262 lines
11 KiB
Fortran
262 lines
11 KiB
Fortran
module DAMASK_spectral_SolverBasic
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use, intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran >4.6 at the moment)
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use DAMASK_spectral_Utilities
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use math
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use mesh, only : &
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mesh_spectral_getResolution, &
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mesh_spectral_getDimension
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implicit none
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character (len=*), parameter, public :: &
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DAMASK_spectral_SolverBasic_label = 'basic'
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!--------------------------------------------------------------------------------------------------
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! common pointwise data
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real(pReal), dimension(:,:,:,:,:), allocatable :: F, F_lastInc, P
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real(pReal), dimension(:,:,:,:), allocatable :: coordinates
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real(pReal), dimension(:,:,:), allocatable :: temperature
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!--------------------------------------------------------------------------------------------------
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! stress, stiffness and compliance average etc.
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real(pReal), dimension(3,3) :: &
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F_aim = math_I3, &
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F_aim_lastInc = math_I3, &
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P_av
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real(pReal), dimension(3,3,3,3) :: &
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C_ref = 0.0_pReal, &
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C = 0.0_pReal
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contains
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subroutine basic_init()
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use IO, only: &
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IO_read_JobBinaryFile, &
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IO_write_JobBinaryFile
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use FEsolving, only: &
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restartInc
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use DAMASK_interface, only: &
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getSolverJobName
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implicit none
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integer(pInt) :: i,j,k
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res = mesh_spectral_getResolution()
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geomdim = mesh_spectral_getDimension()
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allocate (F ( res(1), res(2),res(3),3,3), source = 0.0_pReal)
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allocate (F_lastInc ( res(1), res(2),res(3),3,3), source = 0.0_pReal)
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allocate (P ( res(1), res(2),res(3),3,3), source = 0.0_pReal)
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allocate (coordinates( res(1), res(2),res(3),3), source = 0.0_pReal)
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allocate (temperature( res(1), res(2),res(3)), source = 0.0_pReal)
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!--------------------------------------------------------------------------------------------------
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! init fields
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if (restartInc == 1_pInt) then ! no deformation (no restart)
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do k = 1_pInt, res(3); do j = 1_pInt, res(2); do i = 1_pInt, res(1)
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F(i,j,k,1:3,1:3) = math_I3
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F_lastInc(i,j,k,1:3,1:3) = math_I3
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coordinates(i,j,k,1:3) = geomdim/real(res,pReal)*real([i,j,k],pReal) &
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- geomdim/real(2_pInt*res,pReal)
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enddo; enddo; enddo
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elseif (restartInc > 1_pInt) then ! using old values from file
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if (debugRestart) write(6,'(a,i6,a)') 'Reading values of increment ',&
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restartInc - 1_pInt,' from file'
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call IO_read_jobBinaryFile(777,'convergedSpectralDefgrad',&
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trim(getSolverJobName()),size(F))
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read (777,rec=1) F
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close (777)
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call IO_read_jobBinaryFile(777,'convergedSpectralDefgrad_lastInc',&
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trim(getSolverJobName()),size(F_lastInc))
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read (777,rec=1) F_lastInc
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close (777)
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call IO_read_jobBinaryFile(777,'F_aim',trim(getSolverJobName()),size(F_aim))
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read (777,rec=1) F_aim
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close (777)
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call IO_read_jobBinaryFile(777,'F_aim_lastInc',trim(getSolverJobName()),size(F_aim_lastInc))
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read (777,rec=1) F_aim_lastInc
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close (777)
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coordinates = 0.0 ! change it later!!!
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endif
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call constitutiveResponse(coordinates,F,F_lastInc,temperature,0.0_pReal,&
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P,C,P_av,.false.,math_I3)
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!--------------------------------------------------------------------------------------------------
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! reference stiffness
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if (restartInc == 1_pInt) then
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C_ref = C
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call IO_write_jobBinaryFile(777,'C_ref',size(C_ref))
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write (777,rec=1) C_ref
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close(777)
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elseif (restartInc > 1_pInt) then
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call IO_read_jobBinaryFile(777,'C_ref',trim(getSolverJobName()),size(C_ref))
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read (777,rec=1) C_ref
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close (777)
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endif
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call Utilities_Init(C_ref)
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end subroutine basic_init
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type(solutionState) function basic_solution(guessmode,timeinc,timeinc_old,P_BC,F_BC,mask_stressVector,velgrad,rotation_BC)
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use numerics, only: &
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itmax,&
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itmin
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use IO, only: &
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IO_write_JobBinaryFile
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use FEsolving, only: &
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restartWrite
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implicit none
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!--------------------------------------------------------------------------------------------------
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! input data for solution
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real(pReal), intent(in) :: timeinc, timeinc_old
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real(pReal), intent(in) :: guessmode
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logical, intent(in) :: velgrad
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real(pReal), dimension(3,3), intent(in) :: P_BC,F_BC,rotation_BC
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logical, dimension(9), intent(in) :: mask_stressVector
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!--------------------------------------------------------------------------------------------------
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! loop variables, convergence etc.
