719 lines
26 KiB
Fortran
719 lines
26 KiB
Fortran
!--------------------------------------------------------------------------------------------------
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!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
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!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
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!> @brief elasticity, plasticity, damage & thermal internal microstructure state
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!--------------------------------------------------------------------------------------------------
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module phase
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use prec
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use constants
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use math
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use rotations
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use polynomials
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use IO
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use config
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use material
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use results
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use lattice
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use discretization
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use parallelization
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use HDF5
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use HDF5_utilities
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implicit none
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private
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type :: tState
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integer :: &
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sizeState = 0, & !< size of state
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sizeDotState = 0, & !< size of dot state, i.e. state(1:sizeDot) follows time evolution by dotState rates
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offsetDeltaState = 0, & !< index offset of delta state
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sizeDeltaState = 0 !< size of delta state, i.e. state(offset+1:offset+sizeDelta) follows time evolution by deltaState increments
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real(pReal), allocatable, dimension(:) :: &
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atol
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! http://stackoverflow.com/questions/3948210
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real(pReal), pointer, dimension(:,:), contiguous :: & !< is basically an allocatable+target, but in a type needs to be pointer
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state0, &
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state, & !< state
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dotState, & !< rate of state change
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deltaState !< increment of state change
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real(pReal), pointer, dimension(:,:) :: &
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deltaState2
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end type
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type, extends(tState) :: tPlasticState
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logical :: nonlocal = .false.
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end type
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type :: tSourceState
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type(tState), dimension(:), allocatable :: p !< tState for each active source mechanism in a phase
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end type
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character(len=2), allocatable, dimension(:) :: phase_lattice
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real(pReal), allocatable, dimension(:) :: phase_cOverA
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real(pReal), allocatable, dimension(:) :: phase_rho
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type(tRotationContainer), dimension(:), allocatable :: &
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phase_O_0, &
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phase_O
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type :: tNumerics
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integer :: &
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iJacoLpresiduum, & !< frequency of Jacobian update of residuum in Lp
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nState, & !< state loop limit
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nStress !< stress loop limit
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real(pReal) :: &
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subStepMinCryst, & !< minimum (relative) size of sub-step allowed during cutback
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subStepSizeCryst, & !< size of first substep when cutback
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subStepSizeLp, & !< size of first substep when cutback in Lp calculation
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subStepSizeLi, & !< size of first substep when cutback in Li calculation
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stepIncreaseCryst, & !< increase of next substep size when previous substep converged
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rtol_crystalliteState, & !< relative tolerance in state loop
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rtol_crystalliteStress, & !< relative tolerance in stress loop
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atol_crystalliteStress !< absolute tolerance in stress loop
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end type tNumerics
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type(tNumerics) :: num ! numerics parameters. Better name?
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type :: tDebugOptions
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logical :: &
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basic, &
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extensive, &
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selective
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integer :: &
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element, &
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ip, &
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grain
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end type tDebugOptions
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type(tPlasticState), allocatable, dimension(:), public :: &
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plasticState
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type(tState), allocatable, dimension(:), public :: &
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damageState
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interface
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! == cleaned:begin =================================================================================
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module subroutine mechanical_init(phases)
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class(tNode), pointer :: phases
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end subroutine mechanical_init
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module subroutine damage_init
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end subroutine damage_init
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module subroutine thermal_init(phases)
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class(tNode), pointer :: phases
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end subroutine thermal_init
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module subroutine mechanical_results(group,ph)
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character(len=*), intent(in) :: group
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integer, intent(in) :: ph
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end subroutine mechanical_results
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module subroutine damage_results(group,ph)
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character(len=*), intent(in) :: group
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integer, intent(in) :: ph
