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!>## general routines for performing __string operations__
!!
!!### Types
!! - **TYPE(STRING_T)** define a type to contain strings of variable length
!!### Type Conversions
!! - [[F_STRING]]  return Fortran **CHARACTER** variable when given a C-like array of 
!!                 single characters terminated with a C_NULL_CHAR **CHARACTER**
!! - [[STR]]  Converts **INTEGER** or** LOGICAL** to **CHARACTER** string
!!### Case
!! - [[LOWER]]  Changes a string to lowercase over optional specified column range
!!### Parsing and joining
!! - [[SPLIT]]  parse string on delimiter characters and store tokens into an allocatable array
!! - [[STRING_CAT]]  Concatenate an array of **type(string_t)** into a single **CHARACTER** variable
!! - [[JOIN]]  append an array of **CHARACTER** variables into a single **CHARACTER** variable 
!!### Testing
!! - [[STR_ENDS_WITH]]  test if a **CHARACTER** string or array ends with a specified suffix
!! - [[STRING_ARRAY_CONTAINS]]  Check if array of **TYPE(STRING_T)** matches a particular **CHARACTER** string
!! - **OPERATOR(.IN.)**  Check if array of **TYPE(STRING_T)** matches a particular **CHARACTER** string
!! - [[GLOB]]  function compares text strings, one of which can have wildcards ('*' or '?').
!!### Miscellaneous
!! - [[LEN_TRIM]]  Determine total trimmed length of **STRING_T** array
!! - [[FNV_1A]]  Hash a **CHARACTER(*)** string of default kind or a **TYPE(STRING_T)** array
!! - [[REPLACE]]  Returns string with characters in charset replaced with target_char.
!! - [[RESIZE]]  increase the size of a **TYPE(STRING_T)** array by N elements
!!
!!@note `If compiled with **OpenMP**, targets will be build in parallel where possible`.
!!
!src/fpm_model.f90: The process (see `[[build_model(subroutine)]]`) 

module fpm_strings
use iso_fortran_env, only: int64
implicit none

private
public :: f_string, lower, split, str_ends_with, string_t
public :: string_array_contains, string_cat, len_trim, operator(.in.), fnv_1a
public :: replace, resize, str, join, glob

type string_t
    character(len=:), allocatable :: s
end type

interface len_trim
    module procedure :: string_len_trim
end interface len_trim

interface resize
  module procedure :: resize_string
end interface

interface operator(.in.)
    module procedure string_array_contains
end interface

interface fnv_1a
    procedure :: fnv_1a_char
    procedure :: fnv_1a_string_t
end interface fnv_1a

interface str_ends_with
    procedure :: str_ends_with_str
    procedure :: str_ends_with_any
end interface str_ends_with

interface str
    module procedure str_int, str_int64, str_logical
end interface

contains

!> test if a CHARACTER string ends with a specified suffix
pure logical function str_ends_with_str(s, e) result(r)
    character(*), intent(in) :: s, e
    integer :: n1, n2
    n1 = len(s)-len(e)+1
    n2 = len(s)
    if (n1 < 1) then
        r = .false.
    else
        r = (s(n1:n2) == e)
    end if
end function str_ends_with_str

!> test if a CHARACTER string ends with any of an array of suffixs
pure logical function str_ends_with_any(s, e) result(r)
    character(*), intent(in) :: s
    character(*), intent(in) :: e(:)

    integer :: i

    r = .true.
    do i=1,size(e)

        if (str_ends_with(s,trim(e(i)))) return

    end do
    r = .false.

end function str_ends_with_any

!> return Fortran character variable when given a C-like array of
!! single characters terminated with a C_NULL_CHAR character
function f_string(c_string)
    use iso_c_binding
    character(len=1), intent(in) :: c_string(:)
    character(:), allocatable :: f_string

    integer :: i, n

    i = 0
    do while(c_string(i+1) /= C_NULL_CHAR)
      i = i + 1
    end do
    n = i

    allocate(character(n) :: f_string)
    do i=1,n
      f_string(i:i) = c_string(i)
    end do

end function f_string


!> Hash a character(*) string of default kind
pure function fnv_1a_char(input, seed) result(hash)
    character(*), intent(in) :: input
    integer(int64), intent(in), optional :: seed
    integer(int64) :: hash

    integer :: i
    integer(int64), parameter :: FNV_OFFSET_32 = 2166136261_int64
    integer(int64), parameter :: FNV_PRIME_32 = 16777619_int64

    if (present(seed)) then
        hash = seed
    else
        hash = FNV_OFFSET_32
    end if

