DAMASK_EICMD/src/homogenization.f90

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!--------------------------------------------------------------------------------------------------
!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
!> @author Denny Tjahjanto, Max-Planck-Institut für Eisenforschung GmbH
!> @brief homogenization manager, organizing deformation partitioning and stress homogenization
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!--------------------------------------------------------------------------------------------------
module homogenization
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use prec
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use math
use constants
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use IO
use config
use material
use phase
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use discretization
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use HDF5
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use HDF5_utilities
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use result
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use crystal
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implicit none(type,external)
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private
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type :: tState
integer :: &
sizeState = 0 !< size of state
! http://stackoverflow.com/questions/3948210
real(pREAL), pointer, dimension(:,:), contiguous :: & !< is basically an allocatable+target, but in a type needs to be pointer
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state0, &
state
end type
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enum, bind(c); enumerator :: &
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THERMAL_UNDEFINED_ID, &
THERMAL_PASS_ID, &
THERMAL_ISOTEMPERATURE_ID
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end enum
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integer(kind(THERMAL_UNDEFINED_ID)), dimension(:), allocatable :: &
thermal_type !< type of each homogenization
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type(tState), allocatable, dimension(:), public :: &
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homogState, &
damageState_h
logical, allocatable, dimension(:) :: &
thermal_active, &
damage_active
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logical, public :: &
terminallyIll = .false. !< at least one material point is terminally ill
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!--------------------------------------------------------------------------------------------------
! General variables for the homogenization at a material point
real(pREAL), dimension(:,:,:), allocatable, public :: &
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homogenization_F0, & !< def grad of IP at start of FE increment
homogenization_F !< def grad of IP to be reached at end of FE increment
real(pREAL), dimension(:,:,:), allocatable, public :: & !, protected :: & Issue with ifort
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homogenization_P !< first P--K stress of IP
real(pREAL), dimension(:,:,:,:,:), allocatable, public :: & !, protected :: &
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homogenization_dPdF !< tangent of first P--K stress at IP
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!--------------------------------------------------------------------------------------------------
interface
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module subroutine mechanical_init()
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end subroutine mechanical_init
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module subroutine thermal_init()
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end subroutine thermal_init
module subroutine damage_init()
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end subroutine damage_init
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module subroutine mechanical_partition(subF,ce)
real(pREAL), intent(in), dimension(3,3) :: &
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subF
integer, intent(in) :: &
ce
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end subroutine mechanical_partition
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module subroutine thermal_partition(ce)
integer, intent(in) :: ce
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end subroutine thermal_partition
module subroutine damage_partition(ce)
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integer, intent(in) :: ce
end subroutine damage_partition
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module subroutine mechanical_homogenize(Delta_t,ce)
real(pREAL), intent(in) :: Delta_t
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integer, intent(in) :: &
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ce !< cell
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end subroutine mechanical_homogenize
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module subroutine mechanical_result(group_base,ho)
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character(len=*), intent(in) :: group_base
integer, intent(in) :: ho
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end subroutine mechanical_result
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module subroutine damage_result(ho,group)
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integer, intent(in) :: ho
character(len=*), intent(in) :: group
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end subroutine damage_result
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module subroutine thermal_result(ho,group)
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integer, intent(in) :: ho
character(len=*), intent(in) :: group
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end subroutine thermal_result
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module function mechanical_updateState(subdt,subF,ce) result(doneAndHappy)
real(pREAL), intent(in) :: &
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subdt !< current time step
real(pREAL), intent(in), dimension(3,3) :: &
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subF
integer, intent(in) :: &
ce !< cell
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logical, dimension(2) :: doneAndHappy
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end function mechanical_updateState
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module function homogenization_thermal_active() result(active)
logical :: active
end function homogenization_thermal_active
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module function homogenization_mu_T(ce) result(mu)
integer, intent(in) :: ce
real(pREAL) :: mu
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end function homogenization_mu_T
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module function homogenization_K_T(ce) result(K)
integer, intent(in) :: ce
real(pREAL), dimension(3,3) :: K
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end function homogenization_K_T
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module function homogenization_f_T(ce) result(f)
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integer, intent(in) :: ce
real(pREAL) :: f
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end function homogenization_f_T
