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Simplified Localization
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@ -67,7 +67,7 @@
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(* 5. Fonction d'affichage *)
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let methode = "Boys_er";; (* Method for th orbitals localization *)
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let iteration = 10000;; (* Maximum number of iteration for each localization *)
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let iteration = 1000000;; (* Maximum number of iteration for each localization *)
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let cc = 10e-6;; (* Convergence criterion *)
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let pre_angle = 0.001;; (* Rotation of the matrix with a small angle to improve the convergence *)
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let epsilon = 1.;; (* Rotation angle = angle /. epsilon, default value : epsilon = 1. *)
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@ -79,18 +79,15 @@ let x_end = 1;; (* Choice of the x_end for the pi/sigma/end separation, size of
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(* Choice of the separation type of orbitals *)
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(* For valence ones *)
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let type_separation_occu = "pi/sigma";; (* Separation of the pi and sigma orbitals *)
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(*let type_separation_occu = "1/2";;*) (* Separation of the first and second half of the orbitals *)
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(*let type_separation_occu = "pi/sigma/end";;*) (* Separation pi,(n-x_end) sigma and x_end sigma *)
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(*let type_separation_occu = "pi/1/2";;*) (* Separation pi, (n/2) first sigma and (n/2) last sigma *)
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(*let type_separation_occu = "full";;*) (* Without separation *)
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type type_separation =
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| Sigma_pi
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| Occ_vir
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| Custom of int list list
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(* For occupied ones *)
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let type_separation_vir = "pi/sigma";; (* Separation of the pi and sigma orbitals *)
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(*let type_separation_vir = "1/2";;*) (* Separation of the first and second half of the orbitals *)
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(*let type_separation_vir = "pi/sigma/end";;*) (* Separation pi,(n-x_end) sigma and x_end sigma *)
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(*let type_separation_vir = "pi/1/2";;*) (* Separation pi, (n/2) first sigma and (n/2) last sigma *)
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(*let type_separation_vir = "full";;*) (* Without separation *)
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let string_of_separation = function
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| Sigma_pi -> "Sigma/pi"
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| Occ_vir -> "Occ/Vir"
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| Custom _ -> "Custom"
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open Lacaml.D
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@ -107,10 +104,10 @@ type alphad = {
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d : float;
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}
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let localize mo_basis =
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let localize mo_basis separation =
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let simulation = MOBasis.simulation mo_basis in
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let nocc =
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let n_occ =
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let elec = Simulation.electrons simulation
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in
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Electrons.n_alfa elec
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@ -275,52 +272,54 @@ let localize mo_basis =
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let multipoles = AOBasis.multipole ao_basis in
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let n_mo = Mat.dim2 m_C
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in
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let phi_x_phi =
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let x =
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Multipole.matrix_x multipoles
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|> MOBasis.mo_matrix_of_ao_matrix ~mo_coef:m_C
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in
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let phi_y_phi =
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let y =
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Multipole.matrix_y multipoles
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|> MOBasis.mo_matrix_of_ao_matrix ~mo_coef:m_C
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in
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let phi_z_phi =
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let z =
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Multipole.matrix_z multipoles
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|> MOBasis.mo_matrix_of_ao_matrix ~mo_coef:m_C
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in
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let phi_x2_phi =
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Multipole.matrix_x2 multipoles
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|> MOBasis.mo_matrix_of_ao_matrix ~mo_coef:m_C
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in
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let phi_y2_phi =
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Multipole.matrix_y2 multipoles
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|> MOBasis.mo_matrix_of_ao_matrix ~mo_coef:m_C
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in
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let phi_z2_phi =
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Multipole.matrix_z2 multipoles
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let r2 =
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Multipole.matrix_r2 multipoles
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|> MOBasis.mo_matrix_of_ao_matrix ~mo_coef:m_C
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in
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let m_b_0 =
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let b_0 g h = Mat.init_cols n_mo n_mo (fun i j ->
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h.{i,i} +. h.{j,j} -. (g.{i,i}**2. +. g.{j,j}**2.))
