DAMASK_EICMD/code/damask.core.pyf

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! $Id$
! -*- f90 -*-
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! Note: the syntax of this file is case sensitive.
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! This file was auto-generated with f2py (version:2_5972).
! See http://cens.ioc.ee/projects/f2py2e/
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! The auto-generated file is quite heavily corrected
! For modifying, notice the following hints:
! - if the dimension of an array depend on a array that is itself an input, use the C-Syntax: (1) becomes [0] etc.
! - be sure that the precision defined is integer, real*8, and complex*16
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
python module core ! in
interface ! in :core
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module prec
subroutine prec_init
end subroutine prec_init
end module prec
module damask_interface ! in :damask_interface:DAMASK_spectral_interface.f90
subroutine DAMASK_interface_init(loadcaseParameterIn,geometryParameterIn) ! in :damask_interface:DAMASK_spectral_interface.f90
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character(len=1024), intent(in) :: loadcaseParameterIn
character(len=1024), intent(in) :: geometryParameterIn
end subroutine DAMASK_interface_init
end module damask_interface
module io
subroutine IO_init
end subroutine IO_init
end module io
module numerics
subroutine numerics_init
end subroutine numerics_init
end module numerics
module debug
subroutine debug_init
end subroutine debug_init
end module debug
module math ! in :math:math.f90
subroutine math_init
end subroutine math_init
function math_curlFFT(geomdim,field) ! in :math:math.f90
! input variables
real*8, dimension(3), intent(in) :: geomdim
real*8, dimension(:,:,:,:,:), intent(in), :: field
! function definition
real*8, dimension(size(field,1),size(field,2),size(field,3),size(field,4),size(field,5)), depend(field) :: math_curlFFT
end function math_curlFFT
function math_divergenceFFT(geomdim,field) ! in :math:math.f90
! input variables
real*8, dimension(3), intent(in) :: geomdim
real*8, dimension(:,:,:,:,:), intent(in), :: field
! function definition
real*8, dimension(size(field,1),size(field,2),size(field,3),size(field,4)), depend(field) :: math_divergenceFFT
end function math_divergenceFFT
function math_divergenceFDM(geomdim,order,field) ! in :math:math.f90
! input variables
real*8 dimension(3), intent(in) :: geomdim
integer, intent(in) :: order
real*8, dimension(:,:,:,:,:), intent(in), :: field
! function definition
real*8, dimension(size(field,1),size(field,2),size(field,3),size(field,4)), depend(field) :: math_divergenceFDM
end function math_divergenceFDM
function math_nearestNeighbor(querySet,domainSet) ! in :math:math.f90
! input variables
real*8, dimension(:,:), intent(in) :: querySet
real*8, dimension(:,:), intent(in) :: domainSet
! function definition
integer, dimension(size(querySet,2)), depend(querySet) :: math_nearestNeighbor
end function math_nearestNeighbor
function math_periodicNearestNeighbor(geomdim,Favg,querySet,domainSet) ! in :math:math.f90
! input variables
real*8, dimension(3), intent(in) :: geomdim
real*8, dimension(3,3), intent(in) :: Favg
real*8, dimension(:,:), intent(in) :: querySet
real*8, dimension(:,:), intent(in) :: domainSet
integer, dimension(size(querySet,2)), depend(querySet) :: math_periodicNearestNeighbor
! depending on input
real*8, dimension(size(domainSet,1),(3_pInt**size(domainSet,1))*size(domainSet,2)), depend(domainSet) :: domainSetLarge
end function math_periodicNearestNeighbor
function math_periodicNearestNeighborDistances(geomdim,Favg,querySet,domainSet,Ndist) ! in :math:math.f90
! input variables
real*8, dimension(3), intent(in) :: geomdim
real*8, dimension(3,3), intent(in) :: Favg
integer, intent(in) :: Ndist
real*8, dimension(:,:), intent(in) :: querySet
real*8, dimension(:,:), intent(in) :: domainSet
