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291 lines
9.2 KiB
OCaml
291 lines
9.2 KiB
OCaml
open Util
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open Constants
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module Am = AngularMomentum
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module Asp = AtomicShellPair
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module Aspc = AtomicShellPairCouple
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module Co = Coordinate
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module Cs = ContractedShell
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module Csp = ContractedShellPair
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module Cspc = ContractedShellPairCouple
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module Po = Powers
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module Psp = PrimitiveShellPair
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module Pspc = PrimitiveShellPairCouple
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module Ps = PrimitiveShell
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module Zp = Zero_m_parameters
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let cutoff = Constants.integrals_cutoff
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let cutoff2 = cutoff *. cutoff
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exception NullQuartet
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type four_idx_intermediates =
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{
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zero : float array array;
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gp : float array;
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gg : float array;
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gq : float array;
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coef_g : float array ;
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center_ra : Co.t array ;
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center_rc : Co.t array ;
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center_ab : Co.t ;
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center_cd : Co.t ;
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}
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(** Horizontal and Vertical Recurrence Relations (HVRR) *)
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let rec hvrr angMom_a angMom_b angMom_c angMom_d
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abcd map_x map_y map_z =
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let gp = abcd.gp in
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let gg = abcd.gg in
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let gq = abcd.gq in
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let coef_g = abcd.coef_g in
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let run xyz map =
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let zero =
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match xyz with
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| Co.X -> abcd.zero.(0)
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| Co.Y -> abcd.zero.(1)
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| Co.Z -> abcd.zero.(2)
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in
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let angMom_a = Po.get xyz angMom_a in
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let angMom_b = Po.get xyz angMom_b in
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let angMom_c = Po.get xyz angMom_c in
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let angMom_d = Po.get xyz angMom_d in
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let center_ab = Co.get xyz abcd.center_ab in
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let center_cd = Co.get xyz abcd.center_cd in
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let center_ra = Array.map (fun x -> Co.get xyz x) abcd.center_ra in
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let center_rc = Array.map (fun x -> Co.get xyz x) abcd.center_rc in
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let rec vrr angMom_a angMom_c =
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match angMom_a, angMom_c with
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| 0, -1
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| -1, 0 -> assert false
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| 0, 0 -> zero
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| 1, 0 ->
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let v1 = zero in
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Array.mapi (fun i v1i -> center_ra.(i) *. v1i ) v1
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| 0, 1 ->
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let v1 = zero in
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Array.mapi (fun i v1i -> center_rc.(i) *. v1i ) v1
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| 1, 1 ->
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let v1 = vrr 1 0 in
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let v2 = zero in
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Array.mapi (fun i v1i -> center_rc.(i) *. v1i +.
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gg.(i) *. v2.(i) ) v1
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| 2, 0 ->
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let v1 = vrr 1 0 in
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let v2 = zero in
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Array.mapi (fun i v1i -> center_ra.(i) *. v1i +. gp.(i) *. v2.(i)) v1
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| _, 0 ->
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let v1 =
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vrr (angMom_a-1) 0
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in
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let a = float_of_int (angMom_a-1) in
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let v2 =
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vrr (angMom_a-2) 0
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in
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Array.mapi (fun i v1i -> center_ra.(i) *. v1i +. a *. gp.(i) *. v2.(i)) v1
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| _, 1 ->
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let v1 =
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vrr angMom_a 0
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in
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let a = float_of_int angMom_a in
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let v2 =
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vrr (angMom_a-1) 0
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in
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Array.mapi (fun i v1i -> center_rc.(i) *. v1i +.
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a *. gg.(i) *. v2.(i) ) v1
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| 0, _ ->
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let v1 =
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vrr 0 (angMom_c-1)
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in
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let b = float_of_int (angMom_c-1) in
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let v3 =
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vrr 0 (angMom_c-2)
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in
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Array.mapi (fun i v1i -> center_rc.(i) *. v1i +.
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b *. gq.(i) *. v3.(i)) v1
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| _ ->
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let v1 =
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vrr angMom_a (angMom_c-1)
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in
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let a = float_of_int angMom_a in
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let b = float_of_int (angMom_c-1) in
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let v2 =
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vrr (angMom_a-1) (angMom_c-1)
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in
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let v3 =
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vrr angMom_a (angMom_c-2)
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in
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Array.mapi (fun i v1i -> center_rc.(i) *. v1i +.
