removed old HDF5 stuff encapsulated by ifdef preprocessor statements

This commit is contained in:
Martin Diehl 2016-04-22 11:40:21 +02:00
parent c57c76085f
commit 481e12e6c4
3 changed files with 0 additions and 582 deletions

View File

@ -6,10 +6,6 @@
!> @brief input/output functions, partly depending on chosen solver !> @brief input/output functions, partly depending on chosen solver
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
module IO module IO
#ifdef HDF
use hdf5, only: &
HID_T
#endif
use prec, only: & use prec, only: &
pInt, & pInt, &
pReal pReal
@ -18,22 +14,8 @@ module IO
private private
character(len=5), parameter, public :: & character(len=5), parameter, public :: &
IO_EOF = '#EOF#' !< end of file string IO_EOF = '#EOF#' !< end of file string
#ifdef HDF
integer(HID_T), public, protected :: tempCoordinates, tempResults
integer(HID_T), private :: resultsFile, tempFile
integer(pInt), private :: currentInc
#endif
public :: & public :: &
#ifdef HDF
HDF5_mappingConstitutive, &
HDF5_mappingHomogenization, &
HDF5_mappingCells, &
HDF5_addGroup ,&
HDF5_forwardResults, &
HDF5_addScalarDataset, &
IO_formatIntToString ,&
#endif
IO_init, & IO_init, &
IO_read, & IO_read, &
IO_checkAndRewind, & IO_checkAndRewind, &
@ -117,9 +99,6 @@ subroutine IO_init
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess endif mainProcess
#ifdef HDF
call HDF5_createJobFile
#endif
end subroutine IO_init end subroutine IO_init
@ -1944,526 +1923,4 @@ recursive function abaqus_assembleInputFile(unit1,unit2) result(createSuccess)
end function abaqus_assembleInputFile end function abaqus_assembleInputFile
#endif #endif
#ifdef HDF
!--------------------------------------------------------------------------------------------------
!> @brief creates and initializes HDF5 output files
!--------------------------------------------------------------------------------------------------
subroutine HDF5_createJobFile
use hdf5
use DAMASK_interface, only: &
getSolverWorkingDirectoryName, &
getSolverJobName
implicit none
integer :: hdferr
integer(SIZE_T) :: typeSize
character(len=1024) :: path
integer(HID_T) :: prp_id
integer(SIZE_T), parameter :: increment = 104857600 ! increase temp file in memory in 100MB steps
!--------------------------------------------------------------------------------------------------
! initialize HDF5 library and check if integer and float type size match
call h5open_f(hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_createJobFile: h5open_f')
call h5tget_size_f(H5T_NATIVE_INTEGER,typeSize, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_createJobFile: h5tget_size_f (int)')
if (int(pInt,SIZE_T)/=typeSize) call IO_error(0_pInt,ext_msg='pInt does not match H5T_NATIVE_INTEGER')
call h5tget_size_f(H5T_NATIVE_DOUBLE,typeSize, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_createJobFile: h5tget_size_f (double)')
if (int(pReal,SIZE_T)/=typeSize) call IO_error(0_pInt,ext_msg='pReal does not match H5T_NATIVE_DOUBLE')
!--------------------------------------------------------------------------------------------------
! open file
path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//'.'//'DAMASKout'
call h5fcreate_f(path,H5F_ACC_TRUNC_F,resultsFile,hdferr)
if (hdferr < 0) call IO_error(100_pInt,ext_msg=path)
call HDF5_addStringAttribute(resultsFile,'createdBy','$Id$')
!--------------------------------------------------------------------------------------------------
! open temp file
path = trim(getSolverWorkingDirectoryName())//trim(getSolverJobName())//'.'//'DAMASKoutTemp'
call h5pcreate_f(H5P_FILE_ACCESS_F, prp_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_createJobFile: h5pcreate_f')
call h5pset_fapl_core_f(prp_id, increment, .false., hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_createJobFile: h5pset_fapl_core_f')
call h5fcreate_f(path,H5F_ACC_TRUNC_F,tempFile,hdferr)
if (hdferr < 0) call IO_error(100_pInt,ext_msg=path)
!--------------------------------------------------------------------------------------------------
! create mapping groups in out file
call HDF5_closeGroup(HDF5_addGroup("mapping"))
call HDF5_closeGroup(HDF5_addGroup("results"))
call HDF5_closeGroup(HDF5_addGroup("coordinates"))
!--------------------------------------------------------------------------------------------------
! create results group in temp file
tempResults = HDF5_addGroup("results",tempFile)
tempCoordinates = HDF5_addGroup("coordinates",tempFile)
end subroutine HDF5_createJobFile
!--------------------------------------------------------------------------------------------------
!> @brief creates and initializes HDF5 output file
!--------------------------------------------------------------------------------------------------
subroutine HDF5_closeJobFile()
use hdf5
implicit none
integer :: hdferr
call h5fclose_f(resultsFile,hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_closeJobFile: h5fclose_f')
end subroutine HDF5_closeJobFile
!--------------------------------------------------------------------------------------------------
!> @brief adds a new group to the results file, or if loc is present at the given location
!--------------------------------------------------------------------------------------------------
integer(HID_T) function HDF5_addGroup(path,loc)
use hdf5
implicit none