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real(pReal), dimension(3,3), parameter :: ones = 1.0_pReal, zeroes = 0.0_pReal
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real(pReal), dimension(3,3) :: temp33_Real
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real(pReal), dimension(3,3,3,3) :: S
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real(pReal), dimension(3,3) :: mask_stress, &
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mask_defgrad, &
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deltaF_aim, &
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F_aim_lab, &
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F_aim_lab_lastIter
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real(pReal) :: err_div, err_stress
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integer(pInt) :: iter
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integer(pInt) :: i, j, k
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logical :: ForwardData
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real(pReal) :: defgradDet
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real(pReal) :: defgradDetMax, defgradDetMin
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mask_stress = merge(ones,zeroes,reshape(mask_stressVector,[3,3]))
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mask_defgrad = merge(zeroes,ones,reshape(mask_stressVector,[3,3]))
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if (restartWrite) then
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write(6,'(a)') 'writing converged results for restart'
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call IO_write_jobBinaryFile(777,'convergedSpectralDefgrad',size(F_lastInc)) ! writing deformation gradient field to file
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write (777,rec=1) F_LastInc
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close (777)
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call IO_write_jobBinaryFile(777,'C',size(C))
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write (777,rec=1) C
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close(777)
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endif
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ForwardData = .True.
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if (velgrad) then ! calculate deltaF_aim from given L and current F
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deltaF_aim = timeinc * mask_defgrad * math_mul33x33(F_BC, F_aim)
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else ! deltaF_aim = fDot *timeinc where applicable
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deltaF_aim = timeinc * mask_defgrad * F_BC
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endif
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!--------------------------------------------------------------------------------------------------
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! winding forward of deformation aim in loadcase system
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temp33_Real = F_aim
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F_aim = F_aim &
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+ guessmode * mask_stress * (F_aim - F_aim_lastInc)*timeinc/timeinc_old &
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+ deltaF_aim
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F_aim_lastInc = temp33_Real
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F_aim_lab = math_rotate_backward33(F_aim,rotation_BC) ! boundary conditions from load frame into lab (Fourier) frame
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!--------------------------------------------------------------------------------------------------
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! update local deformation gradient and coordinates
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deltaF_aim = math_rotate_backward33(deltaF_aim,rotation_BC)
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do k = 1_pInt, res(3); do j = 1_pInt, res(2); do i = 1_pInt, res(1)
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temp33_Real = F(i,j,k,1:3,1:3)
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F(i,j,k,1:3,1:3) = F(i,j,k,1:3,1:3) & ! decide if guessing along former trajectory or apply homogeneous addon
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+ guessmode * (F(i,j,k,1:3,1:3) - F_lastInc(i,j,k,1:3,1:3))*timeinc/timeinc_old& ! guessing...
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+ (1.0_pReal-guessmode) * deltaF_aim ! if not guessing, use prescribed average deformation where applicable
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F_lastInc(i,j,k,1:3,1:3) = temp33_Real
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enddo; enddo; enddo
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call deformed_fft(res,geomdim,math_rotate_backward33(F_aim,rotation_BC),& ! calculate current coordinates
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1.0_pReal,F_lastInc,coordinates)
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iter = 0_pInt
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S = S_lastInc(rotation_BC,mask_stressVector,C)
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convergenceLoop: do while((iter < itmax .and. (any([err_div ,err_stress] > 1.0_pReal)))&
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.or. iter < itmin)
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iter = iter + 1_pInt
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!--------------------------------------------------------------------------------------------------
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! report begin of new iteration
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write(6,'(a)') ''
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write(6,'(a)') '=================================================================='
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write(6,'(3(a,i6.6))') ' @ Iter. ',itmin,' < ',iter,' < ',itmax
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write(6,'(a,/,3(3(f12.7,1x)/))',advance='no') 'deformation gradient aim =',&
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math_transpose33(F_aim)
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F_aim_lab_lastIter = math_rotate_backward33(F_aim,rotation_BC)
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!--------------------------------------------------------------------------------------------------
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! evaluate constitutive response
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call constitutiveResponse(coordinates,F,F_lastInc,temperature,timeinc,&
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P,C,P_av,ForwardData,rotation_BC)
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ForwardData = .False.
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!--------------------------------------------------------------------------------------------------
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! stress BC handling
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if(any(mask_stressVector)) then ! calculate stress BC if applied
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err_stress = BCcorrection(mask_stressVector,P_BC,P_av,F_aim,S)
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else
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err_stress = 0.0_pReal
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endif
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F_aim_lab = math_rotate_backward33(F_aim,rotation_BC) ! boundary conditions from load frame into lab (Fourier) frame
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!--------------------------------------------------------------------------------------------------
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! updated deformation gradient
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field_real(1:res(1),1:res(2),1:res(3),1:3,1:3) = P
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err_div = convolution(.True.,F_aim_lab_lastIter - F_aim_lab, C_ref)
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do k = 1_pInt, res(3); do j = 1_pInt, res(2); do i = 1_pInt, res(1)
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F(i,j,k,1:3,1:3) = F(i,j,k,1:3,1:3) - field_real(i,j,k,1:3,1:3) ! F(x)^(n+1) = F(x)^(n) + correction; *wgt: correcting for missing normalization
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enddo; enddo; enddo
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!--------------------------------------------------------------------------------------------------
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! calculate bounds of det(F) and report
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if(debugGeneral) then
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defgradDetMax = -huge(1.0_pReal)
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defgradDetMin = +huge(1.0_pReal)
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do k = 1_pInt, res(3); do j = 1_pInt, res(2); do i = 1_pInt, res(1)
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defgradDet = math_det33(F(i,j,k,1:3,1:3))
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defgradDetMax = max(defgradDetMax,defgradDet)
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defgradDetMin = min(defgradDetMin,defgradDet)
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enddo; enddo; enddo
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write(6,'(a,1x,es11.4)') 'max determinant of deformation =', defgradDetMax
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write(6,'(a,1x,es11.4)') 'min determinant of deformation =', defgradDetMin
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endif
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enddo convergenceLoop
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end function basic_solution
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subroutine basic_destroy()
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implicit none
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call Utilities_destroy()
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end subroutine basic_destroy
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end module DAMASK_spectral_SolverBasic
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