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QCaml/CI/Spindeterminant.ml

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type s =
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{
bitstring : Z.t ;
phase : Phase.t ;
}
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type t = s option
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type hole = int
type particle = int
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let phase = function
| Some s -> s.phase
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| None -> Phase.Pos
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let is_none = function
| None -> true
| _ -> false
let bitstring = function
| Some s -> s.bitstring
| None -> invalid_arg "Spindeterminant is None"
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let vac =
Some { bitstring = Z.zero;
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phase = Phase.Pos; }
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let creation p = function
| None -> None
| Some spindet ->
let i = pred p in
if Z.testbit spindet.bitstring i then
None
else
begin
let x = Z.(shift_left one i) in
let bitstring = Z.logor spindet.bitstring x in
let mask = Z.(x-one) in
let r = Z.logand bitstring mask in
let phase = Phase.add_nperm spindet.phase (Z.popcount r) in
Some { bitstring ; phase }
end
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let annihilation h = function
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| None -> None
| Some spindet ->
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let i = pred h in
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if not (Z.testbit spindet.bitstring i) then
None
else
begin
let x = Z.(shift_left one i) in
let mask = Z.(x-one) in
let r = Z.logand spindet.bitstring mask in
let phase = Phase.add_nperm spindet.phase (Z.popcount r) in
let bitstring = Z.logand spindet.bitstring (Z.lognot x) in
Some { bitstring ; phase }
end
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let single_excitation_reference h p spindet =
creation p @@ annihilation h @@ spindet
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let single_excitation h p =
single_excitation_reference h p
let double_excitation_reference h' p' h p spindet =
creation p' @@ creation p @@ annihilation h @@ annihilation h' @@ spindet
let double_excitation h' p' h p =
double_excitation_reference h' p' h p
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let rec bits_to_list accu = function
| t when (t = Z.zero) -> List.rev accu
| t -> let newlist =
(Z.trailing_zeros t + 1)::accu
in
bits_to_list newlist Z.(logand t (t-one))
let degree t t' =
Z.hamdist (bitstring t) (bitstring t') / 2
let holes_of t t' =
Z.logand (bitstring t) (Z.logxor (bitstring t) (bitstring t'))
|> bits_to_list []
let particles_of t t' =
Z.logand (bitstring t') (Z.logxor (bitstring t) (bitstring t'))
|> bits_to_list []
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let negate_phase = function
| Some t -> Some { t with phase = Phase.neg t.phase }
| None -> None
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let of_bitstring ?(phase=Phase.Pos) bitstring =
Some { bitstring ; phase }
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let of_list l =
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List.rev l
|> List.fold_left (fun accu p -> creation p accu) vac
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let rec to_list = function
| None -> []
| Some spindet ->
let rec aux accu z =
if z <> Z.zero then
let element = (Z.(trailing_zeros z)+1) in
aux (element::accu) Z.(z land (pred z))
else List.rev accu
in aux [] spindet.bitstring
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let pp_spindet ppf = function
| None -> Format.fprintf ppf "@[<h>None@]"
| Some s ->
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Format.fprintf ppf "@[<h>%a %a@]" Phase.pp_phase s.phase Util.pp_bitstring s.bitstring
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(*-----------------------------------------------------------------------------------*)
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let test_case () =
let test_creation () =
