DAMASK_EICMD/src/config.f90

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!--------------------------------------------------------------------------------------------------
!> @author Martin Diehl, Max-Planck-Institut für Eisenforschung GmbH
!> @brief Reads in the material configuration from file
!> @details Reads the material configuration file, where solverJobName.materialConfig takes
!! precedence over material.config. Stores the raw strings and the positions of delimiters for the
!! parts 'homogenization', 'crystallite', 'phase', 'texture', and 'microstucture'
!--------------------------------------------------------------------------------------------------
module config
use prec, only: &
pReal, &
pInt
implicit none
private
type, private :: tPartitionedString
character(len=:), allocatable :: val
integer(pInt), dimension(:), allocatable :: pos
end type tPartitionedString
type, public :: tPartitionedStringList
type(tPartitionedString) :: string
type(tPartitionedStringList), pointer :: next => null()
contains
procedure :: add => add
procedure :: show => show
procedure :: free => free
! currently, a finalize is needed for all shapes of tPartitionedStringList.
! with Fortran 2015, we can define one recursive elemental function
! https://software.intel.com/en-us/forums/intel-visual-fortran-compiler-for-windows/topic/543326
final :: finalize, &
finalizeArray
procedure :: keyExists => keyExists
procedure :: countKeys => countKeys
procedure :: getFloat => getFloat
procedure :: getInt => getInt
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procedure :: getString => getString
procedure :: getFloats => getFloats
procedure :: getInts => getInts
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procedure :: getStrings => getStrings
end type tPartitionedStringList
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type(tPartitionedStringList), public, protected, allocatable, dimension(:) :: &
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config_phase, &
config_microstructure, &
config_homogenization, &
config_texture, &
config_crystallite
character(len=64), dimension(:), allocatable, public, protected :: &
phase_name, & !< name of each phase
homogenization_name, & !< name of each homogenization
crystallite_name, & !< name of each crystallite setting
microstructure_name, & !< name of each microstructure
texture_name !< name of each texture
! ToDo: make private, no one needs to know that
character(len=*), parameter, public :: &
MATERIAL_partHomogenization = 'homogenization', & !< keyword for homogenization part
MATERIAL_partCrystallite = 'crystallite', & !< keyword for crystallite part
MATERIAL_partPhase = 'phase', & !< keyword for phase part
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MATERIAL_partMicrostructure = 'microstructure' !< keyword for microstructure part
character(len=*), parameter, private :: &
MATERIAL_partTexture = 'texture' !< keyword for texture part
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! ToDo: Remove, use size(config_phase) etc
integer(pInt), public, protected :: &
material_Nphase, & !< number of phases
material_Nhomogenization, & !< number of homogenizations
material_Nmicrostructure, & !< number of microstructures
material_Ncrystallite !< number of crystallite settings
! ToDo: make private, no one needs to know that
character(len=*), parameter, public :: &
MATERIAL_configFile = 'material.config', & !< generic name for material configuration file
MATERIAL_localFileExt = 'materialConfig' !< extension of solver job name depending material configuration file
public :: &
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config_init, &
config_deallocate
contains
!--------------------------------------------------------------------------------------------------
!> @brief reads material.config and stores its content per part
!--------------------------------------------------------------------------------------------------
subroutine config_init()
#if defined(__GFORTRAN__) || __INTEL_COMPILER >= 1800
use, intrinsic :: iso_fortran_env, only: &
compiler_version, &
compiler_options
#endif
use prec, only: &
pStringLen
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use DAMASK_interface, only: &
getSolverJobName
use IO, only: &
IO_error, &
IO_lc, &
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IO_recursiveRead, &
IO_getTag, &
IO_timeStamp, &
IO_EOF
use debug, only: &
debug_level, &
debug_material, &
debug_levelBasic
implicit none
integer(pInt) :: myDebug,i
character(len=pStringLen) :: &
line, &
part
character(len=pStringLen), dimension(:), allocatable :: fileContent
logical :: fileExists
write(6,'(/,a)') ' <<<+- config init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90"
myDebug = debug_level(debug_material)
inquire(file=trim(getSolverJobName())//'.'//material_localFileExt,exist=fileExists)
if(fileExists) then
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fileContent = IO_recursiveRead(trim(getSolverJobName())//'.'//material_localFileExt)
else
inquire(file='material.config',exist=fileExists)
if(.not. fileExists) call IO_error(100_pInt,ext_msg='material.config')
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fileContent = IO_recursiveRead('material.config')
endif
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do i = 1_pInt, size(fileContent)
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line = trim(fileContent(i))
part = IO_lc(IO_getTag(line,'<','>'))
select case (trim(part))
case (trim(material_partPhase))
call parseFile(phase_name,config_phase,line,fileContent(i+1:))
if (iand(myDebug,debug_levelBasic) /= 0_pInt) write(6,'(a)') ' Phase parsed'; flush(6)
case (trim(material_partMicrostructure))