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in
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Mat.add (b_0 phi_x_phi phi_x2_phi) (Mat.add (b_0 phi_y_phi phi_y2_phi) (b_0 phi_z_phi phi_z2_phi))
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Mat.init_cols n_mo n_mo (fun i j ->
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r2.{i,i} +. r2.{j,j} -.
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(x.{i,i} *. x.{i,i} +. x.{j,j} *. x.{j,j} +.
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y.{i,i} *. y.{i,i} +. y.{j,j} *. y.{j,j} +.
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z.{i,i} *. z.{i,i} +. z.{j,j} *. z.{j,j} )
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)
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in
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let m_beta =
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let beta g = Mat.init_cols n_mo n_mo (fun i j ->
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(g.{i,i} -. g.{j,j})**2. -. 4. *. g.{i,j}**2.)
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Mat.init_cols n_mo n_mo (fun i j ->
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let x' = (x.{i,i} -. x.{j,j})
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and y' = (y.{i,i} -. y.{j,j})
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and z' = (z.{i,i} -. z.{j,j})
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in
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Mat.add (beta phi_x_phi) (Mat.add (beta phi_y_phi) (beta phi_z_phi))
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x'*.x' +. y'*.y' +. z'*.z' -.
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4. *. ( x.{i,j} *. x.{i,j} +.
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y.{i,j} *. y.{i,j} +.
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z.{i,j} *. z.{i,j} )
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)
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in
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let m_gamma =
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let gamma g = Mat.init_cols n_mo n_mo (fun i j ->
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4. *. g.{i,j} *. (g.{i,i} -. g.{j,j}) )
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in
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Mat.add (gamma phi_x_phi) (Mat.add (gamma phi_y_phi) (gamma phi_z_phi))
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Mat.init_cols n_mo n_mo (fun i j ->
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4. *. ( x.{i,j} *. (x.{i,i} -. x.{j,j}) +.
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y.{i,j} *. (y.{i,i} -. y.{j,j}) +.
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z.{i,j} *. (z.{i,i} -. z.{j,j}) )
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)
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in
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let m_theta = Mat.init_cols n_mo n_mo (fun i j ->
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if i = j
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then 0.
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else +. 0.25 *. atan2 m_gamma.{i,j} m_beta.{i,j})
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if i <> j then
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0.25 *. atan2 m_gamma.{i,j} m_beta.{i,j}
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else 0.
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)
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in
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let m_critere_B = Mat.init_cols n_mo n_mo (fun i j ->
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0.5 *. (m_b_0.{i,j} +. 0.25 *. ((1. -. cos(4. *. m_theta.{i,j})) *. m_beta.{i,j} +. sin(4. *. m_theta.{i,j}) *. m_gamma.{i,j})))
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@ -466,7 +465,7 @@ let localize mo_basis =
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else +. 0.25 *. atan2 m_gamma.{i,j} m_beta.{i,j})
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in
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let m_critere_B = Vec.init n_mo (fun i ->
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r2.{i,i} -. x.{i,i}**2. -. y.{i,i}**2. -. z.{i,i}**2.)