real*8, dimension(Ndist,size(querySet,2)), depend(Ndist,querySet) :: math_periodicNearestNeighborDistances
! depending on input
real*8, dimension(size(domainSet,1),(3_pInt**size(domainSet,1))*size(domainSet,2)), depend(domainSet) :: domainSetLarge
end function math_periodicNearestNeighborDistances
function math_tensorAvg(field) ! in :math:math.f90
! input variables
real*8 dimension(:,:,:,:,:), intent(in), :: field
! function definition
real*8 dimension(3,3), :: math_tensorAvg
end function math_tensorAvg
function math_logstrainSpat(F) ! in :math:math.f90
! input variables
real*8, dimension(:,:,:,:,:), intent(in) :: F
! output variables
real*8, dimension(3,3,size(F,3),size(F,4),size(F,5)), depend(F) :: math_logstrainSpat
end function math_logstrainSpat
function math_logstrainMat(F) ! in :math:math.f90
! input variables
real*8, dimension(:,:,:,:,:), intent(in) :: F
! function
real*8, dimension(3,3,size(F,3),size(F,4),size(F,5)), depend(F) :: math_logstrainMat
end function math_logstrainMat
function math_cauchy(F,P) ! in :math:math.f90
! input variables
real*8, dimension(:,:,:,:,:), intent(in) :: F
real*8, dimension(:,:,:,:,:), intent(in) :: P
! function
real*8, dimension(3,3,size(F,3),size(F,4),size(F,5)), depend(F) :: math_cauchy
end function math_cauchy
end module math
module fesolving
subroutine FE_init
end subroutine FE_init
end module fesolving
module mesh ! in :mesh:mesh.f90
subroutine mesh_init(ip,element)
integer, parameter :: ip = 1
integer, parameter :: element = 1
end subroutine mesh_init
function mesh_regrid(adaptive,resNewInput,minRes) ! in :mesh:mesh.f90
logical, intent(in) :: adaptive
integer, dimension(3) :: mesh_regrid
integer, dimension(3), intent(in), optional :: resNewInput = -1
integer, dimension(3), intent(in), optional :: minRes = -1
end function mesh_regrid
function mesh_nodesAroundCentres(gDim,Favg,centres) ! in :mesh:mesh.f90
real*8, dimension(:,:,:,:), intent(in) :: centres
real*8, dimension(3), intent(in) :: gDim
real*8, dimension(3,3), intent(in) :: Favg
real*8, dimension(3,size(centres,2)+1,size(centres,3)+1,size(centres,4)+1), depend(centres) :: mesh_nodesAroundCentres
real*8, dimension(3,size(centres,2)+1,size(centres,3)+1,size(centres,4)+1), depend(centres) :: wrappedCentres
end function mesh_nodesAroundCentres
function mesh_deformedCoordsLinear(gDim,F,FavgIn) ! in :mesh:mesh.f90
real*8, dimension(:,:,:,:,:), intent(in) :: F
real*8, dimension(3), intent(in) :: gDim
real*8, dimension(3,3), intent(in), optional :: FavgIn = -1.0
real*8, dimension(3,size(F,3),size(F,4),size(F,5)), depend(F) :: mesh_deformedCoordsLinear
real*8, dimension(3,0:size(F,3)-1,0:size(F,4)-1,0:size(F,5)-1,0:7), depend(F) :: coordsAvgOrder
end function mesh_deformedCoordsLinear
function mesh_deformedCoordsFFT(gDim,F,FavgIn,scalingIn) ! in :mesh:mesh.f90
real*8, dimension(:,:,:,:,:), intent(in) :: F
real*8, dimension(3), intent(in) :: gDim
real*8, dimension(3,3), intent(in), optional :: FavgIn = -1.0
real*8, dimension(3), intent(in), optional, :: scalingIn = -1.0
real*8, dimension(3,size(F,3),size(F,4),size(F,5)), depend(F) :: mesh_deformedCoordsFFT
end function mesh_deformedCoordsFFT
function mesh_volumeMismatch(gDim,F,nodes) ! in :mesh:mesh.f90
real*8, dimension(:,:,:,:,:), intent(in) :: F
real*8, dimension(:,:,:,:), intent(in) :: nodes
real*8, dimension(3), intent(in) :: gDim
real*8, dimension(size(F,3),size(F,4),size(F,5)), depend(F) :: mesh_volumeMismatch
end function mesh_volumeMismatch
function mesh_shapeMismatch(gDim,F,nodes,centres) ! in :mesh:mesh.f90
real*8, dimension(:,:,:,:,:), intent(in) :: F
real*8, dimension(:,:,:,:), intent(in) :: nodes
real*8, dimension(:,:,:,:), intent(in) :: centres
real*8, dimension(3), intent(in) :: gDim
real*8, dimension(size(F,3),size(F,4),size(F,5)), depend(F) :: mesh_shapeMismatch
end function mesh_shapeMismatch
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end module mesh
end interface
end python module core