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156 lines
4.9 KiB
OCaml
156 lines
4.9 KiB
OCaml
open Lacaml.D
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module De = Determinant
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module Ex = Excitation
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module Sp = Spindeterminant
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type t = float list
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let non_zero integrals degree_a degree_b ki kj =
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let kia = De.alfa ki and kib = De.beta ki
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and kja = De.alfa kj and kjb = De.beta kj
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in
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let single h p spin same opposite =
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let same_spin_mo_list =
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Sp.to_list same
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and opposite_spin_mo_list =
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Sp.to_list opposite
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in
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fun one_e two_e ->
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let same_spin =
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List.fold_left (fun accu i -> accu +. two_e h i p i spin spin) 0. same_spin_mo_list
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and opposite_spin =
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List.fold_left (fun accu i -> accu +. two_e h i p i spin (Spin.other spin) ) 0. opposite_spin_mo_list
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in (one_e h p spin) +. same_spin +. opposite_spin
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in
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let diag_element =
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let mo_a = Sp.to_list kia
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and mo_b = Sp.to_list kib
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in
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fun one_e two_e ->
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let one =
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(List.fold_left (fun accu i -> accu +. one_e i i Spin.Alfa) 0. mo_a)
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+.
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(List.fold_left (fun accu i -> accu +. one_e i i Spin.Beta) 0. mo_b)
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in
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let two =
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let rec aux_same spin accu = function
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| [] -> accu
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| i :: rest ->
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let new_accu =
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List.fold_left (fun accu j -> accu +. two_e i j i j spin spin) accu rest
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in
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aux_same spin new_accu rest
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in
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let rec aux_opposite accu other = function
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| [] -> accu
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| i :: rest ->
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let new_accu =
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List.fold_left (fun accu j -> accu +. two_e i j i j Spin.Alfa Spin.Beta) accu other
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in
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aux_opposite new_accu other rest
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in
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(aux_same Spin.Alfa 0. mo_a) +. (aux_same Spin.Beta 0. mo_b) +.
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(aux_opposite 0. mo_a mo_b)
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in
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one +. two
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in
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let result =
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match degree_a, degree_b with
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| 1, 1 -> (* alpha-beta double *)
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begin
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let ha, pa, phase_a = Ex.single_of_spindet kia kja in
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let hb, pb, phase_b = Ex.single_of_spindet kib kjb in
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match phase_a, phase_b with
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| Phase.Pos, Phase.Pos
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| Phase.Neg, Phase.Neg -> fun _ two_e -> two_e ha hb pa pb Spin.Alfa Spin.Beta
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| Phase.Neg, Phase.Pos
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| Phase.Pos, Phase.Neg -> fun _ two_e -> -. two_e ha hb pa pb Spin.Alfa Spin.Beta
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end
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| 2, 0 -> (* alpha double *)
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begin
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let h1, p1, h2, p2, phase = Ex.double_of_spindet kia kja in
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match phase with
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| Phase.Pos -> fun _ two_e -> two_e h1 h2 p1 p2 Spin.Alfa Spin.Alfa
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| Phase.Neg -> fun _ two_e -> -. two_e h1 h2 p1 p2 Spin.Alfa Spin.Alfa
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end
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| 0, 2 -> (* beta double *)
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begin
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let h1, p1, h2, p2, phase = Ex.double_of_spindet kib kjb in
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match phase with
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| Phase.Pos -> fun _ two_e -> two_e h1 h2 p1 p2 Spin.Beta Spin.Beta
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| Phase.Neg -> fun _ two_e -> -. two_e h1 h2 p1 p2 Spin.Beta Spin.Beta
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end
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| 1, 0 -> (* alpha single *)
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begin
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let h, p, phase = Ex.single_of_spindet kia kja in
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match phase with
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| Phase.Pos -> fun one_e two_e -> single h p Spin.Alfa kia kib one_e two_e
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| Phase.Neg -> fun one_e two_e -> -. single h p Spin.Alfa kia kib one_e two_e
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end
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| 0, 1 -> (* beta single *)
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begin
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let h, p, phase = Ex.single_of_spindet kib kjb in
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match phase with
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| Phase.Pos -> fun one_e two_e -> single h p Spin.Beta kib kia one_e two_e
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| Phase.Neg -> fun one_e two_e -> -. single h p Spin.Beta kib kia one_e two_e
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end
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| 0, 0 -> (* diagonal element *)
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diag_element
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| _ -> assert false
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in
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List.map (fun (one_e, two_e) -> result one_e two_e) integrals
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let make integrals ki kj =
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let degree_a, degree_b =
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De.degrees ki kj
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in
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if degree_a+degree_b > 2 then
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List.map (fun _ -> 0.) integrals
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else
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non_zero integrals degree_a degree_b ki kj
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let make_s2 ki kj =
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let degree_a = De.degree_alfa ki kj in
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let kia = De.alfa ki in
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let kja = De.alfa kj in
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if degree_a > 1 then 0.
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else
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let degree_b = De.degree_beta ki kj in
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let kib = De.beta ki in
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let kjb = De.beta kj in
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match degree_a, degree_b with
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| 1, 1 -> (* alpha-beta double *)
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let ha, pa, phase_a = Ex.single_of_spindet kia kja in
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let hb, pb, phase_b = Ex.single_of_spindet kib kjb in
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if ha = pb && hb = pa then
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begin
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match phase_a, phase_b with
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| Phase.Pos, Phase.Pos
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| Phase.Neg, Phase.Neg -> -1.
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| Phase.Neg, Phase.Pos
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| Phase.Pos, Phase.Neg -> 1.
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end
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else 0.
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| 0, 0 ->
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let ba = Sp.bitstring kia and bb = Sp.bitstring kib in
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let tmp = Bitstring.logxor ba bb in
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let n_a = Bitstring.logand ba tmp |> Bitstring.popcount in
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let n_b = Bitstring.logand bb tmp |> Bitstring.popcount in
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let s_z = 0.5 *. float_of_int (n_a - n_b) in
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float_of_int n_a +. s_z *. (s_z -. 1.)
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| _ -> 0.
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