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end subroutine damage_results
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module subroutine thermal_results(group,ph)
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character(len=*), intent(in) :: group
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integer, intent(in) :: ph
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end subroutine thermal_results
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module subroutine mechanical_forward()
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end subroutine mechanical_forward
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module subroutine damage_forward()
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end subroutine damage_forward
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module subroutine thermal_forward()
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end subroutine thermal_forward
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module subroutine mechanical_restore(ce,includeL)
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integer, intent(in) :: ce
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logical, intent(in) :: includeL
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end subroutine mechanical_restore
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module subroutine damage_restore(ce)
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integer, intent(in) :: ce
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end subroutine damage_restore
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module function phase_mechanical_dPdF(Delta_t,co,ce) result(dPdF)
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real(pReal), intent(in) :: Delta_t
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integer, intent(in) :: &
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co, & !< counter in constituent loop
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ce
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real(pReal), dimension(3,3,3,3) :: dPdF
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end function phase_mechanical_dPdF
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module subroutine mechanical_restartWrite(groupHandle,ph)
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integer(HID_T), intent(in) :: groupHandle
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integer, intent(in) :: ph
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end subroutine mechanical_restartWrite
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module subroutine thermal_restartWrite(groupHandle,ph)
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integer(HID_T), intent(in) :: groupHandle
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integer, intent(in) :: ph
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end subroutine thermal_restartWrite
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module subroutine mechanical_restartRead(groupHandle,ph)
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integer(HID_T), intent(in) :: groupHandle
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integer, intent(in) :: ph
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end subroutine mechanical_restartRead
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module subroutine thermal_restartRead(groupHandle,ph)
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integer(HID_T), intent(in) :: groupHandle
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integer, intent(in) :: ph
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end subroutine thermal_restartRead
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module function mechanical_S(ph,en) result(S)
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integer, intent(in) :: ph,en
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real(pReal), dimension(3,3) :: S
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end function mechanical_S
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module function mechanical_L_p(ph,en) result(L_p)
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integer, intent(in) :: ph,en
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real(pReal), dimension(3,3) :: L_p
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end function mechanical_L_p
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module function mechanical_F_e(ph,en) result(F_e)
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integer, intent(in) :: ph,en
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real(pReal), dimension(3,3) :: F_e
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end function mechanical_F_e
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module function phase_F(co,ce) result(F)
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integer, intent(in) :: co, ce
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real(pReal), dimension(3,3) :: F
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end function phase_F
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module function phase_P(co,ce) result(P)
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integer, intent(in) :: co, ce
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real(pReal), dimension(3,3) :: P
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end function phase_P
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pure module function thermal_T(ph,en) result(T)
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integer, intent(in) :: ph,en
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real(pReal) :: T
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end function thermal_T
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module function thermal_dot_T(ph,en) result(dot_T)
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integer, intent(in) :: ph,en
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real(pReal) :: dot_T
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end function thermal_dot_T
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module function damage_phi(ph,en) result(phi)
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integer, intent(in) :: ph,en
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real(pReal) :: phi
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end function damage_phi
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module subroutine phase_set_F(F,co,ce)
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real(pReal), dimension(3,3), intent(in) :: F
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integer, intent(in) :: co, ce
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end subroutine phase_set_F
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module subroutine phase_thermal_setField(T,dot_T, co,ce)
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real(pReal), intent(in) :: T, dot_T
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integer, intent(in) :: co, ce
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end subroutine phase_thermal_setField
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module subroutine phase_set_phi(phi,co,ce)
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real(pReal), intent(in) :: phi
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integer, intent(in) :: co, ce
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end subroutine phase_set_phi
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module function phase_mu_phi(co,ce) result(mu)
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integer, intent(in) :: co, ce
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real(pReal) :: mu
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end function phase_mu_phi
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module function phase_K_phi(co,ce) result(K)
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integer, intent(in) :: co, ce
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real(pReal), dimension(3,3) :: K
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end function phase_K_phi
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module function phase_mu_T(co,ce) result(mu)
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integer, intent(in) :: co, ce
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real(pReal) :: mu
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end function phase_mu_T
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module function phase_K_T(co,ce) result(K)
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integer, intent(in) :: co, ce
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real(pReal), dimension(3,3) :: K