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r2.{i,i} -. x.{i,i}*.x.{i,i} -. y.{i,i}*.y.{i,i} -. z.{i,i}*.z.{i,i})
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in m_theta, Vec.sum( m_critere_B)
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in
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@ -512,11 +511,7 @@ let localize mo_basis =
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(* 6. Norm of a matrix *)
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(* Matrix -> float *)
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let norm m =
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let vec_m = Mat.as_vec m in
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let vec2 = Vec.sqr vec_m
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in
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sqrt(Vec.sum vec2)
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sqrt (Mat.syrk_trace m)
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in
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(* 7. Calculation of the max angle[-pi/.4 , pi/.4] and its indexes i and j in the matrix *)
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@ -577,13 +572,9 @@ let localize mo_basis =
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(* angle -> 2x2 rotation matrix *)
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(* float -> matrix *)
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let f_R alpha =
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Mat.init_cols 2 2 (fun i j ->
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if i=j
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then cos alpha
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else if i>j
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then sin alpha
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else -. sin alpha )
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[| [| cos alpha ; -. sin alpha |] ;
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[| sin alpha ; cos alpha |] |]
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|> Mat.of_array
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in
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(* 9. Rotation matrix nxn *)
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@ -902,28 +893,6 @@ let localize mo_basis =
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in
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(* Function to create a matrix from a list*)
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(* Coefficient matrix n_ao x n_mo, list of orbitals -> matrix with these orbitals *)
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(* matrix, integer list -> matrix*)
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let create_mat mat lst =
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let vec_of_mat = Mat.to_col_vecs mat in
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let f a = vec_of_mat.(a-1) in
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let vec_list = List.map f lst
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in
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Mat.of_col_vecs_list vec_list
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in
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(* List of the occupied MOs *)
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let list_occ =
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Util.list_range 1 nocc
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in
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(* List of the core MOs *)
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let list_core =
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Util.list_range 1 n_core
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in
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(* Function to create a list of pi MOs *)
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(* Coefficient matrix n_ao x n_mo -> list of pi orbitals *)
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(* matrix -> integer list *)
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@ -933,17 +902,17 @@ let localize mo_basis =
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if j=1 && abs_float m_C.{i,j} < 1.e-8
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then 0.
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else if j=1
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then m_C.{i,j}
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then abs_float m_C.{i,j}
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else if abs_float mat.{i,j-1} < 1.e-8
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then 0.
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else mat.{i,j-1})
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else abs_float mat.{i,j-1})
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in