character(len=*), intent(in) :: path
integer(HID_T), intent(in),optional :: loc
integer :: hdferr
if (present(loc)) then
call h5gcreate_f(loc, trim(path), HDF5_addGroup, hdferr)
else
call h5gcreate_f(resultsFile, trim(path), HDF5_addGroup, hdferr)
endif
if (hdferr < 0) call IO_error(1_pInt,ext_msg = 'HDF5_addGroup: h5gcreate_f ('//trim(path)//' )')
end function HDF5_addGroup
!--------------------------------------------------------------------------------------------------
!> @brief adds a new group to the results file
!--------------------------------------------------------------------------------------------------
integer(HID_T) function HDF5_openGroup(path)
use hdf5
implicit none
character(len=*), intent(in) :: path
integer :: hdferr
call h5gopen_f(resultsFile, trim(path), HDF5_openGroup, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg = 'HDF5_openGroup: h5gopen_f ('//trim(path)//' )')
end function HDF5_openGroup
!--------------------------------------------------------------------------------------------------
!> @brief closes a group
!--------------------------------------------------------------------------------------------------
subroutine HDF5_closeGroup(ID)
use hdf5
implicit none
integer(HID_T), intent(in) :: ID
integer :: hdferr
call h5gclose_f(ID, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg = 'HDF5_closeGroup: h5gclose_f')
end subroutine HDF5_closeGroup
!--------------------------------------------------------------------------------------------------
!> @brief adds a new group to the results file
!--------------------------------------------------------------------------------------------------
subroutine HDF5_addStringAttribute(entity,attrLabel,attrValue)
use hdf5
implicit none
integer(HID_T), intent(in) :: entity
character(len=*), intent(in) :: attrLabel, attrValue
integer :: hdferr
integer(HID_T) :: attr_id, space_id, type_id
call h5screate_f(H5S_SCALAR_F,space_id,hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5screate_f')
call h5tcopy_f(H5T_NATIVE_CHARACTER, type_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5tcopy_f')
call h5tset_size_f(type_id, int(len(trim(attrValue)),HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5tset_size_f')
call h5acreate_f(entity, trim(attrLabel),type_id,space_id,attr_id,hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5acreate_f')
call h5awrite_f(attr_id, type_id, trim(attrValue), int([1],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5awrite_f')
call h5aclose_f(attr_id,hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5aclose_f')
call h5sclose_f(space_id,hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_addStringAttribute: h5sclose_f')
end subroutine HDF5_addStringAttribute
!--------------------------------------------------------------------------------------------------
!> @brief adds the unique mapping from spatial position and constituent ID to results
!--------------------------------------------------------------------------------------------------
subroutine HDF5_mappingConstitutive(mapping)
use hdf5
implicit none
integer(pInt), intent(in), dimension(:,:,:) :: mapping
integer :: hdferr, NmatPoints,Nconstituents
integer(HID_T) :: mapping_id, dtype_id, dset_id, space_id,instance_id,position_id
Nconstituents=size(mapping,1)
NmatPoints=size(mapping,2)
mapping_ID = HDF5_openGroup("mapping")
!--------------------------------------------------------------------------------------------------
! create dataspace
call h5screate_simple_f(2, int([Nconstituents,NmatPoints],HSIZE_T), space_id, hdferr, &
int([Nconstituents,NmatPoints],HSIZE_T))
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive')
!--------------------------------------------------------------------------------------------------
! compound type
call h5tcreate_f(H5T_COMPOUND_F, 6_SIZE_T, dtype_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tcreate_f dtype_id')
call h5tinsert_f(dtype_id, "Constitutive Instance", 0_SIZE_T, H5T_STD_U16LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tinsert_f 0')
call h5tinsert_f(dtype_id, "Position in Instance Results", 2_SIZE_T, H5T_STD_U32LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tinsert_f 2')
!--------------------------------------------------------------------------------------------------
! create Dataset
call h5dcreate_f(mapping_id, "Constitutive", dtype_id, space_id, dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive')
!--------------------------------------------------------------------------------------------------
! Create memory types (one compound datatype for each member)
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), instance_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tcreate_f instance_id')
call h5tinsert_f(instance_id, "Constitutive Instance", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tinsert_f instance_id')
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), position_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tcreate_f position_id')
call h5tinsert_f(position_id, "Position in Instance Results", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tinsert_f position_id')
!--------------------------------------------------------------------------------------------------
! write data by fields in the datatype. Fields order is not important.
