vectorized
there seems to be a conflict in the definition of the projection for edge and screw. Nonlocal uses the transpose compared to dislotwin/disloUCLA.
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@ -455,14 +455,11 @@ subroutine plastic_disloUCLA_dependentState(instance,of)
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real(pReal), dimension(param(instance)%sum_N_sl) :: &
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real(pReal), dimension(param(instance)%sum_N_sl) :: &
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dislocationSpacing
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dislocationSpacing
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integer :: &
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i
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associate(prm => param(instance), stt => state(instance),dst => dependentState(instance))
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associate(prm => param(instance), stt => state(instance),dst => dependentState(instance))
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forall (i = 1:prm%sum_N_sl) &
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dislocationSpacing = sqrt(matmul(transpose(prm%forestProjectionEdge), &
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dislocationSpacing(i) = sqrt(dot_product(stt%rho_mob(:,of)+stt%rho_dip(:,of), &
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stt%rho_mob(:,of)+stt%rho_dip(:,of)))
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prm%forestProjectionEdge(:,i)))
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dst%threshold_stress(:,of) = prm%mu*prm%b_sl &
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dst%threshold_stress(:,of) = prm%mu*prm%b_sl &
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* sqrt(matmul(prm%h_sl_sl,stt%rho_mob(:,of)+stt%rho_dip(:,of)))
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* sqrt(matmul(prm%h_sl_sl,stt%rho_mob(:,of)+stt%rho_dip(:,of)))
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@ -854,10 +854,8 @@ subroutine plastic_dislotwin_dependentState(T,instance,of)
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real(pReal), intent(in) :: &
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real(pReal), intent(in) :: &
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T
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T
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integer :: &
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i
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real(pReal) :: &
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real(pReal) :: &
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sumf_twin,SFE,sumf_trans
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sumf_twin,Gamma,sumf_trans
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real(pReal), dimension(param(instance)%sum_N_sl) :: &
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real(pReal), dimension(param(instance)%sum_N_sl) :: &
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inv_lambda_sl_sl, & !< 1/mean free distance between 2 forest dislocations seen by a moving dislocation
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inv_lambda_sl_sl, & !< 1/mean free distance between 2 forest dislocations seen by a moving dislocation
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inv_lambda_sl_tw, & !< 1/mean free distance between 2 twin stacks from different systems seen by a moving dislocation
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inv_lambda_sl_tw, & !< 1/mean free distance between 2 twin stacks from different systems seen by a moving dislocation
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@ -879,19 +877,15 @@ subroutine plastic_dislotwin_dependentState(T,instance,of)
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sumf_twin = sum(stt%f_tw(1:prm%sum_N_tw,of))
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sumf_twin = sum(stt%f_tw(1:prm%sum_N_tw,of))
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sumf_trans = sum(stt%f_tr(1:prm%sum_N_tr,of))
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sumf_trans = sum(stt%f_tr(1:prm%sum_N_tr,of))
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SFE = prm%SFE_0K + prm%dSFE_dT * T
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Gamma = prm%SFE_0K + prm%dSFE_dT * T
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!* rescaled volume fraction for topology
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!* rescaled volume fraction for topology
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f_over_t_tw = stt%f_tw(1:prm%sum_N_tw,of)/prm%t_tw ! this is per system ...
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f_over_t_tw = stt%f_tw(1:prm%sum_N_tw,of)/prm%t_tw ! this is per system ...