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let vec = Mat.to_col_vecs m_pi in
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(* TODO gemv *)
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let vec_dot = Vec.init (Mat.dim2 mat) (fun i -> dot vec.(0) vec.(i)) in
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let list_pi =
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Util.list_range 1 (Mat.dim2 mat)
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|> List.map (fun i -> if vec_dot.{i} = 0. then i else 0)
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|> List.map (fun i -> if abs_float vec_dot.{i} = 0. then i else 0)
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in
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let rec remove x = function
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| [] -> []
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@ -954,22 +923,6 @@ let localize mo_basis =
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remove 0 list_pi
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in
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(* Function to create a list of the (n-x_end) first MOs of a matrix *)
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(* Coefficient matrix n_ao x n_mo -> list of the (n-x_end) first MOs of the matrix *)
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(* matrix -> integer list *)
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let list_x_end mat =
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let n = Mat.dim2 mat in
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Util.list_range 1 (n-x_end)
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in
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(* Function to create a list of the (n/2) first MOs of a matrix *)
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(* Coefficient matrix n_ao x n_mo -> list of the (n/2) first MOs of the matrix *)
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(* matrix -> integer list *)
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let list_s_12 mat =
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let n = Mat.dim2 mat in
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Util.list_range 1 (n/2)
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in
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(* Function to assemble to matrix with the same number of line *)
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(* Coefficient matrix n_ao x n, coefficient matrix n_ao x m -> Coefficient matrix n_ao x (n+m) *)
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(* matrix, matrix -> matrix*)
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@ -985,23 +938,22 @@ let localize mo_basis =
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(* V. Calculation *)
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(* 1. Caption *)
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let text = "Method : " ^ methode ^ "; Separation type of the valence occupied MOs : " ^ type_separation_occu ^ "; Separation type of the virtual MOs : " ^ type_separation_vir ^ "; Max number of iteration : " ^ string_of_int(iteration) ^ "; cc : " ^ string_of_float(cc)^"; epsilon : "^string_of_float(epsilon)^"; charge : "^string_of_int(charge)^"; Rotation pre angle : "^string_of_float(pre_angle)
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let text = "Method : " ^ methode ^ "\nSeparation type : "
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^ (string_of_separation separation)
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^ "\nMax number of iterations : " ^ string_of_int(iteration) ^ "\ncc : "
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^ string_of_float(cc)^"\nepsilon : "^string_of_float(epsilon)^"\ncharge : "
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^ string_of_int(charge)^"\nRotation pre angle : "^string_of_float(pre_angle)
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in
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let caption = "n Criterion max_angle norm_angle average_angle"
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let caption = "Criterion max_angle norm_angle average_angle"
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in
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" "Orbitals localization ";
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Printf.printf "%s\n" "Orbital localization";
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" text;
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" caption;
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Printf.printf "%s\n" "";
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(* Separation of the occupied and virtual MOs, valence and core MOs *)
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let m_occ , m_vir = split_mat m_C list_occ in
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let m_core, m_occu = split_mat m_occ list_core in
