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143 lines
3.5 KiB
OCaml
143 lines
3.5 KiB
OCaml
open Common
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type t = {
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expo : float array;
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coef : float array;
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norm_coef : float array;
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norm_coef_scale : float array;
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prim : Primitive_shell.t array;
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center : Coordinate.t;
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ang_mom : Angular_momentum.t;
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index : int;
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}
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module Am = Angular_momentum
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module Co = Coordinate
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module Ps = Primitive_shell
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let make ?(index=0) lc =
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assert (Array.length lc > 0);
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let coef = Array.map fst lc
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and prim = Array.map snd lc
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in
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let center = Ps.center prim.(0) in
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let rec unique_center = function
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| 0 -> true
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| i -> if Ps.center prim.(i) = center then (unique_center [@tailcall]) (i-1) else false
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in
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if not (unique_center (Array.length prim - 1)) then
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invalid_arg "ContractedShell.make Coordinate.t differ";
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let ang_mom = Ps.ang_mom prim.(0) in
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let rec unique_angmom = function
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| 0 -> true
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| i -> if Ps.ang_mom prim.(i) = ang_mom then (unique_angmom [@tailcall]) (i-1) else false
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in
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if not (unique_angmom (Array.length prim - 1)) then
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invalid_arg "ContractedShell.make: AngularMomentum.t differ";
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let expo = Array.map Ps.exponent prim in
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let norm_coef =
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Array.map Ps.normalization prim
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in
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let norm_coef_scale = Ps.norm_scales prim.(0)
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in
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{ index ; expo ; coef ; center ; ang_mom ; norm_coef ;
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norm_coef_scale ; prim }
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let with_index a i =
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{ a with index = i }
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let exponents x = x.expo
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let coefficients x = x.coef
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let center x = x.center
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let ang_mom x = x.ang_mom
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let size x = Array.length x.prim
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let normalizations x = x.norm_coef
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let norm_scales x = x.norm_coef_scale
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let index x = x.index
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let size_of_shell x = Array.length x.norm_coef_scale
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let primitives x = x.prim
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let zkey_array x = Ps.zkey_array x.prim.(0)
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let values t point =
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(* Radial part *)
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let r = Co.( point |- t.center ) in
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let r2 = Co.dot r r in
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let radial =
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let rec aux accu = function
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| -1 -> accu
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| i -> let new_accu =
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t.norm_coef.(i) *. t.coef.(i) *. exp(-. t.expo.(i) *. r2) +. accu
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in aux new_accu (i-1)
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in
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aux 0. (Array.length t.expo - 1)
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in
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(* Angular part *)
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let n = Am.to_int t.ang_mom in
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let x = Array.create_float (n+1) in
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let y = Array.create_float (n+1) in
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let z = Array.create_float (n+1) in
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let fill arr v =
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arr.(0) <- 1.;
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for i=1 to n do
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arr.(i) <- arr.(i-1) *. v
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done;
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in
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fill x r.x; fill y r.y; fill z r.z;
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let powers =
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Am.zkey_array (Am.Singlet t.ang_mom)
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in
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Array.mapi (fun i a ->
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let p = Zkey.to_int_array a in
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t.norm_coef_scale.(i) *. x.(p.(0)) *. y.(p.(1)) *. z.(p.(2)) *. radial
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) powers
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(** {2 Printers} *)
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open Format
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(*
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let pp_debug ppf x =
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fprintf ppf "@[<2>{@ ";
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fprintf ppf "@[<2>expo =@ %a ;@]@ " pp_float_array_size x.expo;
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fprintf ppf "@[<2>coef =@ %a ;@]@ " pp_float_array_size x.coef;
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fprintf ppf "@[<2>center =@ %a ;@]@ " Co.pp_angstrom x.center;
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fprintf ppf "@[<2>ang_mom =@ %a ;@]@ " Am.pp_string x.ang_mom;
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fprintf ppf "@[<2>norm_coef =@ %a ;@]@ " pp_float_array_size x.norm_coef;
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fprintf ppf "@[<2>norm_coef_scale =@ %a ;@]@ " pp_float_array_size x.norm_coef_scale;
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fprintf ppf "@[<2>index =@ %d ;@]@ " x.index;
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fprintf ppf "}@,@]"
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*)
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let pp ppf s =
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(match s.ang_mom with
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| Am.S -> fprintf ppf "@[%3d@] " (s.index+1)
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| _ -> fprintf ppf "@[%3d-%-3d@]" (s.index+1) (s.index+(Array.length s.norm_coef_scale))
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);
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fprintf ppf "@[%a@ %a@]@[" Am.pp_string s.ang_mom Co.pp s.center;
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Array.iter2 (fun e c -> fprintf ppf "@[%16.8e %16.8e@]@;" e c) s.expo s.coef;
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fprintf ppf "@]"
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