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module subroutine homogenization_thermal_setField(T,dot_T)
real(pREAL), dimension(:), intent(in) :: T, dot_T
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end subroutine homogenization_thermal_setField
module function homogenization_damage_active() result(active)
logical :: active
end function homogenization_damage_active
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module function homogenization_mu_phi(ce) result(mu)
integer, intent(in) :: ce
real(pREAL) :: mu
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end function homogenization_mu_phi
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module function homogenization_K_phi(ce) result(K)
integer, intent(in) :: ce
real(pREAL), dimension(3,3) :: K
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end function homogenization_K_phi
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module function homogenization_f_phi(phi,ce) result(f)
integer, intent(in) :: ce
real(pREAL), intent(in) :: phi
real(pREAL) :: f
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end function homogenization_f_phi
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module subroutine homogenization_set_phi(phi)
real(pREAL), dimension(:), intent(in) :: phi
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end subroutine homogenization_set_phi
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end interface
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public :: &
homogenization_init, &
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homogenization_mechanical_response, &
homogenization_mechanical_response2, &
homogenization_thermal_response, &
homogenization_thermal_active, &
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homogenization_mu_T, &
homogenization_K_T, &
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homogenization_f_T, &
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homogenization_thermal_setfield, &
homogenization_damage_active, &
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homogenization_mu_phi, &
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homogenization_K_phi, &
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homogenization_f_phi, &
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homogenization_set_phi, &
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homogenization_forward, &
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homogenization_result, &
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homogenization_restartRead, &
homogenization_restartWrite
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contains
!--------------------------------------------------------------------------------------------------
!> @brief module initialization
!--------------------------------------------------------------------------------------------------
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subroutine homogenization_init()
type(tDict) , pointer :: &
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num_homog, &
num_homogGeneric
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print'(/,1x,a)', '<<<+- homogenization init -+>>>'; flush(IO_STDOUT)
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allocate(homogState (size(material_name_homogenization)))
allocate(damageState_h (size(material_name_homogenization)))
call parseHomogenization()
call mechanical_init()
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call thermal_init()
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call damage_init()
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end subroutine homogenization_init
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!--------------------------------------------------------------------------------------------------
!> @brief
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!--------------------------------------------------------------------------------------------------
subroutine homogenization_mechanical_response(Delta_t,cell_start,cell_end)
real(pREAL), intent(in) :: Delta_t !< time increment
integer, intent(in) :: &
cell_start, cell_end
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integer :: &
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co, ce, ho, en
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logical :: &
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converged
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logical, dimension(2) :: &
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doneAndHappy
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!$OMP PARALLEL DO PRIVATE(en,ho,co,converged,doneAndHappy)
do ce = cell_start, cell_end
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en = material_entry_homogenization(ce)
ho = material_ID_homogenization(ce)
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call phase_restore(ce,.false.) ! wrong name (is more a forward function)
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if (homogState(ho)%sizeState > 0) homogState(ho)%state(:,en) = homogState(ho)%state0(:,en)
if (damageState_h(ho)%sizeState > 0) damageState_h(ho)%state(:,en) = damageState_h(ho)%state0(:,en)
call damage_partition(ce)
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doneAndHappy = [.false.,.true.]
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convergenceLooping: do while (.not. (terminallyIll .or. doneAndHappy(1)))
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call mechanical_partition(homogenization_F(1:3,1:3,ce),ce)
converged = all([(phase_mechanical_constitutive(Delta_t,co,ce),co=1,homogenization_Nconstituents(ho))])
if (converged) then
doneAndHappy = mechanical_updateState(Delta_t,homogenization_F(1:3,1:3,ce),ce)
converged = all(doneAndHappy)
else
doneAndHappy = [.true.,.false.]
end if
end do convergenceLooping
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converged = converged .and. all([(phase_damage_constitutive(Delta_t,co,ce),co=1,homogenization_Nconstituents(ho))])
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if (.not. converged) then
if (.not. terminallyIll) print*, ' Cell ', ce, ' terminally ill'
terminallyIll = .true.
end if
end do
!$OMP END PARALLEL DO
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end subroutine homogenization_mechanical_response
!--------------------------------------------------------------------------------------------------
!> @brief
!--------------------------------------------------------------------------------------------------
subroutine homogenization_thermal_response(Delta_t,cell_start,cell_end)
real(pREAL), intent(in) :: Delta_t !< time increment
integer, intent(in) :: &
cell_start, cell_end
integer :: &
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co, ce, ho
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!$OMP PARALLEL DO PRIVATE(ho)
do ce = cell_start, cell_end
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if (terminallyIll) continue
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ho = material_ID_homogenization(ce)
do co = 1, homogenization_Nconstituents(ho)
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if (.not. phase_thermal_constitutive(Delta_t,material_ID_phase(co,ce),material_entry_phase(co,ce))) then
if (.not. terminallyIll) print*, ' Cell ', ce, ' terminally ill'
terminallyIll = .true.