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(* Localization function *)
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(* Coefficient matrix n_ao x n_mo -> localized coefficient matrix n_ao x n_mo *)
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(* matrix -> matrix *)
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@ -1020,215 +972,68 @@ let localize mo_basis =
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else localise localisation new_mat methode epsilon iteration cc
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in
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(* Core MOs localization *)
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let loc_m_core =
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Printf.printf "%s\n" "I/III";
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Printf.printf "%s\n" "Localization of core orbitals";
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Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 m_core);
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Printf.printf "%s\n" "";
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f_localise m_core in
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" "End I/III";
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Printf.printf "%s\n" "";
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(* Localization function without separation *)
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let f_loc_assemble_1 mat =
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" "Localization 1/1";
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Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat);
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f_localise mat in
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Printf.printf "%s\n" "";
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(* Localization function with 1 MOs separation *)
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let f_loc_assemble_12 mat list_12 =
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if List.length(list_12 mat) + List.length(miss_elem mat (list_12 mat)) <> (Mat.dim2 mat)
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then Printf.printf "%s\n" "Bug : List length problem (list_12 or miss_elem list_12)";
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let mat_1, mat_2 = split_mat mat (list_12 mat) in
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" "Localization 1/2";
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Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_1);
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let m_loc_1 = f_localise mat_1 in
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Printf.printf "%s\n" "";
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Printf.printf "%s\n" "Localization 2/2";
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Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_2);
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let m_loc_2 = f_localise mat_2 in
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Printf.printf "%s\n" "";
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assemble m_loc_1 m_loc_2
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(* Localization function with n separations expressed as a list of lists of
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orbital indices *)
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let f_loc_list mat list_of_lists =
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let vec_list = Mat.to_col_vecs mat in
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list_of_lists
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|> List.map (fun lst ->
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lst
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|> List.map (fun col -> vec_list.(col-1))
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|> Mat.of_col_vecs_list
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|> f_localise
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|> Mat.to_col_vecs_list
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)
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|> List.concat
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|> Mat.of_col_vecs_list
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in
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(* Localization function with 2 MOs separations *)
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let f_loc_assemble_123 mat list_12 list_2ab =
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let n_mo = Mat.dim2 m_C in
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let list_full = Util.list_range 1 n_mo in
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let list_core = Util.list_range 1 n_core in
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let list_pi = list_pi m_C in