    do i=1,len(input)
        hash = ieor(hash,iachar(input(i:i),int64)) * FNV_PRIME_32
    end do

end function fnv_1a_char


!> Hash a string_t array of default kind
pure function fnv_1a_string_t(input, seed) result(hash)
    type(string_t), intent(in) :: input(:)
    integer(int64), intent(in), optional :: seed
    integer(int64) :: hash

    integer :: i

    hash = fnv_1a(input(1)%s,seed)

    do i=2,size(input)
        hash = fnv_1a(input(i)%s,hash)
    end do

end function fnv_1a_string_t


 !>Author: John S. Urban
 !!License: Public Domain
 !! Changes a string to lowercase over optional specified column range
elemental pure function lower(str,begin,end) result (string)

    character(*), intent(In)     :: str
    character(len(str))          :: string
    integer,intent(in),optional  :: begin, end
    integer                      :: i
    integer                      :: ibegin, iend
    string = str

    ibegin = 1
    if (present(begin))then
        ibegin = max(ibegin,begin)
    endif

    iend = len_trim(str)
    if (present(end))then
        iend= min(iend,end)
    endif

    do i = ibegin, iend                               ! step thru each letter in the string in specified range
        select case (str(i:i))
        case ('A':'Z')
            string(i:i) = char(iachar(str(i:i))+32)     ! change letter to miniscule
        case default
        end select
    end do

end function lower


!> Check if array of TYPE(STRING_T) matches a particular CHARACTER string
!!
logical function string_array_contains(search_string,array)
    character(*), intent(in) :: search_string
    type(string_t), intent(in) :: array(:)

    integer :: i

    string_array_contains = any([(array(i)%s==search_string, &
                                   i=1,size(array))])

end function string_array_contains

!> Concatenate an array of type(string_t) into
!>  a single CHARACTER variable
function string_cat(strings,delim) result(cat)
    type(string_t), intent(in) :: strings(:)
    character(*), intent(in), optional :: delim
    character(:), allocatable :: cat

    integer :: i
    character(:), allocatable :: delim_str

    if (size(strings) < 1) then
        cat = ''
        return
    end if

    if (present(delim)) then
        delim_str = delim
    else
        delim_str = ''
    end if

    cat = strings(1)%s
    do i=2,size(strings)

        cat = cat//delim_str//strings(i)%s

    end do

end function string_cat

!> Determine total trimmed length of `string_t` array
pure function string_len_trim(strings) result(n)
    type(string_t), intent(in) :: strings(:)
    integer :: i, n

    n = 0
    do i=1,size(strings)
        n = n + len_trim(strings(i)%s)
    end do

end function string_len_trim

!>Author: John S. Urban
!!License: Public Domain
!! parse string on delimiter characters and store tokens into an allocatable array
subroutine split(input_line,array,delimiters,order,nulls)
    !! given a line of structure " par1 par2 par3 ... parn " store each par(n) into a separate variable in array.
    !!
    !! * by default adjacent delimiters in the input string do not create an empty string in the output array
    !! * no quoting of delimiters is supported
    character(len=*),intent(in)              :: input_line  !! input string to tokenize
    character(len=*),optional,intent(in)     :: delimiters  !! list of delimiter characters
    character(len=*),optional,intent(in)     :: order       !! order of output array sequential|[reverse|right]
    character(len=*),optional,intent(in)     :: nulls       !! return strings composed of delimiters or not ignore|return|ignoreend
    character(len=:),allocatable,intent(out) :: array(:)    !! output array of tokens

    integer                       :: n                      ! max number of strings INPUT_LINE could split into if all delimiter
    integer,allocatable           :: ibegin(:)              ! positions in input string where tokens start
    integer,allocatable           :: iterm(:)               ! positions in input string where tokens end
    character(len=:),allocatable  :: dlim                   ! string containing delimiter characters
    character(len=:),allocatable  :: ordr                   ! string containing order keyword
    character(len=:),allocatable  :: nlls                   ! string containing nulls keyword
    integer                       :: ii,iiii                ! loop parameters used to control print order
    integer                       :: icount                 ! number of tokens found
    integer                       :: ilen                   ! length of input string with trailing spaces trimmed
    integer                       :: i10,i20,i30            ! loop counters
    integer                       :: icol                   ! pointer into input string as it is being parsed
    integer                       :: idlim                  ! number of delimiter characters
    integer                       :: ifound                 ! where next delimiter character is found in remaining input string data
    integer                       :: inotnull               ! count strings not composed of delimiters
    integer                       :: ireturn                ! number of tokens returned
    integer                       :: imax                   ! length of longest token