call parseFile(microstructure_name,config_microstructure,line,fileContent(i+1:))
if (iand(myDebug,debug_levelBasic) /= 0_pInt) write(6,'(a)') ' Microstructure parsed'; flush(6)
case (trim(material_partCrystallite))
call parseFile(crystallite_name,config_crystallite,line,fileContent(i+1:))
if (iand(myDebug,debug_levelBasic) /= 0_pInt) write(6,'(a)') ' Crystallite parsed'; flush(6)
case (trim(material_partHomogenization))
call parseFile(homogenization_name,config_homogenization,line,fileContent(i+1:))
if (iand(myDebug,debug_levelBasic) /= 0_pInt) write(6,'(a)') ' Homogenization parsed'; flush(6)
case (trim(material_partTexture))
call parseFile(texture_name,config_texture,line,fileContent(i+1:))
if (iand(myDebug,debug_levelBasic) /= 0_pInt) write(6,'(a)') ' Texture parsed'; flush(6)
end select
enddo
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material_Nhomogenization = size(config_homogenization)
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if (material_Nhomogenization < 1_pInt) call IO_error(160_pInt,ext_msg=material_partHomogenization)
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material_Nmicrostructure = size(config_microstructure)
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if (material_Nmicrostructure < 1_pInt) call IO_error(160_pInt,ext_msg=material_partMicrostructure)
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material_Ncrystallite = size(config_crystallite)
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if (material_Ncrystallite < 1_pInt) call IO_error(160_pInt,ext_msg=material_partCrystallite)
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material_Nphase = size(config_phase)
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if (material_Nphase < 1_pInt) call IO_error(160_pInt,ext_msg=material_partPhase)
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if (size(config_texture) < 1_pInt) call IO_error(160_pInt,ext_msg=material_partTexture)
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end subroutine config_init
!--------------------------------------------------------------------------------------------------
!> @brief parses the material.config file
!--------------------------------------------------------------------------------------------------
subroutine parseFile(sectionNames,part,line, &
fileContent)
use prec, only: &
pStringLen
use IO, only: &
IO_error, &
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IO_getTag
implicit none
character(len=64), allocatable, dimension(:), intent(out) :: sectionNames
type(tPartitionedStringList), allocatable, dimension(:), intent(inout) :: part
character(len=pStringLen), intent(inout) :: line
character(len=pStringLen), dimension(:), intent(in) :: fileContent
integer(pInt), allocatable, dimension(:) :: partPosition ! position of [] tags + last line in section
integer(pInt) :: i, j
logical :: echo
echo = .false.
if (allocated(part)) call IO_error(161_pInt,ext_msg=trim(line))
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allocate(partPosition(0))
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do i = 1_pInt, size(fileContent)
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line = trim(fileContent(i))
if (IO_getTag(line,'<','>') /= '') exit
nextSection: if (IO_getTag(line,'[',']') /= '') then
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partPosition = [partPosition, i]
cycle
endif nextSection
if (size(partPosition) < 1_pInt) &
echo = (trim(IO_getTag(line,'/','/')) == 'echo') .or. echo
enddo
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allocate(sectionNames(size(partPosition)))
allocate(part(size(partPosition)))
partPosition = [partPosition, i] ! needed when actually storing content
do i = 1_pInt, size(partPosition) -1_pInt
sectionNames(i) = trim(adjustl(fileContent(partPosition(i))))
do j = partPosition(i) + 1_pInt, partPosition(i+1) -1_pInt
call part(i)%add(trim(adjustl(fileContent(j))))
enddo
if (echo) then
write(6,*) 'section',i, '"'//trim(sectionNames(i))//'"'
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call part(i)%show()
endif
enddo
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end subroutine parseFile
!--------------------------------------------------------------------------------------------------
!> @brief deallocates the linked lists that store the content of the configuration files
!--------------------------------------------------------------------------------------------------
subroutine config_deallocate(what)
use IO, only: &
IO_error
implicit none
character(len=*), intent(in) :: what
select case(trim(what))
case('material.config/phase')
deallocate(config_phase)
case('material.config/microstructure')
deallocate(config_microstructure)
case('material.config/crystallite')
deallocate(config_crystallite)
case('material.config/homogenization')
deallocate(config_homogenization)
case('material.config/texture')
deallocate(config_texture)
case default
call IO_error(0_pInt,ext_msg='config_deallocate')
end select
end subroutine config_deallocate
!##################################################################################################
! The folowing functions are part of the tPartitionedStringList object
!##################################################################################################
!--------------------------------------------------------------------------------------------------
!> @brief add element
!> @details Adds a string together with the start/end position of chunks in this string. The new
!! element is added at the end of the list. Empty strings are not added. All strings are converted
!! to lower case. The data is not stored in the new element but in the current.
