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QCaml/CI/DeterminantSpace.ml

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(** Data structures for storing the determinant space.
If the space is built as the outer product of all {% $\alpha$ %} and {%
$\beta$ %} determinants, the storage is of type [Spin]. It is sufficient
to have the arrays of {% $\alpha$ %} and {% $\beta$ %} spindeterminants.
Otherwise, the space is of type [Arbitrary].
*)
type arbitrary_space =
{
det : int array array ;
det_alfa : Spindeterminant.t array ;
det_beta : Spindeterminant.t array ;
index_start : int array;
}
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type determinant_storage =
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| Arbitrary of arbitrary_space
| Spin of (Spindeterminant.t array * Spindeterminant.t array)
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type t =
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{
n_alfa : int ;
n_beta : int ;
mo_class : MOClass.t ;
mo_basis : MOBasis.t ;
determinants : determinant_storage;
}
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module Ss = SpindeterminantSpace
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let n_alfa t = t.n_alfa
let n_beta t = t.n_beta
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let mo_class t = t.mo_class
let mo_basis t = t.mo_basis
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let active_mos t =
mo_class t
|> MOClass.active_mos
let inactive_mos t =
mo_class t
|> MOClass.inactive_mos
let virtual_mos t =
mo_class t
|> MOClass.inactive_mos
let mo_class_array t =
mo_class t
|> MOClass.mo_class_array
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let size t =
match t.determinants with
| Spin (a,b) -> (Array.length a) * (Array.length b)
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| Arbitrary a ->
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let ndet_a = Array.length a.det_alfa in
a.index_start.(ndet_a)
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let determinant_stream t =
match t.determinants with
| Arbitrary a ->
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let det_beta = a.det_beta
and det_alfa = a.det_alfa
and det = a.det in
let n_alfa = Array.length det_alfa in
let alfa = ref det_alfa.(0)
and det_i_alfa = ref det.(0) in
let i_alfa = ref 0
and k_beta = ref 0
in
Stream.from (fun _ ->
if !i_alfa = n_alfa then None else
begin
let i_beta = (!det_i_alfa).(!k_beta) in
let beta = det_beta.(i_beta) in
let result =
Some (Determinant.of_spindeterminants (!alfa) beta)
in
incr k_beta;
if !k_beta = Array.length !det_i_alfa then
begin
k_beta := 0;
incr i_alfa;
if !i_alfa < n_alfa then
begin
alfa := det_alfa.(!i_alfa);
det_i_alfa := det.(!i_alfa)
end
end;
result
end
)
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| Spin (a,b) ->
let na = Array.length a
and nb = Array.length b in
let i = ref 0
and j = ref 0 in
Stream.from (fun k ->
if !j < nb then
let result =
Determinant.of_spindeterminants a.(!i) b.(!j)
in
incr i;
if !i = na then (i := 0 ; incr j);
Some result
else
None)
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let determinants t = t.determinants
let determinants_array t =
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let s = determinant_stream t in
Array.init (size t) (fun _ -> Stream.next s)
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let determinant t i =
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let alfa, beta =
match t.determinants with
| Arbitrary a ->
let i_alfa =
let index_start = a.index_start in
let rec loop i_alfa =
if index_start.(i_alfa) <= i then
loop (i_alfa+1)
else i_alfa
in loop 0
in
let i_beta = i - a.index_start.(i_alfa) in
let alfa = a.det_alfa.(i_alfa) in
let beta = a.det_beta.(i_beta) in
alfa, beta
| Spin (a,b) ->
let nb = Array.length b in
let k = i / nb in
let j = i - k * nb in
a.(j), b.(k)
in
Determinant.of_spindeterminants alfa beta
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let fock_diag det_space det =
let alfa_list =
Determinant.alfa det
|> Spindeterminant.to_list
in
let beta_list =
Determinant.beta det
|> Spindeterminant.to_list
in
let mo_basis = mo_basis det_space in
let mo_num = MOBasis.size mo_basis in
let one_e_ints = MOBasis.one_e_ints mo_basis
and two_e_ints = MOBasis.two_e_ints mo_basis
in
let two_e i j k l = ERI.get_phys two_e_ints i j k l in
let build_array list1 list2 =
let result = Array.make (mo_num+1) 0. in
(* Occupied *)
List.iter (fun i ->
let x = one_e_ints.{i,i} in
result.(i) <- result.(i) +. x;
result.(0) <- result.(0) +. x;
List.iter (fun j ->
if j <> i then
begin
let x = two_e i j i j -. two_e i j j i in
result.(i) <- result.(i) +. x;
result.(0) <- result.(0) +. 0.5 *. x;
end
) list1;
List.iter (fun j ->
begin
let x = two_e i j i j in
result.(i) <- result.(i) +. x;
result.(0) <- result.(0) +. 0.5 *. x;
end
) list2;
) list1;
(* Virtuals*)
List.iter (fun i ->
if result.(i) = 0. then
begin
let x = one_e_ints.{i,i} in
result.(i) <- result.(i) +. x;
List.iter (fun j ->
let x = two_e i j i j -. two_e i j j i in
result.(i) <- result.(i) +. x;
) list1;
List.iter (fun j ->
begin
let x = two_e i j i j in
result.(i) <- result.(i) +. x;
end
) list2;
end
) (Util.list_range 1 mo_num);
result
in
let alfa, beta =
build_array alfa_list beta_list,
build_array beta_list alfa_list
in
let e = alfa.(0) +. beta.(0) in
alfa.(0) <- e;
beta.(0) <- e;
alfa, beta
let spin_of_mo_basis mo_basis f =
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let s = MOBasis.simulation mo_basis in
let e = Simulation.electrons s in
let n_alfa = Electrons.n_alfa e
and n_beta = Electrons.n_beta e in
let det_a = f n_alfa
and det_b = f n_beta
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in
let mo_class = Ss.mo_class det_a in
let determinants =
let det_alfa = Ss.spin_determinants det_a
and det_beta = Ss.spin_determinants det_b
in
let n_det_beta = Array.length det_beta in
let n_det_alfa = Array.length det_alfa in
let ndet = n_det_alfa * n_det_beta in
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if Parallel.master then
Format.printf "Number of determinants : %d %d %d\n%!"