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let l_a = [ 1 ; 2 ; 3 ; 5 ] in
let det = of_list l_a in
Alcotest.(check (list int )) "bitstring 1" l_a (to_list det);
Alcotest.(check bool) "phase 2" true (phase det = Phase.Pos);
let l_b = [ 1 ; 3 ; 2 ; 5 ] in
let det = of_list l_b in
Alcotest.(check (list int )) "bitstring 2" l_a (to_list det);
Alcotest.(check bool) "phase 2" true (phase det = Phase.Neg);
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in
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let test_a_operators () =
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let det =
creation 5 @@ creation 2 @@ creation 2 @@ creation 1 @@ vac
in
Alcotest.(check bool) "none 1" true (is_none det);
let det =
creation 5 @@ creation 3 @@ creation 2 @@ creation 1 @@ vac
in
let l_a = [ 1 ; 2 ; 3 ; 5 ] in
Alcotest.(check (list int )) "bitstring 1" l_a (to_list det);
Alcotest.(check bool) "phase 1" true (phase det = Phase.Pos);
let det =
creation 1 @@ creation 3 @@ creation 2 @@ creation 5 @@ vac
in
Alcotest.(check (list int )) "bitstring 2" l_a (to_list det);
Alcotest.(check bool) "phase 2" true (phase det = Phase.Neg);
let l_b = [ 1 ; 3 ; 2 ; 5 ] in
let det = of_list l_b in
Alcotest.(check (list int )) "bitstring 3" l_a (to_list det);
Alcotest.(check bool) "phase 3" true (phase det = Phase.Neg);
Alcotest.(check bool) "none 1" true (annihilation 4 det |> is_none);
let det =
annihilation 1 det
in
Alcotest.(check (list int )) "bitstring 4" (List.tl l_a) (to_list det);
Alcotest.(check bool) "phase 4" true (phase det = Phase.Neg);
let det =
annihilation 3 det
in
Alcotest.(check (list int )) "bitstring 5" [ 2 ; 5 ] (to_list det);
Alcotest.(check bool) "phase 5" true (phase det = Phase.Pos);
let det =
annihilation 5 @@ annihilation 2 det
in
Alcotest.(check (list int )) "bitstring 6" [] (to_list det);
Alcotest.(check bool) "phase 6" true (phase det = Phase.Pos);
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in
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let test_exc_operators () =
let l_a = [ 1 ; 2 ; 3 ; 5 ] in
let det = of_list l_a in
let l_b = [ 1 ; 7 ; 3 ; 5 ] in
let det2 = of_list l_b in
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Alcotest.(check bool) "single 1" true (single_excitation_reference 2 7 det = det2);
Alcotest.(check bool) "single 2" true (single_excitation 2 7 det = single_excitation_reference 2 7 det);
Alcotest.(check bool) "single 3" true (single_excitation_reference 4 7 det |> is_none);
Alcotest.(check bool) "single 4" true (single_excitation 4 7 det |> is_none);
let l_c = [ 1 ; 7 ; 6 ; 5 ] in
let det3 = of_list l_c in
Alcotest.(check bool) "double 1" true (double_excitation_reference 2 7 3 6 det = det3);
Alcotest.(check bool) "double 2" true (double_excitation 2 7 3 6 det = double_excitation_reference 2 7 3 6 det);
Alcotest.(check bool) "double 3" true (double_excitation_reference 4 7 3 6 det |> is_none);
Alcotest.(check bool) "double 4" true (double_excitation 4 7 3 6 det |> is_none);
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in
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let test_exc_spindet () =
let l_a = [ 1 ; 2 ; 3 ; 5 ] in
let det = of_list l_a in
let l_b = [ 1 ; 7 ; 3 ; 5 ] in
let det2 = of_list l_b in
Alcotest.(check int) "single" 1 (degree det det2);
Alcotest.(check (list int)) "holes" [2] (holes_of det det2);
Alcotest.(check (list int)) "particles" [7] (particles_of det det2);
let l_b = [ 1 ; 7 ; 3 ; 6 ] in
let det2 = of_list l_b in
Alcotest.(check int) "double" 2 (degree det det2);
Alcotest.(check (list int)) "holes" [2 ; 5] (holes_of det det2);
Alcotest.(check (list int)) "particles" [6 ; 7] (particles_of det det2);
in
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[
"Creation", `Quick, test_creation;
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"Creation/Annihilation Operators", `Quick, test_a_operators;
"Excitation Operators", `Quick, test_exc_operators;
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"Excitation of spindet", `Quick, test_exc_spindet;
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]
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