call h5dwrite_f(dset_id, position_id, mapping(1:Nconstituents,1:NmatPoints,1), &
int([Nconstituents, NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5dwrite_f position_id')
call h5dwrite_f(dset_id, instance_id, mapping(1:Nconstituents,1:NmatPoints,2), &
int([Nconstituents, NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5dwrite_f instance_id')
!--------------------------------------------------------------------------------------------------
!close types, dataspaces
call h5tclose_f(dtype_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tclose_f dtype_id')
call h5tclose_f(position_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tclose_f position_id')
call h5tclose_f(instance_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5tclose_f instance_id')
call h5dclose_f(dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5dclose_f')
call h5sclose_f(space_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5sclose_f')
call HDF5_closeGroup(mapping_ID)
end subroutine HDF5_mappingConstitutive
!--------------------------------------------------------------------------------------------------
!> @brief adds the unique mapping from spatial position and constituent ID to results
!--------------------------------------------------------------------------------------------------
subroutine HDF5_mappingCrystallite(mapping)
use hdf5
implicit none
integer(pInt), intent(in), dimension(:,:,:) :: mapping
integer :: hdferr, NmatPoints,Nconstituents
integer(HID_T) :: mapping_id, dtype_id, dset_id, space_id,instance_id,position_id
Nconstituents=size(mapping,1)
NmatPoints=size(mapping,2)
mapping_ID = HDF5_openGroup("mapping")
!--------------------------------------------------------------------------------------------------
! create dataspace
call h5screate_simple_f(2, int([Nconstituents,NmatPoints],HSIZE_T), space_id, hdferr, &
int([Nconstituents,NmatPoints],HSIZE_T))
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite')
!--------------------------------------------------------------------------------------------------
! compound type
call h5tcreate_f(H5T_COMPOUND_F, 6_SIZE_T, dtype_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tcreate_f dtype_id')
call h5tinsert_f(dtype_id, "Crystallite Instance", 0_SIZE_T, H5T_STD_U16LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tinsert_f 0')
call h5tinsert_f(dtype_id, "Position in Instance Results", 2_SIZE_T, H5T_STD_U32LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tinsert_f 2')
!--------------------------------------------------------------------------------------------------
! create Dataset
call h5dcreate_f(mapping_id, "Crystallite", dtype_id, space_id, dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite')
!--------------------------------------------------------------------------------------------------
! Create memory types (one compound datatype for each member)
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), instance_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tcreate_f instance_id')
call h5tinsert_f(instance_id, "Crystallite Instance", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tinsert_f instance_id')
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), position_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tcreate_f position_id')
call h5tinsert_f(position_id, "Position in Instance Results", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tinsert_f position_id')
!--------------------------------------------------------------------------------------------------
! write data by fields in the datatype. Fields order is not important.