!--------------------------------------------------------------------------------------------------
subroutine add(this,string)
use IO, only: &
IO_isBlank, &
IO_lc, &
IO_stringPos
implicit none
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: string
type(tPartitionedStringList), pointer :: new, temp
if (IO_isBlank(string)) return
allocate(new)
temp => this
do while (associated(temp%next))
temp => temp%next
enddo
temp%string%val = IO_lc (trim(string))
temp%string%pos = IO_stringPos(trim(string))
temp%next => new
end subroutine add
!--------------------------------------------------------------------------------------------------
!> @brief prints all elements
!> @details Strings are printed in order of insertion (FIFO)
!--------------------------------------------------------------------------------------------------
subroutine show(this)
implicit none
class(tPartitionedStringList), target, intent(in) :: this
type(tPartitionedStringList), pointer :: item
item => this
do while (associated(item%next))
write(6,'(a)') ' '//trim(item%string%val)
item => item%next
end do
end subroutine show
!--------------------------------------------------------------------------------------------------
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!> @brief empties list and frees associated memory
!> @details explicit interface to reset list. Triggers final statement (and following chain reaction)
!--------------------------------------------------------------------------------------------------
subroutine free(this)
implicit none
class(tPartitionedStringList), intent(inout) :: this
if(associated(this%next)) deallocate(this%next)
end subroutine free
!--------------------------------------------------------------------------------------------------
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!> @brief empties list and frees associated memory
!> @details called when variable goes out of scope. Triggers chain reaction for list
!--------------------------------------------------------------------------------------------------
recursive subroutine finalize(this)
implicit none
type(tPartitionedStringList), intent(inout) :: this
if(associated(this%next)) deallocate(this%next)
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end subroutine finalize
!--------------------------------------------------------------------------------------------------
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!> @brief cleans entire array of linke lists
!> @details called when variable goes out of scope and deallocates the list at each array entry
!--------------------------------------------------------------------------------------------------
subroutine finalizeArray(this)
implicit none
integer :: i
type(tPartitionedStringList), intent(inout), dimension(:) :: this
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type(tPartitionedStringList), pointer :: temp ! bug in Gfortran?
do i=1, size(this)
if (associated(this(i)%next)) then
temp => this(i)%next
!deallocate(this(i)) !internal compiler error: in gfc_build_final_call, at fortran/trans.c:975
deallocate(temp)
endif
enddo
end subroutine finalizeArray
!--------------------------------------------------------------------------------------------------
!> @brief reports wether a given key (string value at first position) exists in the list
!--------------------------------------------------------------------------------------------------
logical function keyExists(this,key)
use IO, only: &
IO_stringValue
implicit none
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: key
type(tPartitionedStringList), pointer :: item
keyExists = .false.