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end function phase_K_T
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! == cleaned:end ===================================================================================
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module function phase_thermal_constitutive(Delta_t,ph,en) result(converged_)
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real(pReal), intent(in) :: Delta_t
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integer, intent(in) :: ph, en
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logical :: converged_
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end function phase_thermal_constitutive
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module function phase_damage_constitutive(Delta_t,co,ce) result(converged_)
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real(pReal), intent(in) :: Delta_t
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integer, intent(in) :: co, ce
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logical :: converged_
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end function phase_damage_constitutive
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module function phase_mechanical_constitutive(Delta_t,co,ce) result(converged_)
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real(pReal), intent(in) :: Delta_t
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integer, intent(in) :: co, ce
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logical :: converged_
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end function phase_mechanical_constitutive
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!ToDo: Merge all the stiffness functions
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module function phase_homogenizedC66(ph,en) result(C)
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integer, intent(in) :: ph, en
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real(pReal), dimension(6,6) :: C
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end function phase_homogenizedC66
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module function phase_damage_C66(C66,ph,en) result(C66_degraded)
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real(pReal), dimension(6,6), intent(in) :: C66
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integer, intent(in) :: ph,en
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real(pReal), dimension(6,6) :: C66_degraded
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end function phase_damage_C66
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module function phase_f_phi(phi,co,ce) result(f)
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integer, intent(in) :: ce,co
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real(pReal), intent(in) :: &
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phi !< damage parameter
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real(pReal) :: &
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f
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end function phase_f_phi
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module function phase_f_T(ph,en) result(f)
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integer, intent(in) :: ph, en
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real(pReal) :: f
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end function phase_f_T
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module subroutine plastic_nonlocal_updateCompatibility(orientation,ph,ip,el)
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integer, intent(in) :: &
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ph, &
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ip, &
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el
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type(tRotationContainer), dimension(:), intent(in) :: orientation
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end subroutine plastic_nonlocal_updateCompatibility
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module subroutine plastic_dependentState(ph,en)
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integer, intent(in) :: &
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ph, &
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en
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end subroutine plastic_dependentState
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module subroutine damage_anisobrittle_LiAndItsTangent(Ld, dLd_dTstar, S, ph,en)
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integer, intent(in) :: ph, en
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real(pReal), intent(in), dimension(3,3) :: &
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S
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real(pReal), intent(out), dimension(3,3) :: &
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Ld !< damage velocity gradient
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real(pReal), intent(out), dimension(3,3,3,3) :: &
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dLd_dTstar !< derivative of Ld with respect to Tstar (4th-order tensor)
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end subroutine damage_anisobrittle_LiAndItsTangent
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end interface
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type(tDebugOptions) :: debugConstitutive
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#if __INTEL_COMPILER >= 1900
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public :: &
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prec, &
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math, &
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rotations, &
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IO, &
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config, &
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material, &
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results, &
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lattice, &
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discretization, &
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HDF5_utilities
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#endif
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public :: &
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phase_init, &
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phase_homogenizedC66, &
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phase_f_phi, &
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phase_f_T, &
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phase_K_phi, &
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phase_K_T, &
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phase_mu_phi, &
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phase_mu_T, &
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phase_results, &
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phase_allocateState, &
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phase_forward, &
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phase_restore, &
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plastic_nonlocal_updateCompatibility, &
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converged, &
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phase_mechanical_constitutive, &
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phase_thermal_constitutive, &
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phase_damage_constitutive, &
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phase_mechanical_dPdF, &
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crystallite_orientations, &
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crystallite_push33ToRef, &
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phase_restartWrite, &
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phase_restartRead, &
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phase_thermal_setField, &
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phase_set_phi, &
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phase_P, &
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phase_set_F, &
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phase_F
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contains
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!--------------------------------------------------------------------------------------------------
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!> @brief Initialize constitutive models for individual physics