    ! decide on value for optional DELIMITERS parameter
    if (present(delimiters)) then                                     ! optional delimiter list was present
        if(delimiters.ne.'')then                                       ! if DELIMITERS was specified and not null use it
            dlim=delimiters
        else                                                           ! DELIMITERS was specified on call as empty string
            dlim=' '//char(9)//char(10)//char(11)//char(12)//char(13)//char(0) ! use default delimiter when not specified
        endif
    else                                                              ! no delimiter value was specified
        dlim=' '//char(9)//char(10)//char(11)//char(12)//char(13)//char(0)    ! use default delimiter when not specified
    endif
    idlim=len(dlim)                                                   ! dlim a lot of blanks on some machines if dlim is a big string

    if(present(order))then; ordr=lower(adjustl(order)); else; ordr='sequential'; endif ! decide on value for optional ORDER parameter
    if(present(nulls))then; nlls=lower(adjustl(nulls)); else; nlls='ignore'    ; endif ! optional parameter

    n=len(input_line)+1                        ! max number of strings INPUT_LINE could split into if all delimiter
    allocate(ibegin(n))                        ! allocate enough space to hold starting location of tokens if string all tokens
    allocate(iterm(n))                         ! allocate enough space to hold ending location of tokens if string all tokens
    ibegin(:)=1
    iterm(:)=1

    ilen=len(input_line)                                           ! ILEN is the column position of the last non-blank character
    icount=0                                                       ! how many tokens found
    inotnull=0                                                     ! how many tokens found not composed of delimiters
    imax=0                                                         ! length of longest token found

    select case (ilen)

    case (0)                                                      ! command was totally blank

    case default                                                   ! there is at least one non-delimiter in INPUT_LINE if get here
        icol=1                                                      ! initialize pointer into input line
        INFINITE: do i30=1,ilen,1                                   ! store into each array element
            ibegin(i30)=icol                                         ! assume start new token on the character
            if(index(dlim(1:idlim),input_line(icol:icol)).eq.0)then  ! if current character is not a delimiter
            iterm(i30)=ilen                                       ! initially assume no more tokens
            do i10=1,idlim                                        ! search for next delimiter
                ifound=index(input_line(ibegin(i30):ilen),dlim(i10:i10))
                IF(ifound.gt.0)then
                    iterm(i30)=min(iterm(i30),ifound+ibegin(i30)-2)
                endif
            enddo
            icol=iterm(i30)+2                                     ! next place to look as found end of this token
            inotnull=inotnull+1                                   ! increment count of number of tokens not composed of delimiters
            else                                                     ! character is a delimiter for a null string
            iterm(i30)=icol-1                                     ! record assumed end of string. Will be less than beginning
            icol=icol+1                                           ! advance pointer into input string
            endif
            imax=max(imax,iterm(i30)-ibegin(i30)+1)
            icount=i30                                               ! increment count of number of tokens found
            if(icol.gt.ilen)then                                     ! no text left
            exit INFINITE
            endif
        enddo INFINITE

    end select

    select case (trim(adjustl(nlls)))
    case ('ignore','','ignoreend')
        ireturn=inotnull
    case default
        ireturn=icount
    end select
    allocate(character(len=imax) :: array(ireturn))                ! allocate the array to return
    !allocate(array(ireturn))                                       ! allocate the array to turn

    select case (trim(adjustl(ordr)))                              ! decide which order to store tokens
    case ('reverse','right') ; ii=ireturn ; iiii=-1                ! last to first
    case default             ; ii=1       ; iiii=1                 ! first to last
    end select

    do i20=1,icount                                                ! fill the array with the tokens that were found
        if(iterm(i20).lt.ibegin(i20))then
            select case (trim(adjustl(nlls)))
            case ('ignore','','ignoreend')
            case default
            array(ii)=' '
            ii=ii+iiii
            end select
        else
            array(ii)=input_line(ibegin(i20):iterm(i20))
            ii=ii+iiii
        endif
    enddo
end subroutine split

!> Returns string with characters in charset replaced with target_char.
pure function replace(string, charset, target_char) result(res)
    character(*), intent(in) :: string
    character, intent(in) :: charset(:), target_char
    character(len(string)) :: res
    integer :: n
    res = string
    do n = 1, len(string)
        if (any(string(n:n) == charset)) then
            res(n:n) = target_char
        end if
    end do
end function replace