item => this
do while (associated(item%next) .and. .not. keyExists)
keyExists = trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)
item => item%next
end do
end function keyExists
!--------------------------------------------------------------------------------------------------
!> @brief count number of key appearances
!> @details traverses list and counts each occurrence of specified key
!--------------------------------------------------------------------------------------------------
integer(pInt) function countKeys(this,key)
use IO, only: &
IO_stringValue
implicit none
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: key
type(tPartitionedStringList), pointer :: item
countKeys = 0_pInt
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) &
countKeys = countKeys + 1_pInt
item => item%next
end do
end function countKeys
!--------------------------------------------------------------------------------------------------
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!> @brief gets float value of for a given key from a linked list
!> @details gets the last value if the key occurs more than once. If key is not found exits with
!! error unless default is given
!--------------------------------------------------------------------------------------------------
real(pReal) function getFloat(this,key,defaultVal)
use IO, only : &
IO_error, &
IO_stringValue, &
IO_FloatValue
implicit none
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: key
real(pReal), intent(in), optional :: defaultVal
type(tPartitionedStringList), pointer :: item
logical :: found
found = present(defaultVal)
if (found) getFloat = defaultVal
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) then
found = .true.
if (item%string%pos(1) < 2_pInt) call IO_error(143_pInt,ext_msg=key)
getFloat = IO_FloatValue(item%string%val,item%string%pos,2)
endif
item => item%next
end do
if (.not. found) call IO_error(140_pInt,ext_msg=key)
end function getFloat
!--------------------------------------------------------------------------------------------------
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!> @brief gets integer value of for a given key from a linked list
!> @details gets the last value if the key occurs more than once. If key is not found exits with
!! error unless default is given
!--------------------------------------------------------------------------------------------------
integer(pInt) function getInt(this,key,defaultVal)
use IO, only: &
IO_error, &
IO_stringValue, &
IO_IntValue
implicit none
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: key
integer(pInt), intent(in), optional :: defaultVal
type(tPartitionedStringList), pointer :: item
logical :: found
found = present(defaultVal)
if (found) getInt = defaultVal
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) then
found = .true.
if (item%string%pos(1) < 2_pInt) call IO_error(143_pInt,ext_msg=key)
getInt = IO_IntValue(item%string%val,item%string%pos,2)
endif
item => item%next
end do
if (.not. found) call IO_error(140_pInt,ext_msg=key)
end function getInt
!--------------------------------------------------------------------------------------------------
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!> @brief gets string value of for a given key from a linked list
!> @details gets the last value if the key occurs more than once. If key is not found exits with
!! error unless default is given. If raw is true, the the complete string is returned, otherwise
!! the individual chunks are returned
!--------------------------------------------------------------------------------------------------
character(len=65536) function getString(this,key,defaultVal,raw)
use IO, only: &
IO_error, &
IO_stringValue
implicit none
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: key
character(len=65536), intent(in), optional :: defaultVal
logical, intent(in), optional :: raw
type(tPartitionedStringList), pointer :: item
logical :: found, &
whole
whole = merge(raw,.false.,present(raw)) ! whole string or white space splitting
found = present(defaultVal)
if (found) then
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getString = trim(defaultVal)
if (len_trim(getString) /= len_trim(defaultVal)) call IO_error(0_pInt,ext_msg='getString')
endif
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) then
found = .true.
if (item%string%pos(1) < 2_pInt) call IO_error(143_pInt,ext_msg=key)
if (whole) then
getString = trim(item%string%val(item%string%pos(4):)) ! raw string starting a second chunk
else
getString = IO_StringValue(item%string%val,item%string%pos,2)
endif
endif
item => item%next
end do
if (.not. found) call IO_error(140_pInt,ext_msg=key)
end function getString
!--------------------------------------------------------------------------------------------------
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!> @brief gets array of float values of for a given key from a linked list
!> @details for cumulative keys, "()", values from all occurrences are return. Otherwise only all
!! values from the last occurrence. If key is not found exits with error unless default is given.
!--------------------------------------------------------------------------------------------------
function getFloats(this,key,defaultVal,requiredShape)
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use IO, only: &
IO_error, &
IO_stringValue, &
IO_FloatValue
implicit none
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real(pReal), dimension(:), allocatable :: getFloats
class(tPartitionedStringList), target, intent(in) :: this
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character(len=*), intent(in) :: key
real(pReal), dimension(:), intent(in), optional :: defaultVal
integer(pInt), dimension(:), intent(in), optional :: requiredShape
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type(tPartitionedStringList), pointer :: item
integer(pInt) :: i
logical :: found, &
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cumulative
cumulative = (key(1:1) == '(' .and. key(len_trim(key):len_trim(key)) == ')')
found = .false.
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allocate(getFloats(0))
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) then
found = .true.