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!--------------------------------------------------------------------------------------------------
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subroutine phase_init
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integer :: &
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ph, ce, co, ma
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class (tNode), pointer :: &
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debug_constitutive, &
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materials, &
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phases, &
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phase
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print'(/,1x,a)', '<<<+- phase init -+>>>'; flush(IO_STDOUT)
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debug_constitutive => config_debug%get('phase', defaultVal=emptyList)
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debugConstitutive%basic = debug_constitutive%contains('basic')
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debugConstitutive%extensive = debug_constitutive%contains('extensive')
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debugConstitutive%selective = debug_constitutive%contains('selective')
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debugConstitutive%element = config_debug%get_asInt('element', defaultVal = 1)
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debugConstitutive%ip = config_debug%get_asInt('integrationpoint',defaultVal = 1)
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debugConstitutive%grain = config_debug%get_asInt('constituent', defaultVal = 1)
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materials => config_material%get('material')
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phases => config_material%get('phase')
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allocate(phase_lattice(phases%length))
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allocate(phase_cOverA(phases%length),source=-1.0_pReal)
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allocate(phase_rho(phases%length))
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allocate(phase_O_0(phases%length))
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do ph = 1,phases%length
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phase => phases%get(ph)
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phase_lattice(ph) = phase%get_asString('lattice')
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if (all(phase_lattice(ph) /= ['cF','cI','hP','tI'])) &
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call IO_error(130,ext_msg='phase_init: '//phase%get_asString('lattice'))
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if (any(phase_lattice(ph) == ['hP','tI'])) &
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phase_cOverA(ph) = phase%get_asFloat('c/a')
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phase_rho(ph) = phase%get_asFloat('rho',defaultVal=0.0_pReal)
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allocate(phase_O_0(ph)%data(count(material_phaseID==ph)))
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end do
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do ce = 1, size(material_phaseID,2)
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ma = discretization_materialAt((ce-1)/discretization_nIPs+1)
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do co = 1,homogenization_Nconstituents(material_homogenizationID(ce))
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ph = material_phaseID(co,ce)
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phase_O_0(ph)%data(material_phaseEntry(co,ce)) = material_O_0(ma)%data(co)
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end do
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end do
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allocate(phase_O(phases%length))
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do ph = 1,phases%length
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phase_O(ph)%data = phase_O_0(ph)%data
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end do
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call mechanical_init(phases)
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call damage_init
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call thermal_init(phases)
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call crystallite_init()
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end subroutine phase_init
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!--------------------------------------------------------------------------------------------------
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!> @brief Allocate the components of the state structure for a given phase
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!--------------------------------------------------------------------------------------------------
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subroutine phase_allocateState(state, &
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NEntries,sizeState,sizeDotState,sizeDeltaState,offsetDeltaState)
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class(tState), intent(inout) :: &
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state
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integer, intent(in) :: &
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NEntries, &
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sizeState, &
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sizeDotState, &
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sizeDeltaState
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integer, intent(in), optional :: &
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offsetDeltaState
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state%sizeState = sizeState
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state%sizeDotState = sizeDotState
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state%sizeDeltaState = sizeDeltaState
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if (present(offsetDeltaState)) then
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state%offsetDeltaState = offsetDeltaState ! ToDo: this is a fix for broken nonlocal
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else
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state%offsetDeltaState = sizeState-sizeDeltaState ! deltaState occupies latter part of state by definition
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end if
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allocate(state%atol (sizeState), source=0.0_pReal)
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allocate(state%state0 (sizeState,NEntries), source=0.0_pReal)
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allocate(state%state (sizeState,NEntries), source=0.0_pReal)
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allocate(state%dotState (sizeDotState,NEntries), source=0.0_pReal)
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allocate(state%deltaState (sizeDeltaState,NEntries), source=0.0_pReal)
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state%deltaState2 => state%state(state%offsetDeltaState+1: &
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state%offsetDeltaState+state%sizeDeltaState,:)
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end subroutine phase_allocateState
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!--------------------------------------------------------------------------------------------------
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!> @brief Restore data after homog cutback.
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!--------------------------------------------------------------------------------------------------
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subroutine phase_restore(ce,includeL)
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logical, intent(in) :: includeL
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integer, intent(in) :: ce
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call mechanical_restore(ce,includeL)
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call damage_restore(ce)
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end subroutine phase_restore
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!--------------------------------------------------------------------------------------------------
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!> @brief Forward data after successful increment.