!> increase the size of a TYPE(STRING_T) array by N elements
subroutine resize_string(list, n)
  !> Instance of the array to be resized
  type(string_t), allocatable, intent(inout) :: list(:)
  !> Dimension of the final array size
  integer, intent(in), optional :: n

  type(string_t), allocatable :: tmp(:)
  integer :: this_size, new_size, i
  integer, parameter :: initial_size = 16

  if (allocated(list)) then
    this_size = size(list, 1)
    call move_alloc(list, tmp)
  else
    this_size = initial_size
  end if

  if (present(n)) then
    new_size = n
  else
    new_size = this_size + this_size/2 + 1
  end if

  allocate(list(new_size))

  if (allocated(tmp)) then
    this_size = min(size(tmp, 1), size(list, 1))
    do i = 1, this_size
      call move_alloc(tmp(i)%s, list(i)%s)
    end do
    deallocate(tmp)
  end if

end subroutine resize_string

!>AUTHOR: John S. Urban
!!LICENSE: Public Domain
!!## NAME
!!    join(3f) - [fpm_strings:EDITING] append CHARACTER variable array into
!!    a single CHARACTER variable with specified separator
!!    (LICENSE:PD)
!!
!!## SYNOPSIS
!!
!!    pure function join(str,sep,trm,left,right,start,end) result (string)
!!
!!     character(len=*),intent(in)          :: str(:)
!!     character(len=*),intent(in),optional :: sep
!!     logical,intent(in),optional          :: trm
!!     character(len=*),intent(in),optional :: right
!!     character(len=*),intent(in),optional :: left
!!     character(len=*),intent(in),optional :: start
!!     character(len=*),intent(in),optional :: end
!!     character(len=:),allocatable         :: string
!!
!!## DESCRIPTION
!!   JOIN(3f) appends the elements of a CHARACTER array into a single
!!   CHARACTER variable, with elements 1 to N joined from left to right.
!!   By default each element is trimmed of trailing spaces and the
!!   default separator is a null string.
!!
!!## OPTIONS
!!      STR(:)  array of CHARACTER variables to be joined
!!      SEP     separator string to place between each variable. defaults
!!              to a null string.
!!      LEFT    string to place at left of each element
!!      RIGHT   string to place at right of each element
!!      START   prefix string
!!      END     suffix string
!!      TRM     option to trim each element of STR of trailing
!!              spaces. Defaults to .TRUE.
!!
!!## RESULT
!!      STRING  CHARACTER variable composed of all of the elements of STR()
!!              appended together with the optional separator SEP placed
!!              between the elements.
!!
!!## EXAMPLE
!!
!!  Sample program:
!!```fortran
!!    program demo_join
!!    use fpm_strings, only: join
!!    implicit none
!!    character(len=:),allocatable  :: s(:)
!!    character(len=:),allocatable  :: out
!!    integer                       :: i
!!      s=[character(len=10) :: 'United',' we',' stand,', &
!!      & ' divided',' we fall.']
!!      out=join(s)
!!      write(*,'(a)') out
!!      write(*,'(a)') join(s,trm=.false.)
!!      write(*,'(a)') (join(s,trm=.false.,sep='|'),i=1,3)
!!      write(*,'(a)') join(s,sep='<>')
!!      write(*,'(a)') join(s,sep=';',left='[',right=']')
!!      write(*,'(a)') join(s,left='[',right=']')
!!      write(*,'(a)') join(s,left='>>')
!!    end program demo_join
!!```fortran
!!
!!  Expected output:
!!
!!    United we stand, divided we fall.
!!    United     we        stand,    divided   we fall.
!!    United    | we       | stand,   | divided  | we fall.
!!    United    | we       | stand,   | divided  | we fall.
!!    United    | we       | stand,   | divided  | we fall.
!!    United<> we<> stand,<> divided<> we fall.
!!    [United];[ we];[ stand,];[ divided];[ we fall.]
!!    [United][ we][ stand,][ divided][ we fall.]
!!    >>United>> we>> stand,>> divided>> we fall.
!!
pure function join(str,sep,trm,left,right,start,end) result (string)