call h5dwrite_f(dset_id, position_id, mapping(1:Nconstituents,1:NmatPoints,1), &
int([Nconstituents, NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5dwrite_f position_id')
call h5dwrite_f(dset_id, instance_id, mapping(1:Nconstituents,1:NmatPoints,2), &
int([Nconstituents, NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5dwrite_f instance_id')
!--------------------------------------------------------------------------------------------------
!close types, dataspaces
call h5tclose_f(dtype_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tclose_f dtype_id')
call h5tclose_f(position_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tclose_f position_id')
call h5tclose_f(instance_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5tclose_f instance_id')
call h5dclose_f(dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5dclose_f')
call h5sclose_f(space_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCrystallite: h5sclose_f')
call HDF5_closeGroup(mapping_ID)
end subroutine HDF5_mappingCrystallite
!--------------------------------------------------------------------------------------------------
!> @brief adds the unique mapping from spatial position to results
!--------------------------------------------------------------------------------------------------
subroutine HDF5_mappingHomogenization(mapping)
use hdf5
implicit none
integer(pInt), intent(in), dimension(:,:) :: mapping
integer :: hdferr, NmatPoints
integer(HID_T) :: mapping_id, dtype_id, dset_id, space_id,instance_id,position_id,elem_id,ip_id
NmatPoints=size(mapping,1)
mapping_ID = HDF5_openGroup("mapping")
!--------------------------------------------------------------------------------------------------
! create dataspace
call h5screate_simple_f(1, int([NmatPoints],HSIZE_T), space_id, hdferr, &
int([NmatPoints],HSIZE_T))
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization')
!--------------------------------------------------------------------------------------------------
! compound type
call h5tcreate_f(H5T_COMPOUND_F, 11_SIZE_T, dtype_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tcreate_f dtype_id')
call h5tinsert_f(dtype_id, "Homogenization Instance", 0_SIZE_T, H5T_STD_U16LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f 0')
call h5tinsert_f(dtype_id, "Position in Instance Results", 2_SIZE_T, H5T_STD_U32LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f 2')
call h5tinsert_f(dtype_id, "Element Number", 6_SIZE_T, H5T_STD_U32LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f 6')
call h5tinsert_f(dtype_id, "Material Point Number", 10_SIZE_T, H5T_STD_U8LE, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f 10')
!--------------------------------------------------------------------------------------------------
! create Dataset
call h5dcreate_f(mapping_id, "Homogenization", dtype_id, space_id, dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization')
!--------------------------------------------------------------------------------------------------
! Create memory types (one compound datatype for each member)
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), instance_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tcreate_f instance_id')
call h5tinsert_f(instance_id, "Homogenization Instance", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f instance_id')
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), position_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tcreate_f position_id')
call h5tinsert_f(position_id, "Position in Instance Results", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f position_id')
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), elem_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tcreate_f elem_id')
call h5tinsert_f(elem_id, "Element Number", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f elem_id')
call h5tcreate_f(H5T_COMPOUND_F, int(pInt,SIZE_T), ip_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tcreate_f ip_id')
call h5tinsert_f(ip_id, "Material Point Number", 0_SIZE_T, H5T_NATIVE_INTEGER, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tinsert_f ip_id')
!--------------------------------------------------------------------------------------------------
! write data by fields in the datatype. Fields order is not important.
call h5dwrite_f(dset_id, position_id, mapping(1:NmatPoints,1), &
int([NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5dwrite_f position_id')
call h5dwrite_f(dset_id, instance_id, mapping(1:NmatPoints,2), &
int([NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5dwrite_f position_id')
call h5dwrite_f(dset_id, elem_id, mapping(1:NmatPoints,3), &
int([NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5dwrite_f elem_id')
call h5dwrite_f(dset_id, ip_id, mapping(1:NmatPoints,4), &
int([NmatPoints],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5dwrite_f ip_id')
!--------------------------------------------------------------------------------------------------
!close types, dataspaces
call h5tclose_f(dtype_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tclose_f dtype_id')
call h5tclose_f(position_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tclose_f position_id')
call h5tclose_f(instance_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tclose_f instance_id')
call h5tclose_f(ip_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tclose_f ip_id')
call h5tclose_f(elem_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5tclose_f elem_id')
call h5dclose_f(dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5dclose_f')
call h5sclose_f(space_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingHomogenization: h5sclose_f')
call HDF5_closeGroup(mapping_ID)
end subroutine HDF5_mappingHomogenization
!--------------------------------------------------------------------------------------------------
!> @brief adds the unique cell to node mapping
!--------------------------------------------------------------------------------------------------
subroutine HDF5_mappingCells(mapping)
use hdf5
implicit none
integer(pInt), intent(in), dimension(:) :: mapping
integer :: hdferr, Nnodes
integer(HID_T) :: mapping_id, dset_id, space_id
Nnodes=size(mapping)
mapping_ID = HDF5_openGroup("mapping")
!--------------------------------------------------------------------------------------------------
! create dataspace
call h5screate_simple_f(1, int([Nnodes],HSIZE_T), space_id, hdferr, &
int([Nnodes],HSIZE_T))
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCells: h5screate_simple_f')
!--------------------------------------------------------------------------------------------------
! create Dataset
call h5dcreate_f(mapping_id, "Cell",H5T_NATIVE_INTEGER, space_id, dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCells')
!--------------------------------------------------------------------------------------------------
! write data by fields in the datatype. Fields order is not important.