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f_over_t_tr = sumf_trans/prm%t_tr ! but this not
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f_over_t_tr = sumf_trans/prm%t_tr ! but this not
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! ToDo ...Physically correct, but naming could be adjusted
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! ToDo ...Physically correct, but naming could be adjusted
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inv_lambda_sl_sl = sqrt(matmul(transpose(prm%forestProjection), &
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forall (i = 1:prm%sum_N_sl) &
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stt%rho_mob(:,of)+stt%rho_dip(:,of)))/prm%CLambdaSlip
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inv_lambda_sl_sl(i) = &
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sqrt(dot_product((stt%rho_mob(1:prm%sum_N_sl,of)+stt%rho_dip(1:prm%sum_N_sl,of)),&
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prm%forestProjection(1:prm%sum_N_sl,i)))/prm%CLambdaSlip(i) ! change order and use matmul
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if (prm%sum_N_tw > 0 .and. prm%sum_N_sl > 0) &
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if (prm%sum_N_tw > 0 .and. prm%sum_N_sl > 0) &
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inv_lambda_sl_tw = matmul(prm%h_sl_tw,f_over_t_tw)/(1.0_pReal-sumf_twin)
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inv_lambda_sl_tw = matmul(prm%h_sl_tw,f_over_t_tw)/(1.0_pReal-sumf_twin)
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@ -903,8 +897,6 @@ subroutine plastic_dislotwin_dependentState(T,instance,of)
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inv_lambda_tr_tr = matmul(prm%h_tr_tr,f_over_t_tr)/(1.0_pReal-sumf_trans)
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inv_lambda_tr_tr = matmul(prm%h_tr_tr,f_over_t_tr)/(1.0_pReal-sumf_trans)
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if ((prm%sum_N_tw > 0) .or. (prm%sum_N_tr > 0)) then ! ToDo: better logic needed here
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if ((prm%sum_N_tw > 0) .or. (prm%sum_N_tr > 0)) then ! ToDo: better logic needed here
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dst%Lambda_sl(:,of) = prm%D &
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dst%Lambda_sl(:,of) = prm%D &
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/ (1.0_pReal+prm%D*(inv_lambda_sl_sl + inv_lambda_sl_tw + inv_lambda_sl_tr))
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/ (1.0_pReal+prm%D*(inv_lambda_sl_sl + inv_lambda_sl_tw + inv_lambda_sl_tr))
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@ -913,7 +905,6 @@ subroutine plastic_dislotwin_dependentState(T,instance,of)
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/ (1.0_pReal+prm%D*inv_lambda_sl_sl) !!!!!! correct?
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/ (1.0_pReal+prm%D*inv_lambda_sl_sl) !!!!!! correct?
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endif
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endif
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dst%Lambda_tw(:,of) = prm%i_tw*prm%D/(1.0_pReal+prm%D*inv_lambda_tw_tw)
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dst%Lambda_tw(:,of) = prm%i_tw*prm%D/(1.0_pReal+prm%D*inv_lambda_tw_tw)
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dst%Lambda_tr(:,of) = prm%i_tr*prm%D/(1.0_pReal+prm%D*inv_lambda_tr_tr)
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dst%Lambda_tr(:,of) = prm%i_tr*prm%D/(1.0_pReal+prm%D*inv_lambda_tr_tr)
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@ -922,22 +913,21 @@ subroutine plastic_dislotwin_dependentState(T,instance,of)
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!* threshold stress for growing twin/martensite
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!* threshold stress for growing twin/martensite
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if(prm%sum_N_tw == prm%sum_N_sl) &
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if(prm%sum_N_tw == prm%sum_N_sl) &
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dst%tau_hat_tw(:,of) = SFE/(3.0_pReal*prm%b_tw) &
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dst%tau_hat_tw(:,of) = Gamma/(3.0_pReal*prm%b_tw) &
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+ 3.0_pReal*prm%b_tw*prm%mu/(prm%L_tw*prm%b_sl) ! slip burgers here correct?
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+ 3.0_pReal*prm%b_tw*prm%mu/(prm%L_tw*prm%b_sl) ! slip burgers here correct?
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if(prm%sum_N_tr == prm%sum_N_sl) &
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if(prm%sum_N_tr == prm%sum_N_sl) &
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dst%tau_hat_tr(:,of) = SFE/(3.0_pReal*prm%b_tr) &
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dst%tau_hat_tr(:,of) = Gamma/(3.0_pReal*prm%b_tr) &
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+ 3.0_pReal*prm%b_tr*prm%mu/(prm%L_tr*prm%b_sl) & ! slip burgers here correct?