! @(#)join(3f): append an array of character variables with specified separator into a single CHARACTER variable

character(len=*),intent(in)          :: str(:)
character(len=*),intent(in),optional :: sep
character(len=*),intent(in),optional :: right
character(len=*),intent(in),optional :: left
character(len=*),intent(in),optional :: start
character(len=*),intent(in),optional :: end
logical,intent(in),optional          :: trm
character(len=:),allocatable         :: string
integer                              :: i
logical                              :: trm_local
character(len=:),allocatable         :: sep_local
character(len=:),allocatable         :: left_local
character(len=:),allocatable         :: right_local

   if(present(sep))then    ;  sep_local=sep      ;  else  ;  sep_local=''      ;  endif
   if(present(trm))then    ;  trm_local=trm      ;  else  ;  trm_local=.true.  ;  endif
   if(present(left))then   ;  left_local=left    ;  else  ;  left_local=''     ;  endif
   if(present(right))then  ;  right_local=right  ;  else  ;  right_local=''    ;  endif

   string=''
   do i = 1,size(str)-1
      if(trm_local)then
         string=string//left_local//trim(str(i))//right_local//sep_local
      else
         string=string//left_local//str(i)//right_local//sep_local
      endif
   enddo
   if(trm_local)then
      string=string//left_local//trim(str(i))//right_local
   else
      string=string//left_local//str(i)//right_local
   endif
   if(present(start))string=start//string
   if(present(end))string=string//end
end function join