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let list_sigma = List.filter (fun i -> not (List.mem i list_pi)) list_full in
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let list_pi_occ = List.filter (fun i -> i > n_core && i <= n_occ) list_pi in
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let list_sigma_occ = List.filter (fun i -> i > n_core && i <= n_occ) list_sigma in
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let list_pi_vir = List.filter (fun i -> i > n_occ) list_pi in
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let list_sigma_vir = List.filter (fun i -> i > n_occ) list_sigma in
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let list_occ = Util.list_range (n_core+1) n_occ in
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let list_vir = Util.list_range (n_occ+1) n_mo in
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if List.length(list_12 mat) + List.length(miss_elem mat (list_12 mat)) <> (Mat.dim2 mat)
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then Printf.printf "%s\n" "Bug : List length problem (list_12 or miss_elem list_12)";
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Printf.printf "Orbital lists:";
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Printf.printf "\nCore: [";
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List.iter (fun i -> Printf.printf "%d," i) list_core;
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Printf.printf "\b]\nOccupied: [";
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List.iter (fun i -> Printf.printf "%d," i) list_occ;
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Printf.printf "\b]\nVirtual: [";
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List.iter (fun i -> Printf.printf "%d," i) list_vir;
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Printf.printf "\b]\nSigma occ: [";
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List.iter (fun i -> Printf.printf "%d," i) list_sigma_occ;
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Printf.printf "\b]\nPi occ: [";
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List.iter (fun i -> Printf.printf "%d," i) list_pi_occ;
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Printf.printf "\b]\nSigma vir: [";
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List.iter (fun i -> Printf.printf "%d," i) list_sigma_vir;
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Printf.printf "\b]\nPi vir: [";
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List.iter (fun i -> Printf.printf "%d," i) list_pi_vir;
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Printf.printf "\b]\n\n";
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let mat_1, mat_2 = split_mat mat (list_12 mat) in
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(* Separation of the occupied and virtual MOs, valence and core MOs *)
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let m_occ , m_vir = split_mat m_C list_occ in
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let m_core, m_occu = split_mat m_occ list_core in
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if List.length(list_2ab mat_2) + List.length(miss_elem mat_2 (list_2ab mat_2)) <> (Mat.dim2 mat_2)
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then Printf.printf "%s\n" "Bug : List length problem (list_2ab or miss_elem list_2ab)";
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||||
let mat_2a, mat_2b = split_mat mat_2 (list_2ab mat_2) in
|
||||
|
||||
Printf.printf "%s\n" "";
|
||||
Printf.printf "%s\n" "Localization 1/3";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_1);
|
||||
let m_loc_1 = f_localise mat_1 in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 2/3";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_2a);
|
||||
let m_loc_2a = f_localise mat_2a in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 3/3";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_2b);
|
||||
let m_loc_2b = f_localise mat_2b in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
let m_loc_2ab = assemble m_loc_2a m_loc_2b
|
||||
let m_assemble_loc =
|
||||
let list_of_lists =
|
||||
match separation with
|
||||
| Occ_vir -> [ list_core ; list_occ ; list_vir ]
|
||||
| Sigma_pi -> [ list_core ; list_sigma_occ ; list_pi_occ ; list_pi_vir ; list_sigma_vir ]
|
||||
| Custom l -> l
|
||||
in
|
||||
f_loc_list m_C list_of_lists
|
||||
in
|
||||
|
||||
assemble m_loc_1 m_loc_2ab
|
||||
in
|
||||
|
||||
(* Localization function with 3 MOs separations *)
|
||||
let f_loc_assemble_1234 mat list_12 list_1ab list_2ab =
|
||||
|
||||
if List.length(list_12 mat) + List.length(miss_elem mat (list_12 mat)) <> (Mat.dim2 mat)
|
||||
then Printf.printf "%s\n" "Bug : List length problem (list_12 or miss_elem list_12)";
|
||||
|
||||
let mat_1, mat_2 = split_mat mat (list_12 mat) in
|
||||
|
||||
if List.length(list_1ab mat_1) + List.length(miss_elem mat (list_1ab mat_1)) <> (Mat.dim2 mat_1)
|
||||
then Printf.printf "%s\n" "Bug : List length problem (list_1ab or miss_elem list_1ab)";
