fixed timesyncing for special case of ip that synchronizes its time step, but does not have a neighbor
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@ -2353,8 +2353,7 @@ if (.not. phase_localPlasticity(material_phase(g,ip,el))) then
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endif
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if (considerEnteringFlux) then
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if(numerics_timeSyncing .and. (subfrac(g,neighboring_ip,neighboring_el) == 0.0_pReal &
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.or. subfrac(g,ip,el) == 0.0_pReal)) then
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if(numerics_timeSyncing .and. (subfrac(g,neighboring_ip,neighboring_el) /= subfrac(g,ip,el))) then ! for timesyncing: in case of a timestep at the interface we have to use "state0" to make sure that fluxes n both sides are equal
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forall (t = 1_pInt:4_pInt) &
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neighboring_v(1_pInt:ns,t) = state0(g,neighboring_ip,neighboring_el)%p((12_pInt+t)*ns+1_pInt:(13_pInt+t)*ns)
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forall (t = 1_pInt:8_pInt) &
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@ -2411,18 +2410,25 @@ if (.not. phase_localPlasticity(material_phase(g,ip,el))) then
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endif
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if (considerLeavingFlux) then
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if(numerics_timeSyncing .and. neighboring_n > 0_pInt) then
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if(subfrac(g,neighboring_ip,neighboring_el) == 0.0_pReal .or. subfrac(g,ip,el) == 0.0_pReal) then
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!* timeSyncing mode: If the central ip has zero subfraction, always use "state0". This is needed in case of
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!* a synchronization step for the central ip, because then "state" contains the values at the end of the
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!* previously converged full time step. Also, if either me or my neighbor has zero subfraction, we have to
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!* use "state0" to make sure that fluxes on both sides of the (potential) timestep are equal.
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rhoSglMe = rhoSgl
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vMe = v
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if(numerics_timeSyncing) then
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if (subfrac(g,ip,el) == 0.0_pReal) then
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rhoSglMe = rhoSgl0
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vMe = v0
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elseif (neighboring_n > 0_pInt) then
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if (subfrac(g,neighboring_ip,neighboring_el) == 0.0_pReal) then
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rhoSglMe = rhoSgl0
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vMe = v0
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else
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rhoSglMe = rhoSgl
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vMe = v
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endif
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else
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rhoSglMe = rhoSgl
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vMe = v
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endif
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endif
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normal_me2neighbor_defConf = math_det33(Favg) * math_mul33x3(math_inv33(math_transpose33(Favg)), &
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mesh_ipAreaNormal(1:3,n,ip,el)) ! calculate the normal of the interface in (average) deformed configuration (pointing from me to my neighbor!!!)
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normal_me2neighbor = math_mul33x3(math_transpose33(my_Fe), normal_me2neighbor_defConf) / math_det33(my_Fe) ! interface normal in my lattice configuration
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