!>##AUTHOR John S. Urban
!!##LICENSE Public Domain
!!## NAME
!!    glob(3f) - [fpm_strings:COMPARE] compare given string for match to
!!    pattern which may contain wildcard characters
!!    (LICENSE:PD)
!!
!!## SYNOPSIS
!!
!!    logical function glob(string, pattern )
!!
!!     character(len=*),intent(in) :: string
!!     character(len=*),intent(in) :: pattern
!!
!!## DESCRIPTION
!!   glob(3f) compares given STRING for match to PATTERN which may
!!   contain wildcard characters.
!!
!!   In this version to get a match the entire string must be described
!!   by PATTERN. Trailing whitespace is significant, so trim the input
!!   string to have trailing whitespace ignored.
!!
!!## OPTIONS
!!    string   the input string to test to see if it contains the pattern.
!!    pattern  the following simple globbing options are available
!!
!!             o "?" matching any one character
!!             o "*" matching zero or more characters.
!!               Do NOT use adjacent asterisks.
!!             o Both strings may have trailing spaces which
!!               are ignored.
!!             o There is no escape character, so matching strings with
!!               literal question mark and asterisk is problematic.
!!
!!## EXAMPLES
!!
!!   Example program
!!
!!    program demo_glob
!!    implicit none
!!    ! This main() routine passes a bunch of test strings
!!    ! into the above code.  In performance comparison mode,
!!    ! it does that over and over. Otherwise, it does it just
!!    ! once. Either way, it outputs a passed/failed result.
!!    !
!!    integer :: nReps
!!    logical :: allpassed
!!    integer :: i
!!     allpassed = .true.
!!
!!     nReps = 10000
!!     ! Can choose as many repetitions as you're expecting
!!     ! in the real world.
!!     nReps = 1
!!
!!     do i=1,nReps
!!      ! Cases with repeating character sequences.
!!      allpassed=allpassed .and. test("a*abab", "a*b", .true.)
!!      !!cycle
!!      allpassed=allpassed .and. test("ab", "*?", .true.)
!!      allpassed=allpassed .and. test("abc", "*?", .true.)
!!      allpassed=allpassed .and. test("abcccd", "*ccd", .true.)
!!      allpassed=allpassed .and. test("bLah", "bLaH", .false.)
!!      allpassed=allpassed .and. test("mississippi", "*sip*", .true.)
!!      allpassed=allpassed .and. &
!!       & test("xxxx*zzzzzzzzy*f", "xxx*zzy*f", .true.)
!!      allpassed=allpassed .and. &
!!       & test("xxxx*zzzzzzzzy*f", "xxxx*zzy*fffff", .false.)
!!      allpassed=allpassed .and. &
!!       & test("mississipissippi", "*issip*ss*", .true.)
!!      allpassed=allpassed .and. &
!!       & test("xxxxzzzzzzzzyf", "xxxx*zzy*fffff", .false.)
!!      allpassed=allpassed .and. &
!!       & test("xxxxzzzzzzzzyf", "xxxx*zzy*f", .true.)
!!      allpassed=allpassed .and. test("xyxyxyzyxyz", "xy*z*xyz", .true.)
!!      allpassed=allpassed .and. test("xyxyxyxyz", "xy*xyz", .true.)
!!      allpassed=allpassed .and. test("mississippi", "mi*sip*", .true.)
!!      allpassed=allpassed .and. test("ababac", "*abac*", .true.)
!!      allpassed=allpassed .and. test("aaazz", "a*zz*", .true.)
!!      allpassed=allpassed .and. test("a12b12", "*12*23", .false.)
!!      allpassed=allpassed .and. test("a12b12", "a12b", .false.)
!!      allpassed=allpassed .and. test("a12b12", "*12*12*", .true.)
!!
!!      ! Additional cases where the '*' char appears in the tame string.
!!      allpassed=allpassed .and. test("*", "*", .true.)
!!      allpassed=allpassed .and. test("a*r", "a*", .true.)
!!      allpassed=allpassed .and. test("a*ar", "a*aar", .false.)
!!
!!      ! More double wildcard scenarios.
!!      allpassed=allpassed .and. test("XYXYXYZYXYz", "XY*Z*XYz", .true.)
!!      allpassed=allpassed .and. test("missisSIPpi", "*SIP*", .true.)
!!      allpassed=allpassed .and. test("mississipPI", "*issip*PI", .true.)
!!      allpassed=allpassed .and. test("xyxyxyxyz", "xy*xyz", .true.)
!!      allpassed=allpassed .and. test("miSsissippi", "mi*sip*", .true.)
!!      allpassed=allpassed .and. test("miSsissippi", "mi*Sip*", .false.)
!!      allpassed=allpassed .and. test("abAbac", "*Abac*", .true.)
!!      allpassed=allpassed .and. test("aAazz", "a*zz*", .true.)
!!      allpassed=allpassed .and. test("A12b12", "*12*23", .false.)
!!      allpassed=allpassed .and. test("a12B12", "*12*12*", .true.)
!!      allpassed=allpassed .and. test("oWn", "*oWn*", .true.)
!!
!!      ! Completely tame (no wildcards) cases.
!!      allpassed=allpassed .and. test("bLah", "bLah", .true.)
!!
!!      ! Simple mixed wildcard tests suggested by IBMer Marlin Deckert.
!!      allpassed=allpassed .and. test("a", "*?", .true.)
!!
!!      ! More mixed wildcard tests including coverage for false positives.
!!      allpassed=allpassed .and. test("a", "??", .false.)
!!      allpassed=allpassed .and. test("ab", "?*?", .true.)
!!      allpassed=allpassed .and. test("ab", "*?*?*", .true.)
!!      allpassed=allpassed .and. test("abc", "?**?*?", .true.)
!!      allpassed=allpassed .and. test("abc", "?**?*&?", .false.)
!!      allpassed=allpassed .and. test("abcd", "?b*??", .true.)
!!      allpassed=allpassed .and. test("abcd", "?a*??", .false.)
!!      allpassed=allpassed .and. test("abcd", "?**?c?", .true.)