n_det_alfa n_det_beta ndet;
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Spin (det_alfa, det_beta)
in
{ n_alfa ; n_beta ; mo_class ; mo_basis ; determinants }
let arbitrary_of_mo_basis mo_basis f =
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let s = MOBasis.simulation mo_basis in
let e = Simulation.electrons s in
let n_alfa = Electrons.n_alfa e
and n_beta = Electrons.n_beta e in
let det_a = f n_alfa
and det_b = f n_beta
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in
let mo_class = Ss.mo_class det_a in
let determinants =
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let det_alfa = Ss.spin_determinants det_a
and det_beta = Ss.spin_determinants det_b
in
let n_det_beta = Array.length det_beta in
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let n_det_alfa = Array.length det_alfa in
let det = Array.make n_det_alfa
(Array.init n_det_beta (fun i -> i))
in
let index_start = Array.init (n_det_alfa+1) (fun i -> i*n_det_beta) in
let ndet = (index_start.(n_det_alfa)) in
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if Parallel.master then
Format.printf "Number of determinants : %d %d %d\n%!"
n_det_alfa n_det_beta ndet;
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Arbitrary {
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det_alfa ; det_beta ; det ; index_start
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}
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in
{ n_alfa ; n_beta ; mo_class ; mo_basis ; determinants }
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let cas_of_mo_basis mo_basis ~frozen_core n m =
let f n_alfa =
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Ss.cas_of_mo_basis mo_basis ~frozen_core n_alfa n m
in
spin_of_mo_basis mo_basis f
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let fci_of_mo_basis mo_basis ~frozen_core =
let f n_alfa =
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Ss.fci_of_mo_basis mo_basis ~frozen_core n_alfa
in
spin_of_mo_basis mo_basis f
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let fci_f12_of_mo_basis mo_basis ~frozen_core mo_num =
let s = MOBasis.simulation mo_basis in
let e = Simulation.electrons s in
let n_alfa = Electrons.n_alfa e
and n_beta = Electrons.n_beta e in
let n_core =
if frozen_core then
(Nuclei.small_core @@ Simulation.nuclei @@ MOBasis.simulation mo_basis) / 2
else 0
in
let n, m =
(n_alfa + n_beta - n_core),
(mo_num - n_core)
in
let f n_alfa =
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Ss.cas_of_mo_basis mo_basis ~frozen_core n_alfa n m
in
let r =
spin_of_mo_basis mo_basis f
in
{ r with mo_class =
MOClass.to_list r.mo_class
|> List.map (fun i ->
match i with
| MOClass.Virtual i when i > mo_num -> MOClass.Auxiliary i
| i -> i)
|> MOClass.of_list }
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let cas_f12_of_mo_basis mo_basis ~frozen_core n m mo_num =
let f n_alfa =
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Ss.cas_of_mo_basis mo_basis ~frozen_core n_alfa n m
in
let r =
spin_of_mo_basis mo_basis f
in
{ r with mo_class =
MOClass.to_list r.mo_class
|> List.map (fun i ->
match i with
| MOClass.Virtual i when i > mo_num -> MOClass.Auxiliary i
| i -> i)
|> MOClass.of_list
}
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let pp_det_space ppf t =
Format.fprintf ppf "@[<v 2>[ ";
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let i = ref 0 in
determinant_stream t
|> Stream.iter (fun d -> Format.fprintf ppf "@[<v>@[%8d@]@;@[%a@]@]@;" !i
(Determinant.pp_det (MOBasis.size (mo_basis t))) d; incr i) ;
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Format.fprintf ppf "]@]"