call h5dwrite_f(dset_id, H5T_NATIVE_INTEGER, mapping, int([Nnodes],HSIZE_T), hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingCells: h5dwrite_f instance_id')
!--------------------------------------------------------------------------------------------------
!close types, dataspaces
call h5dclose_f(dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5dclose_f')
call h5sclose_f(space_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='IO_mappingConstitutive: h5sclose_f')
call HDF5_closeGroup(mapping_ID)
end subroutine HDF5_mappingCells
!--------------------------------------------------------------------------------------------------
!> @brief creates a new scalar dataset in the given group location
!--------------------------------------------------------------------------------------------------
subroutine HDF5_addScalarDataset(group,nnodes,label,SIunit)
use hdf5
implicit none
integer(HID_T), intent(in) :: group
integer(pInt), intent(in) :: nnodes
character(len=*), intent(in) :: SIunit,label
integer :: hdferr
integer(HID_T) :: dset_id, space_id
!--------------------------------------------------------------------------------------------------
! create dataspace
call h5screate_simple_f(1, int([Nnodes],HSIZE_T), space_id, hdferr, &
int([Nnodes],HSIZE_T))
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_addScalarDataset: h5screate_simple_f')
!--------------------------------------------------------------------------------------------------
! create Dataset
call h5dcreate_f(group, trim(label),H5T_NATIVE_DOUBLE, space_id, dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_addScalarDataset: h5dcreate_f')
call HDF5_addStringAttribute(dset_id,'unit',trim(SIunit))
!--------------------------------------------------------------------------------------------------
!close types, dataspaces
call h5dclose_f(dset_id, hdferr)
if (hdferr < 0) call IO_error(1_pInt,ext_msg='HDF5_addScalarDataset: h5dclose_f')
call h5sclose_f(space_id, hdferr)
end subroutine HDF5_addScalarDataset
!--------------------------------------------------------------------------------------------------
!> @brief returns nicely formatted string of integer value
!--------------------------------------------------------------------------------------------------
function IO_formatIntToString(myInt)
implicit none
integer(pInt), intent(in) :: myInt
character(len=1_pInt + int(log10(real(myInt)),pInt)) :: IO_formatIntToString
write(IO_formatIntToString,'('//IO_intOut(myInt)//')') myInt
end function
!--------------------------------------------------------------------------------------------------
!> @brief copies the current temp results to the actual results file
!--------------------------------------------------------------------------------------------------
subroutine HDF5_forwardResults
use hdf5
implicit none
integer :: hdferr
integer(HID_T) :: new_loc_id
new_loc_id = HDF5_openGroup("results")
currentInc = currentInc + 1_pInt
call h5ocopy_f(tempFile, 'results', new_loc_id,dst_name=IO_formatIntToString(currentInc), hdferr=hdferr)
if (hdferr < 0_pInt) call IO_error(1_pInt,ext_msg='HDF5_forwardResults: h5ocopy_f')
call HDF5_closeGroup(new_loc_id)
end subroutine HDF5_forwardResults
#endif
end module IO end module IO

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@ -71,12 +71,6 @@ contains
!> @brief module initialization !> @brief module initialization
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
subroutine homogenization_init subroutine homogenization_init
#ifdef HDF
use hdf5, only: &
HID_T
use IO, only : &
HDF5_mappingHomogenization
#endif
use, intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran 4.6 at the moment) use, intrinsic :: iso_fortran_env ! to get compiler_version and compiler_options (at least for gfortran 4.6 at the moment)