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a *. gg.(i) *. v2.(i) +. b *. gq.(i) *. v3.(i)) v1
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in
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let rec hrr angMom_a angMom_b angMom_c angMom_d =
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let key = Zkey.of_int_four angMom_a angMom_b angMom_c angMom_d in
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try Zmap.find map key with
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| Not_found ->
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let result =
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match angMom_b, angMom_d with
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| -1, 0
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| 0, -1 -> assert false
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| 0, 0 ->
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vrr angMom_a angMom_c
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| _, 0 ->
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let h1 =
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hrr (angMom_a+1) (angMom_b-1) angMom_c angMom_d
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in
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if center_ab = 0. then
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h1
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else
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let h2 =
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hrr angMom_a (angMom_b-1) angMom_c angMom_d
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in
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Array.mapi (fun i h1i -> h1i +. center_ab *. h2.(i)) h1
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| _ ->
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let h1 =
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hrr angMom_a angMom_b (angMom_c+1) (angMom_d-1)
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in
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if center_cd = 0. then
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h1
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else
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let h2 =
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hrr angMom_a angMom_b angMom_c (angMom_d-1)
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in
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Array.mapi (fun i h1i -> h1i +. center_cd *. h2.(i)) h1
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in (Zmap.add map key result; result)
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in
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hrr angMom_a angMom_b angMom_c angMom_d
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in
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let x, y, z =
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(run Co.X map_x), (run Co.Y map_y), (run Co.Z map_z)
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in
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let rec aux accu = function
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| 0 -> accu +. coef_g.(0) *. x.(0) *. y.(0) *. z.(0)
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| i -> aux (accu +. coef_g.(i) *. x.(i) *. y.(i) *. z.(i)) (i-1)
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in
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aux 0. (Array.length x - 1)
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let contracted_class_shell_pair_couple expo_g_inv coef_g shell_pair_couple : float Zmap.t =
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(* Pre-computation of integral class indices *)
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let class_indices = Cspc.zkey_array shell_pair_couple in
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let contracted_class =
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Array.make (Array.length class_indices) 0.;
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in
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(* Compute all integrals in the shell for each pair of significant shell pairs *)
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let shell_p = Cspc.shell_pair_p shell_pair_couple
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and shell_q = Cspc.shell_pair_q shell_pair_couple
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in
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let center_ab = Csp.a_minus_b shell_p
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and center_cd = Csp.a_minus_b shell_q
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in
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let norm_scales = Cspc.norm_scales shell_pair_couple in
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List.iter (fun (coef_prod, spc) ->
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let sp_ab = Pspc.shell_pair_p spc
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and sp_cd = Pspc.shell_pair_q spc
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in
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let expo_p_inv = Psp.exponent_inv sp_ab in
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let expo_q_inv = Psp.exponent_inv sp_cd in
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let expo_pgq = Array.map (fun e ->
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1. /. (expo_p_inv +. expo_q_inv +. e)
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) expo_g_inv
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in
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let fp = Array.map (fun e -> expo_p_inv *. e) expo_pgq in
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let fq = Array.map (fun e -> expo_q_inv *. e) expo_pgq in
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let gp =
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let x = 0.5 *. expo_p_inv in
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Array.map (fun f -> (1. -. f) *. x) fp
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in
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let gq =
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let x = 0.5 *. expo_q_inv in
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Array.map (fun f -> (1. -. f) *. x) fq
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in
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let gg =
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let x = 0.5 *. expo_q_inv in
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Array.map (fun f -> f *. x) fp
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in
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let center_pq = Co.(Psp.center sp_ab |- Psp.center sp_cd) in
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let center_qc = Psp.center_minus_a sp_cd in
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let center_pa = Psp.center_minus_a sp_ab in
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let center_ra = Array.map (fun f -> Co.(center_pa |- (f |. center_pq))) fp in
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let center_rc = Array.map (fun f -> Co.(center_qc |+ (f |. center_pq))) fq in
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(* zero_m is defined here *)
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let zero = Array.map (fun xyz ->
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let x = Co.get xyz center_pq in
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Array.mapi (fun i ei ->
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let fg = expo_g_inv.(i) *. ei in
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(sqrt fg) *. exp (-. x *. x *. ei )) expo_pgq
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) Co.[| X ; Y ; Z |]
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in
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begin
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match Cspc.ang_mom shell_pair_couple with
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(*
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| Am.S ->
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let integral =
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zero.(0) *. zero.(1) *. zero.(2)
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in
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contracted_class.(0) <- contracted_class.(0) +. coef_prod *. integral
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*)
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| _ ->
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let map_x, map_y, map_z =
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Zmap.create (Array.length class_indices),
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Zmap.create (Array.length class_indices),
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Zmap.create (Array.length class_indices)
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in
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(* Compute the integral class from the primitive shell quartet *)
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class_indices
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|> Array.iteri (fun i key ->
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let (angMom_a,angMom_b,angMom_c,angMom_d) =
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match Zkey.to_powers key with
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| Zkey.Twelve x -> x
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| _ -> assert false
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in
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let norm = norm_scales.(i) in
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let coef_prod = coef_prod *. norm in
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let abcd = {
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zero ; gp ; gg ; gq ;
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center_ab ; center_cd ;
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center_ra ; center_rc ;
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coef_g ;
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} in
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let integral =
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hvrr
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angMom_a angMom_b angMom_c angMom_d
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abcd map_x map_y map_z
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in
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contracted_class.(i) <- contracted_class.(i) +. coef_prod *. integral
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)
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end
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) (Cspc.coefs_and_shell_pair_couples shell_pair_couple);
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let result =
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Zmap.create (Array.length contracted_class)
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in
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Array.iteri (fun i key -> Zmap.add result key contracted_class.(i)) class_indices;
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result
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