end if
end do
end do
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!$OMP END PARALLEL DO
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end subroutine homogenization_thermal_response
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!--------------------------------------------------------------------------------------------------
!> @brief
!--------------------------------------------------------------------------------------------------
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subroutine homogenization_mechanical_response2(Delta_t,FEsolving_execIP,FEsolving_execElem)
real(pREAL), intent(in) :: Delta_t !< time increment
integer, dimension(2), intent(in) :: FEsolving_execElem, FEsolving_execIP
integer :: &
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ip, & !< integration point number
el, & !< element number
co, ce, ho
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!$OMP PARALLEL DO PRIVATE(ho,ce)
elementLooping3: do el = FEsolving_execElem(1),FEsolving_execElem(2)
IpLooping3: do ip = FEsolving_execIP(1),FEsolving_execIP(2)
ce = (el-1)*discretization_nIPs + ip
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ho = material_ID_homogenization(ce)
do co = 1, homogenization_Nconstituents(ho)
call crystallite_orientations(co,ip,el)
end do
call mechanical_homogenize(Delta_t,ce)
end do IpLooping3
end do elementLooping3
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!$OMP END PARALLEL DO
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end subroutine homogenization_mechanical_response2
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!--------------------------------------------------------------------------------------------------
!> @brief writes homogenization results to HDF5 output file
!--------------------------------------------------------------------------------------------------
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subroutine homogenization_result
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integer :: ho
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character(len=:), allocatable :: group_base,group
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call result_closeGroup(result_addGroup('current/homogenization/'))
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do ho=1,size(material_name_homogenization)
group_base = 'current/homogenization/'//trim(material_name_homogenization(ho))
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call result_closeGroup(result_addGroup(group_base))
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call mechanical_result(group_base,ho)
if (damage_active(ho)) then
group = trim(group_base)//'/damage'
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call result_closeGroup(result_addGroup(group))
call damage_result(ho,group)
end if
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if (thermal_active(ho)) then
group = trim(group_base)//'/thermal'
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call result_closeGroup(result_addGroup(group))
call thermal_result(ho,group)
end if
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end do
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end subroutine homogenization_result
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!--------------------------------------------------------------------------------------------------
!> @brief Forward data after successful increment.
! ToDo: Any guessing for the current states possible?
!--------------------------------------------------------------------------------------------------
subroutine homogenization_forward
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integer :: ho
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do ho = 1, size(material_name_homogenization)
homogState (ho)%state0 = homogState (ho)%state
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if (damageState_h(ho)%sizeState > 0) &
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damageState_h(ho)%state0 = damageState_h(ho)%state
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end do
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end subroutine homogenization_forward
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!--------------------------------------------------------------------------------------------------
!--------------------------------------------------------------------------------------------------
subroutine homogenization_restartWrite(fileHandle)
integer(HID_T), intent(in) :: fileHandle
integer(HID_T), dimension(2) :: groupHandle
integer :: ho
groupHandle(1) = HDF5_addGroup(fileHandle,'homogenization')
do ho = 1, size(material_name_homogenization)
groupHandle(2) = HDF5_addGroup(groupHandle(1),material_name_homogenization(ho))
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call HDF5_write(homogState(ho)%state,groupHandle(2),'omega_mechanical') ! ToDo: should be done by mech
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if (damageState_h(ho)%sizeState > 0) &
call HDF5_write(damageState_h(ho)%state,groupHandle(2),'omega_damage') ! ToDo: should be done by mech
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call HDF5_closeGroup(groupHandle(2))
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end do
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call HDF5_closeGroup(groupHandle(1))
end subroutine homogenization_restartWrite
!--------------------------------------------------------------------------------------------------
!--------------------------------------------------------------------------------------------------
subroutine homogenization_restartRead(fileHandle)
integer(HID_T), intent(in) :: fileHandle
integer(HID_T), dimension(2) :: groupHandle
integer :: ho
groupHandle(1) = HDF5_openGroup(fileHandle,'homogenization')
do ho = 1, size(material_name_homogenization)
groupHandle(2) = HDF5_openGroup(groupHandle(1),material_name_homogenization(ho))
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call HDF5_read(homogState(ho)%state0,groupHandle(2),'omega_mechanical') ! ToDo: should be done by mech
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if (damageState_h(ho)%sizeState > 0) &
call HDF5_read(damageState_h(ho)%state0,groupHandle(2),'omega_damage') ! ToDo: should be done by mech
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call HDF5_closeGroup(groupHandle(2))
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end do
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call HDF5_closeGroup(groupHandle(1))
end subroutine homogenization_restartRead
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!--------------------------------------------------------------------------------------------------
!> @brief parses the homogenization part from the material configuration
!--------------------------------------------------------------------------------------------------
subroutine parseHomogenization
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type(tDict), pointer :: &
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material_homogenization, &
homog, &
homogThermal, &
homogDamage
integer :: h
material_homogenization => config_material%get_dict('homogenization')
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allocate(thermal_type(size(material_name_homogenization)),source=THERMAL_UNDEFINED_ID)
allocate(thermal_active(size(material_name_homogenization)),source=.false.)
allocate(damage_active(size(material_name_homogenization)),source=.false.)
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do h=1, size(material_name_homogenization)
homog => material_homogenization%get_dict(h)
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if (homog%contains('thermal')) then
homogThermal => homog%get_dict('thermal')
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select case (homogThermal%get_asStr('type'))
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case('pass')
thermal_type(h) = THERMAL_PASS_ID
thermal_active(h) = .true.
case('isotemperature')
thermal_type(h) = THERMAL_ISOTEMPERATURE_ID
thermal_active(h) = .true.
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case default
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call IO_error(500,ext_msg=homogThermal%get_asStr('type'))
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end select
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end if
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if (homog%contains('damage')) then
homogDamage => homog%get_dict('damage')
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select case (homogDamage%get_asStr('type'))
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case('pass')
damage_active(h) = .true.
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case default
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call IO_error(500,ext_msg=homogDamage%get_asStr('type'))
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end select
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end if
end do
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end subroutine parseHomogenization
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end module homogenization