|
||||
|
||||
let mat_1a, mat_1b = split_mat mat_1 (list_1ab mat_1) in
|
||||
|
||||
if List.length(list_2ab mat_2) + List.length(miss_elem mat (list_2ab mat_1)) <> (Mat.dim2 mat_2)
|
||||
then Printf.printf "%s\n" "Bug : List length problem (list_2ab or miss_elem list_2ab)";
|
||||
|
||||
let mat_2a, mat_2b = split_mat mat_2 (list_2ab mat_2) in
|
||||
|
||||
Printf.printf "%s\n" "";
|
||||
Printf.printf "%s\n" "Localization 1/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_1a);
|
||||
let m_loc_1a = f_localise mat_1a in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 2/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_1b);
|
||||
let m_loc_1b = f_localise mat_1b in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 3/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_2a);
|
||||
let m_loc_2a = f_localise mat_2a in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 4/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_2b);
|
||||
let m_loc_2b = f_localise mat_2b in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
let m_loc_1ab = assemble m_loc_1a m_loc_1b in
|
||||
let m_loc_2ab = assemble m_loc_2a m_loc_2b
|
||||
in
|
||||
assemble m_loc_1ab m_loc_2ab
|
||||
in
|
||||
|
||||
(* Localization function with 4 separations "by hands" *)
|
||||
let f_loc_assemble_main mat list_1 list_2 list_3 list_4 =
|
||||
|
||||
if (List.length(list_1) + List.length(list_2) + List.length(list_3) + List.length(list_4)) <> (Mat.dim2 mat)
|
||||
then Printf.printf "%s\n" "Bug : List length problem";
|
||||
|
||||
let mat_1 = create_mat mat list_1 in
|
||||
let mat_2 = create_mat mat list_2 in
|
||||
let mat_3 = create_mat mat list_3 in
|
||||
let mat_4 = create_mat mat list_4 in
|
||||
|
||||
Printf.printf "%s\n" "";
|
||||
Printf.printf "%s\n" "Localization 1/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_1);
|
||||
let loc_mat_1 = f_localise mat_1 in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 2/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_2);
|
||||
let loc_mat_2 = f_localise mat_2 in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 3/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_3);
|
||||
let loc_mat_3 = f_localise mat_3 in
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "Localization 4/4";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 mat_4);
|
||||
let loc_mat_4 = f_localise mat_4
|
||||
|
||||
in
|
||||
Printf.printf "%s\n" "";
|
||||
assemble (assemble loc_mat_1 loc_mat_2) (assemble loc_mat_3 loc_mat_4)
|
||||
in
|
||||
|
||||
(* Pattern matching for the separation type of the occupied MOs *)
|
||||
let m_assemble_occ, m_assemble_occu =
|
||||
|
||||
let m_assemble_occu =
|
||||
Printf.printf "%s\n" "II/III";
|
||||
Printf.printf "%s\n" "Localization of valence orbitals";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 m_occu);
|
||||
match type_separation_occu with
|
||||
| "full" -> let m_assemble_occu = f_loc_assemble_1 m_occu in m_assemble_occu
|
||||
| "pi/sigma" -> let m_assemble_occu = f_loc_assemble_12 m_occu list_pi in m_assemble_occu
|
||||
| "pi/sigma/end" -> let m_assemble_occu = f_loc_assemble_123 m_occu list_pi list_x_end in m_assemble_occu
|
||||
| "pi/1/2" -> let m_assemble_occu = f_loc_assemble_123 m_occu list_pi list_s_12 in m_assemble_occu
|
||||
| "1/2" -> let m_assemble_occu = f_loc_assemble_12 m_occu list_s_12 in m_assemble_occu
|
||||
| "pi1/pi2/1/2" -> let m_assemble_occu = f_loc_assemble_1234 m_occu list_pi list_s_12 list_s_12 in m_assemble_occu
|
||||
| "By_hands" -> let m_assemble_occu = f_loc_assemble_main m_occu (miss_elem m_occ []) [] [] [] in m_assemble_occu
|
||||
| _ -> invalid_arg "Unknown separation type of valence orbitals"
|
||||
in
|
||||
Printf.printf "%s\n" "End II/III";
|
||||
Printf.printf "%s\n" "";
|
||||
(assemble loc_m_core m_assemble_occu, m_assemble_occu)
|
||||
in
|
||||
|
||||
(* Pattern matching for the separation type of the virtual MOs *)
|
||||
let m_assemble_vir =
|
||||
|
||||
let m_assemble_vir =
|
||||
Printf.printf "%s\n" "III/III";
|
||||
Printf.printf "%s\n" "Localization of virtual orbitals";
|
||||
Printf.printf "%s %i\n" "Number of orbitals" (Mat.dim2 m_vir);
|
||||
match type_separation_vir with
|
||||
| "full" -> let m_assemble_vir = f_loc_assemble_1 m_vir in m_assemble_vir
|
||||
| "pi/sigma" -> let m_assemble_vir = f_loc_assemble_12 m_vir list_pi in m_assemble_vir
|
||||
| "pi/sigma/end" -> let m_assemble_vir = f_loc_assemble_123 m_vir list_pi list_x_end in m_assemble_vir
|
||||
| "pi/1/2" -> let m_assemble_vir = f_loc_assemble_123 m_vir list_pi list_s_12 in m_assemble_vir
|
||||
| "1/2" -> let m_assemble_vir = f_loc_assemble_12 m_vir list_s_12 in m_assemble_vir
|
||||
| "pi1/pi2/1/2" -> let m_assemble_vir = f_loc_assemble_1234 m_vir list_pi list_s_12 list_s_12 in m_assemble_vir
|
||||
| "By_hands" -> let m_assemble_vir = f_loc_assemble_main m_vir (miss_elem m_vir []) [] [] [] in m_assemble_vir
|
||||