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if (.not. cumulative) getFloats = [real(pReal)::]
if (item%string%pos(1) < 2_pInt) call IO_error(143_pInt,ext_msg=key)
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do i = 2_pInt, item%string%pos(1)
getFloats = [getFloats,IO_FloatValue(item%string%val,item%string%pos,i)]
enddo
endif
item => item%next
end do
if (.not. found) then
if (present(defaultVal)) then; getFloats = defaultVal; else; call IO_error(140_pInt,ext_msg=key); endif
endif
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end function getFloats
!--------------------------------------------------------------------------------------------------
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!> @brief gets array of integer values of for a given key from a linked list
!> @details for cumulative keys, "()", values from all occurrences are return. Otherwise only all
!! values from the last occurrence. If key is not found exits with error unless default is given.
!--------------------------------------------------------------------------------------------------
function getInts(this,key,defaultVal,requiredShape)
use IO, only: &
IO_error, &
IO_stringValue, &
IO_IntValue
implicit none
integer(pInt), dimension(:), allocatable :: getInts
class(tPartitionedStringList), target, intent(in) :: this
character(len=*), intent(in) :: key
integer(pInt), dimension(:), intent(in), optional :: defaultVal, &
requiredShape
type(tPartitionedStringList), pointer :: item
integer(pInt) :: i
logical :: found, &
cumulative
cumulative = (key(1:1) == '(' .and. key(len_trim(key):len_trim(key)) == ')')
found = .false.
allocate(getInts(0))
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) then
found = .true.
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if (.not. cumulative) getInts = [integer(pInt)::]
if (item%string%pos(1) < 2_pInt) call IO_error(143_pInt,ext_msg=key)
do i = 2_pInt, item%string%pos(1)
getInts = [getInts,IO_IntValue(item%string%val,item%string%pos,i)]
enddo
endif
item => item%next
end do
if (.not. found) then
if (present(defaultVal)) then; getInts = defaultVal; else; call IO_error(140_pInt,ext_msg=key); endif
endif
end function getInts
!--------------------------------------------------------------------------------------------------
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!> @brief gets array of string values of for a given key from a linked list
!> @details for cumulative keys, "()", values from all occurrences are return. Otherwise only all
!! values from the last occurrence. If key is not found exits with error unless default is given.
!! If raw is true, the the complete string is returned, otherwise the individual chunks are returned
!--------------------------------------------------------------------------------------------------
function getStrings(this,key,defaultVal,requiredShape,raw)
use IO, only: &
IO_error, &
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IO_StringValue
implicit none
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character(len=65536),dimension(:), allocatable :: getStrings
class(tPartitionedStringList), target, intent(in) :: this
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character(len=*), intent(in) :: key
character(len=65536),dimension(:), intent(in), optional :: defaultVal
integer(pInt), dimension(:), intent(in), optional :: requiredShape
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logical, intent(in), optional :: raw
type(tPartitionedStringList), pointer :: item
character(len=65536) :: str
integer(pInt) :: i
logical :: found, &
whole, &
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cumulative
cumulative = (key(1:1) == '(' .and. key(len_trim(key):len_trim(key)) == ')')
whole = merge(raw,.false.,present(raw))
found = .false.
item => this
do while (associated(item%next))
if (trim(IO_stringValue(item%string%val,item%string%pos,1)) == trim(key)) then
found = .true.
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if (allocated(getStrings) .and. .not. cumulative) deallocate(getStrings)
if (item%string%pos(1) < 2_pInt) call IO_error(143_pInt,ext_msg=key)
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notAllocated: if (.not. allocated(getStrings)) then
if (whole) then
str = item%string%val(item%string%pos(4):)
getStrings = [str]
else
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str = IO_StringValue(item%string%val,item%string%pos,2_pInt)
allocate(getStrings(1),source=str)
do i=3_pInt,item%string%pos(1)
str = IO_StringValue(item%string%val,item%string%pos,i)
getStrings = [getStrings,str]
enddo
endif
else notAllocated
if (whole) then
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str = item%string%val(item%string%pos(4):)
getStrings = [getStrings,str]
else
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do i=2_pInt,item%string%pos(1)
str = IO_StringValue(item%string%val,item%string%pos,i)
getStrings = [getStrings,str]
enddo
endif
endif notAllocated
endif
item => item%next
end do
if (.not. found) then
if (present(defaultVal)) then; getStrings = defaultVal; else; call IO_error(140_pInt,ext_msg=key); endif
endif
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end function getStrings
end module config