!!      allpassed=allpassed .and. test("abcd", "?**?d?", .false.)
!!      allpassed=allpassed .and. test("abcde", "?*b*?*d*?", .true.)
!!
!!      ! Single-character-match cases.
!!      allpassed=allpassed .and. test("bLah", "bL?h", .true.)
!!      allpassed=allpassed .and. test("bLaaa", "bLa?", .false.)
!!      allpassed=allpassed .and. test("bLah", "bLa?", .true.)
!!      allpassed=allpassed .and. test("bLaH", "?Lah", .false.)
!!      allpassed=allpassed .and. test("bLaH", "?LaH", .true.)
!!
!!      ! Many-wildcard scenarios.
!!      allpassed=allpassed .and. test(&
!!      &"aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa&
!!      &aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaab",&
!!      &"a*a*a*a*a*a*aa*aaa*a*a*b",&
!!      &.true.)
!!      allpassed=allpassed .and. test(&
!!      &"abababababababababababababababababababaacacacacacacac&
!!      &adaeafagahaiajakalaaaaaaaaaaaaaaaaaffafagaagggagaaaaaaaab",&
!!      &"*a*b*ba*ca*a*aa*aaa*fa*ga*b*",&
!!      &.true.)
!!      allpassed=allpassed .and. test(&
!!      &"abababababababababababababababababababaacacacacacaca&
!!      &cadaeafagahaiajakalaaaaaaaaaaaaaaaaaffafagaagggagaaaaaaaab",&
!!      &"*a*b*ba*ca*a*x*aaa*fa*ga*b*",&
!!      &.false.)
!!      allpassed=allpassed .and. test(&
!!      &"abababababababababababababababababababaacacacacacacacad&
!!      &aeafagahaiajakalaaaaaaaaaaaaaaaaaffafagaagggagaaaaaaaab",&
!!      &"*a*b*ba*ca*aaaa*fa*ga*gggg*b*",&
!!      &.false.)
!!      allpassed=allpassed .and. test(&
!!      &"abababababababababababababababababababaacacacacacacacad&
!!      &aeafagahaiajakalaaaaaaaaaaaaaaaaaffafagaagggagaaaaaaaab",&
!!      &"*a*b*ba*ca*aaaa*fa*ga*ggg*b*",&
!!      &.true.)
!!      allpassed=allpassed .and. test("aaabbaabbaab", "*aabbaa*a*", .true.)
!!      allpassed=allpassed .and. &
!!      test("a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*",&
!!      &"a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*", .true.)
!!      allpassed=allpassed .and. test("aaaaaaaaaaaaaaaaa",&
!!      &"*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*", .true.)
!!      allpassed=allpassed .and. test("aaaaaaaaaaaaaaaa",&
!!      &"*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*", .false.)
!!      allpassed=allpassed .and. test(&
!!      &"abc*abcd*abcde*abcdef*abcdefg*abcdefgh*abcdefghi*abcdefghij&
!!      &*abcdefghijk*abcdefghijkl*abcdefghijklm*abcdefghijklmn",&
!!      & "abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abc&
!!      &*abc*abc*abc*",&
!!      &.false.)
!!      allpassed=allpassed .and. test(&
!!      &"abc*abcd*abcde*abcdef*abcdefg*abcdefgh*abcdefghi*abcdefghij&
!!      &*abcdefghijk*abcdefghijkl*abcdefghijklm*abcdefghijklmn",&
!!      &"abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*",&
!!      &.true.)
!!      allpassed=allpassed .and. test("abc*abcd*abcd*abc*abcd",&
!!      &"abc*abc*abc*abc*abc", .false.)
!!      allpassed=allpassed .and. test( "abc*abcd*abcd*abc*abcd*abcd&
!!      &*abc*abcd*abc*abc*abcd", &
!!      &"abc*abc*abc*abc*abc*abc*abc*abc*abc*abc*abcd",&
!!      &.true.)
!!      allpassed=allpassed .and. test("abc",&
!!      &"********a********b********c********", .true.)
!!      allpassed=allpassed .and.&
!!      &test("********a********b********c********", "abc", .false.)
!!      allpassed=allpassed .and. &
!!      &test("abc", "********a********b********b********", .false.)
!!      allpassed=allpassed .and. test("*abc*", "***a*b*c***", .true.)
!!
!!      ! A case-insensitive algorithm test.
!!      ! allpassed=allpassed .and. test("mississippi", "*issip*PI", .true.)
!!     enddo
!!
!!     if (allpassed)then
!!        write(*,'(a)')"Passed",nReps
!!     else
!!        write(*,'(a)')"Failed"
!!     endif
!!    contains
!!    ! This is a test program for wildcard matching routines.
!!    ! It can be used either to test a single routine for correctness,
!!    ! or to compare the timings of two (or more) different wildcard
!!    ! matching routines.
!!    !
!!    function test(tame, wild, bExpectedResult) result(bpassed)
!!    use fpm_strings, only : glob
!!       character(len=*) :: tame
!!       character(len=*) :: wild
!!       logical          :: bExpectedResult
!!       logical          :: bResult
!!       logical          :: bPassed
!!       bResult = .true.    ! We'll do "&=" cumulative checking.
!!       bPassed = .false.   ! Assume the worst.
!!       write(*,*)repeat('=',79)
!!       bResult = glob(tame, wild) ! Call a wildcard matching routine.
!!
!!       ! To assist correctness checking, output the two strings in any
!!       ! failing scenarios.
!!       if (bExpectedResult .eqv. bResult) then
!!          bPassed = .true.
!!          if(nReps == 1) write(*,*)"Passed match on ",tame," vs. ", wild
!!       else
!!          if(nReps == 1) write(*,*)"Failed match on ",tame," vs. ", wild
!!       endif
!!
!!    end function test
!!    end program demo_glob
!!
!!   Expected output
!!
!!
!!## REFERENCE
!!   The article "Matching Wildcards: An Empirical Way to Tame an Algorithm"
!!   in Dr Dobb's Journal, By Kirk J. Krauss, October 07, 2014
!!
function glob(tame,wild)

