norm_coef_scale_a =
Cs. norm_coef_scale p_a
and norm_coef_scale_b =
Cs. norm_coef_scale p_b
in
let norm_coef_scale =
Array.map (fun v1 ->
Array.map (fun v2 -> v1 *. v2) norm_coef_scale_b
) norm_coef_scale_a
|> Array.to_list
|> Array.concat
in
let shell_pairs =
Array.init (Cs.size p_a) (fun i ->
let p_a_expo_center = Co.( (Cs.expo p_a).(i) |. Cs.center p_a ) in
let norm_coef_a = (Cs.norm_coef p_a).(i) in
Array.init (Cs.size p_b) (fun j ->
try
let norm_coef_b = (Cs.norm_coef p_b).(j) in
let norm_coef = norm_coef_a *. norm_coef_b
in
if norm_coef < cutoff then
raise Null_contribution;
let p_b_expo_center = Co.( (Cs.expo p_b).(j) |. Cs.center p_b ) in
let expo = (Cs.expo p_a).(i) +. (Cs.expo p_b).(j) in
let expo_inv = 1. /. expo in
let center = Co.(expo_inv |. (p_a_expo_center |+ p_b_expo_center ) )
in
let argexpo =
(Cs.expo p_a).(i) *. (Cs.expo p_b).(j) *. norm_sq *. expo_inv
in
if (argexpo > log_cutoff) then
raise Null_contribution;
let g =
(pi *. expo_inv)**(1.5) *. exp (-. argexpo)
in
let coef =
norm_coef *. (Cs.coef p_a).(i) *. (Cs.coef p_b).(j) *. g
in
if abs_float coef < cutoff then
raise Null_contribution;
let center_a =
Co.(center |- Cs.center p_a)
in
let monocentric =
Cs.(center p_a = center p_b)
in
let totAngMomInt =
Am.to_int (Cs.totAngMom p_a) +
Am.to_int (Cs.totAngMom p_b)
in
Some {
Sp.i ; j ;
shell_a=p_a ; shell_b=p_b ;
norm_coef ; coef ;
expo ; expo_inv ;
center ; center_a ; center_ab ;
norm_sq ; monocentric ; totAngMomInt
}
with
| Null_contribution -> None
)
)
|> Array.to_list
|> Array.concat
|> Array.to_list
|> List.filter (function Some _ -> true | None -> false)
|> List.map (function Some x -> x | None -> assert false)
|> Array.of_list
in
let coef = Array.map (fun x -> (fun y -> y.Sp.coef) x) shell_pairs
and expo_inv = Array.map (fun x -> (fun y -> y.Sp.expo_inv) x) shell_pairs
in
{
shell_a = p_a ; shell_b = p_b ; coef ; expo_inv ;
shell_pairs ; center_ab=shell_pairs.(0).center_ab;
norm_coef_scale ; norm_sq=shell_pairs.(0).norm_sq;
totAngMomInt = shell_pairs.(0).Sp.totAngMomInt;
}
let shell_a x = x.shell_a
let shell_b x = x.shell_b
let shell_pairs x = x.shell_pairs
let coef x = x.coef
let expo_inv x = x.expo_inv
let center_ab x = x.center_ab
let norm_sq x = x.norm_sq
let totAngMomInt x = x.totAngMomInt
let norm_coef_scale x = x.norm_coef_scale
let monocentric x = x.shell_pairs.(0).Sp.monocentric
(** Returns an integer characteristic of a contracted shell pair *)
let hash a =
Array.map Hashtbl.hash a
(** Comparison function, used for sorting *)
let cmp a b =
if a = b then 0
else if (Array.length a < Array.length b) then -1
else if (Array.length a > Array.length b) then 1
else
let out = ref 0 in
begin
try
for k=0 to (Array.length a - 1) do
if a.(k) < b.(k) then
(out := (-1); raise Not_found)
else if a.(k) > b.(k) then
(out := 1; raise Not_found);
done
with Not_found -> ();
end;
!out
(** The array of all shell pairs with their correspondance in the list
of contracted shells.
*)
let of_basis basis =
Array.mapi (fun i shell_a ->
Array.mapi (fun j shell_b ->
create shell_a shell_b)
(Array.sub basis 0 (i+1))
) basis
let equivalent x y =
(Array.length x = Array.length y) &&
(Array.init (Array.length x) (fun k -> Sp.equivalent x.(k) y.(k))
|> Array.fold_left (fun accu x -> x && accu) true)
(** A list of unique shell pairs *)
let unique sp =
let sp =
Array.to_list sp
|> Array.concat
|> Array.to_list
in
let rec aux accu = function
| [] -> accu
| x::rest ->
try ignore @@ List.find (fun y -> equivalent x y) accu; aux accu rest
with Not_found -> aux (x::accu) rest
in
aux [] sp
(** A map from a shell pair hash to the list of indices in the array
of shell pairs.
*)
let indices sp =
let map =
Hashtbl.create 129
in
Array.iteri (fun i s ->
Array.iteri (fun j shell_p ->
let key =
hash shell_p
in
Hashtbl.add map key (i,j); ) s
) sp;
map