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!--------------------------------------------------------------------------------------------------
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subroutine phase_forward()
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call mechanical_forward()
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call damage_forward()
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call thermal_forward()
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end subroutine phase_forward
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!--------------------------------------------------------------------------------------------------
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!> @brief writes constitutive results to HDF5 output file
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!--------------------------------------------------------------------------------------------------
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subroutine phase_results()
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integer :: ph
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character(len=:), allocatable :: group
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call results_closeGroup(results_addGroup('/current/phase/'))
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do ph = 1, size(material_name_phase)
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group = '/current/phase/'//trim(material_name_phase(ph))//'/'
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call results_closeGroup(results_addGroup(group))
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call mechanical_results(group,ph)
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call damage_results(group,ph)
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call thermal_results(group,ph)
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end do
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end subroutine phase_results
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!--------------------------------------------------------------------------------------------------
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!> @brief allocates and initialize per grain variables
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!--------------------------------------------------------------------------------------------------
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subroutine crystallite_init()
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integer :: &
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ce, &
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co, & !< counter in integration point component loop
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ip, & !< counter in integration point loop
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el, & !< counter in element loop
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en, ph
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class(tNode), pointer :: &
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num_crystallite, &
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phases
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num_crystallite => config_numerics%get('crystallite',defaultVal=emptyDict)
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num%subStepMinCryst = num_crystallite%get_asFloat ('subStepMin', defaultVal=1.0e-3_pReal)
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num%subStepSizeCryst = num_crystallite%get_asFloat ('subStepSize', defaultVal=0.25_pReal)
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num%stepIncreaseCryst = num_crystallite%get_asFloat ('stepIncrease', defaultVal=1.5_pReal)
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num%subStepSizeLp = num_crystallite%get_asFloat ('subStepSizeLp', defaultVal=0.5_pReal)
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num%subStepSizeLi = num_crystallite%get_asFloat ('subStepSizeLi', defaultVal=0.5_pReal)
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num%rtol_crystalliteState = num_crystallite%get_asFloat ('rtol_State', defaultVal=1.0e-6_pReal)
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num%rtol_crystalliteStress = num_crystallite%get_asFloat ('rtol_Stress', defaultVal=1.0e-6_pReal)
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num%atol_crystalliteStress = num_crystallite%get_asFloat ('atol_Stress', defaultVal=1.0e-8_pReal)
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num%iJacoLpresiduum = num_crystallite%get_asInt ('iJacoLpresiduum', defaultVal=1)
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num%nState = num_crystallite%get_asInt ('nState', defaultVal=20)
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num%nStress = num_crystallite%get_asInt ('nStress', defaultVal=40)
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if (num%subStepMinCryst <= 0.0_pReal) call IO_error(301,ext_msg='subStepMinCryst')
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if (num%subStepSizeCryst <= 0.0_pReal) call IO_error(301,ext_msg='subStepSizeCryst')
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if (num%stepIncreaseCryst <= 0.0_pReal) call IO_error(301,ext_msg='stepIncreaseCryst')
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if (num%subStepSizeLp <= 0.0_pReal) call IO_error(301,ext_msg='subStepSizeLp')
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if (num%subStepSizeLi <= 0.0_pReal) call IO_error(301,ext_msg='subStepSizeLi')
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if (num%rtol_crystalliteState <= 0.0_pReal) call IO_error(301,ext_msg='rtol_crystalliteState')
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if (num%rtol_crystalliteStress <= 0.0_pReal) call IO_error(301,ext_msg='rtol_crystalliteStress')
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if (num%atol_crystalliteStress <= 0.0_pReal) call IO_error(301,ext_msg='atol_crystalliteStress')
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if (num%iJacoLpresiduum < 1) call IO_error(301,ext_msg='iJacoLpresiduum')
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if (num%nState < 1) call IO_error(301,ext_msg='nState')
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if (num%nStress< 1) call IO_error(301,ext_msg='nStress')
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phases => config_material%get('phase')
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!$OMP PARALLEL DO PRIVATE(ce,ph,en)
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do el = 1, discretization_Nelems
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do ip = 1, discretization_nIPs
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ce = (el-1)*discretization_nIPs + ip
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do co = 1,homogenization_Nconstituents(material_homogenizationID(ce))
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en = material_phaseEntry(co,ce)
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ph = material_phaseID(co,ce)
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call crystallite_orientations(co,ip,el)
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call plastic_dependentState(ph,en) ! update dependent state variables to be consistent with basic states
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end do
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end do
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end do
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!$OMP END PARALLEL DO
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end subroutine crystallite_init