| _ -> invalid_arg "Unknown separation type of virtual orbitals"
|
||||
in
|
||||
Printf.printf "%s\n" "End III/III";
|
||||
Printf.printf "%s\n" "";
|
||||
m_assemble_vir
|
||||
in
|
||||
|
||||
(* Tack occupied and virtual MOs together*)
|
||||
let m_assemble_loc = assemble m_assemble_occ m_assemble_vir
|
||||
in
|
||||
let m_assemble_occ, m_assemble_vir = split_mat m_assemble_loc list_occ in
|
||||
let m_assemble_core, m_assemble_occu = split_mat m_assemble_occ list_core in
|
||||
|
||||
(* VI. Analysis *)
|
||||
|
||||
@ -1337,6 +1142,7 @@ let localize mo_basis =
|
||||
in
|
||||
"Average : "^string_of_float(average)^"; Median : "^string_of_float(median)^"; Variance : "^string_of_float(variance)^"; Standard deviation : "^string_of_float(stand_dev)
|
||||
in
|
||||
|
||||
(* Display the numer of MOs *)
|
||||
(* Coefficient matrix n_ao x n_mo -> string *)
|
||||
(* matrix -> string *)
|
||||
@ -1345,19 +1151,20 @@ let localize mo_basis =
|
||||
(* Display *)
|
||||
Printf.printf "%s\n" "";
|
||||
Printf.printf "%s\n" (n_orb m_C);
|
||||
Printf.printf "%s %i\n" "Number of pi orbitals : " (List.length (list_pi m_C));
|
||||
Printf.printf "%s %i\n" "Number of occupied pi orbitals : " (List.length (list_pi m_occ));
|
||||
Printf.printf "%s %i\n" "Number of virtual pi orbitals : " (List.length (list_pi m_vir));
|
||||
Printf.printf "%s %i\n" "Number of sigma orbitals : " (List.length (miss_elem m_C (list_pi m_C)));
|
||||
Printf.printf "%s %i\n" "Number of occupied sigma orbitals : " (List.length (miss_elem m_occ (list_pi m_occ)));
|
||||
Printf.printf "%s %i\n" "Number of virtual sigma orbitals : " (List.length (miss_elem m_vir (list_pi m_vir)));
|
||||
Printf.printf "%s %i\n" "Number of pi orbitals : " (List.length list_pi );
|
||||
Printf.printf "%s %i\n" "Number of occupied pi orbitals : " (List.length list_pi_occ );
|
||||
Printf.printf "%s %i\n" "Number of virtual pi orbitals : " (List.length list_pi_vir );
|
||||
Printf.printf "%s %i\n" "Number of sigma orbitals : " (List.length list_sigma);
|
||||
Printf.printf "%s %i\n" "Number of occupied sigma orbitals : " (List.length list_sigma_occ);
|
||||
Printf.printf "%s %i\n" "Number of virtual sigma orbitals : " (List.length list_sigma_vir);
|
||||
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s %s\n" "All MOs before the localization" (analyse m_C);
|
||||
Printf.printf "%s %s\n" "All MOs after the localization" (analyse m_assemble_loc);
|
||||
Printf.printf "%s\n" "";
|
||||
Util.debug_matrix "Distribution of the spatial extent, before localization / sorting before localization / after localization / sorting after localization" (assemble(m_distribution m_C) (m_distribution m_assemble_loc));
|
||||
Util.debug_matrix "Distribution of the spatial extent, before localization / sorting before localization / after localization / sorting after localization"
|
||||
(assemble(m_distribution m_C) (m_distribution m_assemble_loc));
|
||||
|
||||
Printf.printf "%s\n" "";
|
||||
Printf.printf "%s %s\n" "Occupied orbitals : " (n_orb m_occ);
|
||||
@ -1368,7 +1175,7 @@ let localize mo_basis =
|
||||
Printf.printf "%s\n" "";
|
||||
Printf.printf "%s %s\n" "Core orbitals : " (n_orb m_core);
|
||||
Printf.printf "%s %s\n" "Core orbitalses before localization : " (analyse m_core);
|
||||
Printf.printf "%s %s\n" "Core orbitals after localization : " (analyse loc_m_core);
|
||||
Printf.printf "%s %s\n" "Core orbitals after localization : " (analyse m_assemble_core);
|
||||
Printf.printf "%s\n" "";
|
||||
|
||||
Printf.printf "%s\n" "";
|
||||
|
@ -63,6 +63,10 @@ let () =
|
||||
arg=With_arg "<string>";
|
||||
doc="Name of the EZFIO directory containing MOs"; } ;
|
||||
|
||||
{ short='s' ; long="separation" ; opt=Optional;
|
||||
arg=With_arg "<string>";
|
||||
doc="Type of separation: [ov: occ/vir | sp: sigma/pi | custom] "; } ;
|
||||
|
||||
]
|
||||
end;
|
||||
|
||||
@ -87,6 +91,29 @@ let () =
|
||||
|
||||
let output_filename = Util.of_some @@ Command_line.get "output" in
|
||||
|
||||
let separation =
|
||||
match Command_line.get "separation" with
|
||||
| None
|
||||
| Some "ov" -> Localisation.Occ_vir
|
||||
| Some "sp" -> Localisation.Sigma_pi
|
||||
| Some "custom" ->
|
||||
let list_of_lists =
|
||||
print_endline "Enter ranges, one per line:";
|
||||
let rec loop accu =
|
||||
try
|
||||
let r =
|
||||
input_line stdin
|
||||
|> Range.of_string
|
||||
|> Range.to_int_list
|
||||
in
|
||||
loop (r::accu)
|
||||
with End_of_file -> List.rev accu
|
||||
in loop []
|
||||
in
|
||||
Localisation.Custom list_of_lists
|
||||
| _ -> invalid_arg "separation"
|
||||
in
|
||||
|
||||
|
||||
(* II : Hartree-Fock *)
|
||||
|
||||
@ -114,7 +141,7 @@ let () =
|
||||
|> MOBasis.of_hartree_fock
|
||||
in
|
||||
|
||||
let local_mos = Localisation.localize mo_basis in
|
||||
let local_mos = Localisation.localize mo_basis separation in
|
||||
|
||||
let oc = open_out output_filename in
|
||||
Printf.fprintf oc "[\n";
|
||||
|
Loading…
Reference in New Issue
Block a user