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+ 3.0_pReal*prm%b_tr*prm%mu/(prm%L_tr*prm%b_sl) & ! slip burgers here correct?
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+ prm%h*prm%gamma_fcc_hex/ (3.0_pReal*prm%b_tr)
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+ prm%h*prm%gamma_fcc_hex/ (3.0_pReal*prm%b_tr)
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dst%V_tw(:,of) = (PI/4.0_pReal)*prm%t_tw*dst%Lambda_tw(:,of)**2.0_pReal
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dst%V_tw(:,of) = (PI/4.0_pReal)*prm%t_tw*dst%Lambda_tw(:,of)**2.0_pReal
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dst%V_tr(:,of) = (PI/4.0_pReal)*prm%t_tr*dst%Lambda_tr(:,of)**2.0_pReal
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dst%V_tr(:,of) = (PI/4.0_pReal)*prm%t_tr*dst%Lambda_tr(:,of)**2.0_pReal
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x0 = prm%mu*prm%b_tw**2.0_pReal/(SFE*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu) ! ToDo: In the paper, this is the burgers vector for slip and is the same for twin and trans
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x0 = prm%mu*prm%b_tw**2.0_pReal/(Gamma*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu) ! ToDo: In the paper, this is the burgers vector for slip and is the same for twin and trans
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dst%tau_r_tw(:,of) = prm%mu*prm%b_tw/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_twin)+cos(pi/3.0_pReal)/x0)
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dst%tau_r_tw(:,of) = prm%mu*prm%b_tw/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_twin)+cos(pi/3.0_pReal)/x0)
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x0 = prm%mu*prm%b_tr**2.0_pReal/(SFE*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu) ! ToDo: In the paper, this is the burgers vector for slip
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x0 = prm%mu*prm%b_tr**2.0_pReal/(Gamma*8.0_pReal*PI)*(2.0_pReal+prm%nu)/(1.0_pReal-prm%nu) ! ToDo: In the paper, this is the burgers vector for slip
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dst%tau_r_tr(:,of) = prm%mu*prm%b_tr/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_trans)+cos(pi/3.0_pReal)/x0)
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dst%tau_r_tr(:,of) = prm%mu*prm%b_tr/(2.0_pReal*PI)*(1.0_pReal/(x0+prm%xc_trans)+cos(pi/3.0_pReal)/x0)
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end associate
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end associate
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@ -365,7 +365,7 @@ subroutine plastic_isotropic_dotState(Mp,instance,of)
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else
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else
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xi_inf_star = prm%xi_inf &
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xi_inf_star = prm%xi_inf &
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+ asinh( (dot_gamma / prm%c_1)**(1.0_pReal / prm%c_2))**(1.0_pReal / prm%c_3) &
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+ asinh( (dot_gamma / prm%c_1)**(1.0_pReal / prm%c_2))**(1.0_pReal / prm%c_3) &
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/ prm%c_4 * (dot_gamma / prm%dot_gamma_0)**(1.0_pReal / prm%n)
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/ prm%c_4 * (dot_gamma / prm%dot_gamma_0)**(1.0_pReal / prm%n)
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endif
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endif
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dot%xi(of) = dot_gamma &
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dot%xi(of) = dot_gamma &
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* ( prm%h0 + prm%h_ln * log(dot_gamma) ) &
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* ( prm%h0 + prm%h_ln * log(dot_gamma) ) &
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@ -419,7 +419,7 @@ function plastic_isotropic_postResults(Mp,instance,of) result(postResults)
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c = c + 1
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c = c + 1
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case (dot_gamma_ID)
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case (dot_gamma_ID)
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postResults(c+1) = prm%dot_gamma_0 &
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postResults(c+1) = prm%dot_gamma_0 &
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* (sqrt(1.5_pReal) * norm_Mp /(prm%M * stt%xi(of)))**prm%n
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* (sqrt(1.5_pReal) * norm_Mp /(prm%M * stt%xi(of)))**prm%n
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c = c + 1
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c = c + 1
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end select
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end select
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