use math, only: & use math, only: &
math_I3 math_I3
@ -131,12 +125,6 @@ subroutine homogenization_init
character(len=64), dimension(:,:), pointer :: thisOutput character(len=64), dimension(:,:), pointer :: thisOutput
character(len=32) :: outputName !< name of output, intermediate fix until HDF5 output is ready character(len=32) :: outputName !< name of output, intermediate fix until HDF5 output is ready
logical :: knownHomogenization, knownThermal, knownDamage, knownVacancyflux, knownPorosity, knownHydrogenflux logical :: knownHomogenization, knownThermal, knownDamage, knownVacancyflux, knownPorosity, knownHydrogenflux
#ifdef HDF
integer(pInt), dimension(:,:), allocatable :: mapping
integer(pInt), dimension(:), allocatable :: InstancePosition
allocate(mapping(mesh_ncpelems,4),source=0_pInt)
allocate(InstancePosition(material_Nhomogenization),source=0_pInt)
#endif
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
@ -396,17 +384,6 @@ subroutine homogenization_init
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
! allocate and initialize global state and postresutls variables ! allocate and initialize global state and postresutls variables
#ifdef HDF
elementLooping: do e = 1,mesh_NcpElems
myInstance = homogenization_typeInstance(mesh_element(3,e))
IpLooping: do i = 1,FE_Nips(FE_geomtype(mesh_element(2,e)))
InstancePosition(myInstance) = InstancePosition(myInstance)+1_pInt
mapping(e,1:4) = [instancePosition(myinstance),myinstance,e,i]
enddo IpLooping
enddo elementLooping
call HDF5_mappingHomogenization(mapping)
#endif
homogenization_maxSizePostResults = 0_pInt homogenization_maxSizePostResults = 0_pInt
thermal_maxSizePostResults = 0_pInt thermal_maxSizePostResults = 0_pInt
damage_maxSizePostResults = 0_pInt damage_maxSizePostResults = 0_pInt

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@ -4525,17 +4525,9 @@ subroutine mesh_write_cellGeom
VTK_geo, & VTK_geo, &
VTK_con, & VTK_con, &
VTK_end VTK_end
#ifdef HDF
use IO, only: &
HDF5_mappingCells
#endif
implicit none implicit none
integer(I4P), dimension(1:mesh_Ncells) :: celltype integer(I4P), dimension(1:mesh_Ncells) :: celltype
integer(I4P), dimension(mesh_Ncells*(1_pInt+FE_maxNcellnodesPerCell)) :: cellconnection integer(I4P), dimension(mesh_Ncells*(1_pInt+FE_maxNcellnodesPerCell)) :: cellconnection
#ifdef HDF
integer(pInt), dimension(mesh_Ncells*FE_maxNcellnodesPerCell) :: cellconnectionHDF5
integer(pInt) :: j2=0_pInt
#endif
integer(I4P):: error integer(I4P):: error
integer(I4P):: g, c, e, CellID, i, j integer(I4P):: g, c, e, CellID, i, j
@ -4550,16 +4542,8 @@ subroutine mesh_write_cellGeom
cellconnection(j+1_pInt:j+FE_NcellnodesPerCell(c)+1_pInt) & cellconnection(j+1_pInt:j+FE_NcellnodesPerCell(c)+1_pInt) &
= [FE_NcellnodesPerCell(c),mesh_cell(1:FE_NcellnodesPerCell(c),i,e)-1_pInt] ! number of cellnodes per cell & list of global cellnode IDs belnging to this cell (cellnode counting starts at 0) = [FE_NcellnodesPerCell(c),mesh_cell(1:FE_NcellnodesPerCell(c),i,e)-1_pInt] ! number of cellnodes per cell & list of global cellnode IDs belnging to this cell (cellnode counting starts at 0)
j = j + FE_NcellnodesPerCell(c) + 1_pInt j = j + FE_NcellnodesPerCell(c) + 1_pInt
#ifdef HDF
cellconnectionHDF5(j2+1_pInt:j2+FE_NcellnodesPerCell(c)) &
= mesh_cell(1:FE_NcellnodesPerCell(c),i,e)-1_pInt
j2=j2 + FE_ncellnodesPerCell(c)
#endif
enddo enddo
enddo enddo
#ifdef HDF
call HDF5_mappingCells(cellconnectionHDF5(1:j2))
#endif
error=VTK_ini(output_format = 'ASCII', & error=VTK_ini(output_format = 'ASCII', &
title=trim(getSolverJobName())//' cell mesh', & title=trim(getSolverJobName())//' cell mesh', &