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!--------------------------------------------------------------------------------------------------
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!> @brief calculates orientations
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!--------------------------------------------------------------------------------------------------
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subroutine crystallite_orientations(co,ip,el)
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integer, intent(in) :: &
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co, & !< counter in integration point component loop
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ip, & !< counter in integration point loop
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el !< counter in element loop
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integer :: ph, en
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ph = material_phaseID(co,(el-1)*discretization_nIPs + ip)
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en = material_phaseEntry(co,(el-1)*discretization_nIPs + ip)
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call phase_O(ph)%data(en)%fromMatrix(transpose(math_rotationalPart(mechanical_F_e(ph,en))))
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if (plasticState(material_phaseID(1,(el-1)*discretization_nIPs + ip))%nonlocal) &
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call plastic_nonlocal_updateCompatibility(phase_O,material_phaseID(1,(el-1)*discretization_nIPs + ip),ip,el)
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end subroutine crystallite_orientations
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!--------------------------------------------------------------------------------------------------
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!> @brief Map 2nd order tensor to reference config
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!--------------------------------------------------------------------------------------------------
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function crystallite_push33ToRef(co,ce, tensor33)
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real(pReal), dimension(3,3), intent(in) :: tensor33
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integer, intent(in):: &
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co, &
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ce
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real(pReal), dimension(3,3) :: crystallite_push33ToRef
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real(pReal), dimension(3,3) :: T
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integer :: ph, en
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ph = material_phaseID(co,ce)
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en = material_phaseEntry(co,ce)
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T = matmul(phase_O_0(ph)%data(en)%asMatrix(),transpose(math_inv33(phase_F(co,ce)))) ! ToDo: initial orientation correct?
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crystallite_push33ToRef = matmul(transpose(T),matmul(tensor33,T))
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end function crystallite_push33ToRef
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!--------------------------------------------------------------------------------------------------
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!> @brief determines whether a point is converged
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!--------------------------------------------------------------------------------------------------
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|
logical pure function converged(residuum,state,atol)
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real(pReal), intent(in), dimension(:) ::&
|
|
residuum, state, atol
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|
real(pReal) :: &
|
|
rTol
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|
|
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rTol = num%rTol_crystalliteState
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|
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converged = all(abs(residuum) <= max(atol, rtol*abs(state)))
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|
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end function converged
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!--------------------------------------------------------------------------------------------------
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!> @brief Write restart data to file.
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|
!--------------------------------------------------------------------------------------------------
|
|
subroutine phase_restartWrite(fileHandle)
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|
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integer(HID_T), intent(in) :: fileHandle
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|
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integer(HID_T), dimension(2) :: groupHandle
|
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integer :: ph
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|
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groupHandle(1) = HDF5_addGroup(fileHandle,'phase')
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|
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do ph = 1, size(material_name_phase)
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|
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groupHandle(2) = HDF5_addGroup(groupHandle(1),material_name_phase(ph))
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|
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call mechanical_restartWrite(groupHandle(2),ph)
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call thermal_restartWrite(groupHandle(2),ph)
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|
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call HDF5_closeGroup(groupHandle(2))
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|
|
end do
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|
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call HDF5_closeGroup(groupHandle(1))
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|
|
end subroutine phase_restartWrite
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|
|
|
|
|
!--------------------------------------------------------------------------------------------------
|
|
!> @brief Read restart data from file.
|
|
!--------------------------------------------------------------------------------------------------
|
|
subroutine phase_restartRead(fileHandle)
|
|
|
|
integer(HID_T), intent(in) :: fileHandle
|
|
|
|
integer(HID_T), dimension(2) :: groupHandle
|
|
integer :: ph
|
|
|
|
|
|
groupHandle(1) = HDF5_openGroup(fileHandle,'phase')
|
|
|
|
do ph = 1, size(material_name_phase)
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|
|
|
groupHandle(2) = HDF5_openGroup(groupHandle(1),material_name_phase(ph))
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|
|
call mechanical_restartRead(groupHandle(2),ph)
|
|
call thermal_restartRead(groupHandle(2),ph)
|
|
|
|
call HDF5_closeGroup(groupHandle(2))
|
|
|
|
end do
|
|
|
|
call HDF5_closeGroup(groupHandle(1))
|
|
|
|
end subroutine phase_restartRead
|
|
|
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|
|
end module phase
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