! @(#)fpm_strings::glob(3f): function compares text strings, one of which can have wildcards ('*' or '?').

logical                    :: glob       !! result of test
character(len=*)           :: tame       !! A string without wildcards to compare to the globbing expression
character(len=*)           :: wild       !! A (potentially) corresponding string with wildcards
character(len=len(tame)+1) :: tametext
character(len=len(wild)+1) :: wildtext
character(len=1),parameter :: NULL=char(0)
integer                    :: wlen
integer                    :: ti, wi
integer                    :: i
character(len=:),allocatable :: tbookmark, wbookmark
! These two values are set when we observe a wildcard character. They
! represent the locations, in the two strings, from which we start once we've observed it.
   tametext=tame//NULL
   wildtext=wild//NULL
   tbookmark = NULL
   wbookmark = NULL
   wlen=len(wild)
   wi=1
   ti=1
   do                                            ! Walk the text strings one character at a time.
      if(wildtext(wi:wi) == '*')then             ! How do you match a unique text string?
         do i=wi,wlen                            ! Easy: unique up on it!
            if(wildtext(wi:wi).eq.'*')then
               wi=wi+1
            else
               exit
            endif
         enddo
         if(wildtext(wi:wi).eq.NULL) then        ! "x" matches "*"
            glob=.true.
            return
         endif
         if(wildtext(wi:wi) .ne. '?') then
            ! Fast-forward to next possible match.
            do while (tametext(ti:ti) .ne. wildtext(wi:wi))
               ti=ti+1
               if (tametext(ti:ti).eq.NULL)then
                  glob=.false.
                  return                         ! "x" doesn't match "*y*"
               endif
            enddo
         endif
         wbookmark = wildtext(wi:)
         tbookmark = tametext(ti:)
      elseif(tametext(ti:ti) .ne. wildtext(wi:wi) .and. wildtext(wi:wi) .ne. '?') then
         ! Got a non-match. If we've set our bookmarks, back up to one or both of them and retry.
         if(wbookmark.ne.NULL) then
            if(wildtext(wi:).ne. wbookmark) then
               wildtext = wbookmark;
               wlen=len_trim(wbookmark)
               wi=1
               ! Don't go this far back again.
               if (tametext(ti:ti) .ne. wildtext(wi:wi)) then
                  tbookmark=tbookmark(2:)
                  tametext = tbookmark
                  ti=1
                  cycle                          ! "xy" matches "*y"
               else
                  wi=wi+1
               endif
            endif
            if (tametext(ti:ti).ne.NULL) then
               ti=ti+1
               cycle                             ! "mississippi" matches "*sip*"
            endif
         endif
         glob=.false.
         return                                  ! "xy" doesn't match "x"
      endif
      ti=ti+1
      wi=wi+1
      if (tametext(ti:ti).eq.NULL) then          ! How do you match a tame text string?
         if(wildtext(wi:wi).ne.NULL)then
            do while (wildtext(wi:wi) == '*')    ! The tame way: unique up on it!
               wi=wi+1                           ! "x" matches "x*"
               if(wildtext(wi:wi).eq.NULL)exit
            enddo
         endif
         if (wildtext(wi:wi).eq.NULL)then
            glob=.true.
            return                               ! "x" matches "x"
         endif
         glob=.false.
         return                                  ! "x" doesn't match "xy"
      endif
   enddo
end function glob

!> Returns the length of the string representation of 'i'
pure integer function str_int_len(i) result(sz)
integer, intent(in) :: i
integer, parameter :: MAX_STR = 100
character(MAX_STR) :: s
! If 's' is too short (MAX_STR too small), Fortran will abort with:
! "Fortran runtime error: End of record"
write(s, '(i0)') i
sz = len_trim(s)
end function

!> Converts integer "i" to string
pure function str_int(i) result(s)
integer, intent(in) :: i
character(len=str_int_len(i)) :: s
write(s, '(i0)') i
end function

!> Returns the length of the string representation of 'i'
pure integer function str_int64_len(i) result(sz)
integer(int64), intent(in) :: i
integer, parameter :: MAX_STR = 100
character(MAX_STR) :: s
! If 's' is too short (MAX_STR too small), Fortran will abort with:
! "Fortran runtime error: End of record"
write(s, '(i0)') i
sz = len_trim(s)
end function

!> Converts integer "i" to string
pure function str_int64(i) result(s)
integer(int64), intent(in) :: i
character(len=str_int64_len(i)) :: s
write(s, '(i0)') i
end function

!> Returns the length of the string representation of 'l'
pure integer function str_logical_len(l) result(sz)
logical, intent(in) :: l
if (l) then
    sz = 6
else
    sz = 7
end if
end function

!> Converts logical "l" to string
pure function str_logical(l) result(s)
logical, intent(in) :: l
character(len=str_logical_len(l)) :: s
if (l) then
    s = ".true."
else
    s = ".false."
end if
end function

end module fpm_strings