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module strings
use precision
private :: value_dr,value_sr,value_di,value_si
private :: write_dr,write_sr,write_di,write_si
private :: writeq_dr,writeq_sr,writeq_di,writeq_si
interface value ! Generic operator for converting a number string to a
! number. Calling syntax is 'call value(numstring,number,ios)'
! where 'numstring' is a number string and 'number' is a
! real number or an integer (single or double precision).
module procedure value_dr
module procedure value_sr
module procedure value_di
module procedure value_si
end interface
interface writenum ! Generic interface for writing a number to a string. The
! number is left justified in the string. The calling syntax
! is 'call writenum(number,string,format)' where 'number' is
! a real number or an integer, 'string' is a character string
! containing the result, and 'format' is the format desired,
! e.g., 'e15.6' or 'i5'.
module procedure write_dr
module procedure write_sr
module procedure write_di
module procedure write_si
end interface
interface writeq ! Generic interface equating a name to a numerical value. The
! calling syntax is 'call writeq(unit,name,value,format)' where
! unit is the integer output unit number, 'name' is the variable
! name, 'value' is the real or integer value of the variable,
! and 'format' is the format of the value. The result written to
! the output unit has the form <name> = <value>.
module procedure writeq_dr
module procedure writeq_sr
module procedure writeq_di
module procedure writeq_si
end interface
!**********************************************************************
contains
!**********************************************************************
subroutine parse(str,delims,args,nargs)
! Parses the string 'str' into arguments args(1), ..., args(nargs) based on
! the delimiters contained in the string 'delims'. Preceding a delimiter in
! 'str' by a backslash (\) makes this particular instance not a delimiter.
! The integer output variable nargs contains the number of arguments found.
character(len=*) :: str,delims
character(len=len_trim(str)) :: strsav
character(len=*),dimension(:) :: args
strsav=str
call compact(str)
na=size(args)
do i=1,na
args(i)=' '
end do
nargs=0
lenstr=len_trim(str)
if(lenstr==0) return
k=0
do
if(len_trim(str) == 0) exit
nargs=nargs+1
call split(str,delims,args(nargs))
call removebksl(args(nargs))
end do
str=strsav
end subroutine parse
!**********************************************************************
subroutine compact(str)
! Converts multiple spaces and tabs to single spaces; deletes control characters;
! removes initial spaces.
character(len=*):: str
character(len=1):: ch
character(len=len_trim(str)):: outstr
str=adjustl(str)
lenstr=len_trim(str)
outstr=' '
isp=0
k=0
do i=1,lenstr
ch=str(i:i)
ich=iachar(ch)
select case(ich)
case(9,32) ! space or tab character
if(isp==0) then
k=k+1
outstr(k:k)=' '
end if
isp=1
case(33:) ! not a space, quote, or control character
k=k+1
outstr(k:k)=ch
isp=0
end select
end do
str=adjustl(outstr)
end subroutine compact
!**********************************************************************
subroutine removesp(str)
! Removes spaces, tabs, and control characters in string str
character(len=*):: str
character(len=1):: ch
character(len=len_trim(str))::outstr
str=adjustl(str)
lenstr=len_trim(str)
outstr=' '
k=0
do i=1,lenstr
ch=str(i:i)
ich=iachar(ch)
select case(ich)
case(0:32) ! space, tab, or control character
cycle
case(33:)
k=k+1
outstr(k:k)=ch
end select
end do
str=adjustl(outstr)
end subroutine removesp
!**********************************************************************
subroutine value_dr(str,rnum,ios)
! Converts number string to a double precision real number
character(len=*)::str
real(kr8)::rnum
integer :: ios
ilen=len_trim(str)
ipos=scan(str,'Ee')
if(.not.is_digit(str(ilen:ilen)) .and. ipos/=0) then
ios=3
return
end if
read(str,*,iostat=ios) rnum
end subroutine value_dr
!**********************************************************************
subroutine value_sr(str,rnum,ios)
! Converts number string to a single precision real number
character(len=*)::str
real(kr4) :: rnum
real(kr8) :: rnumd
call value_dr(str,rnumd,ios)
if( abs(rnumd) > huge(rnum) ) then
ios=15
return
end if
if( abs(rnumd) < tiny(rnum) ) rnum=0.0_kr4
rnum=rnumd
end subroutine value_sr
!**********************************************************************
subroutine value_di(str,inum,ios)
! Converts number string to a double precision integer value
character(len=*)::str
integer(ki8) :: inum
real(kr8) :: rnum
call value_dr(str,rnum,ios)
if(abs(rnum)>huge(inum)) then
ios=15
return
end if
inum=nint(rnum,ki8)
end subroutine value_di
!**********************************************************************
subroutine value_si(str,inum,ios)
! Converts number string to a single precision integer value
character(len=*)::str
integer(ki4) :: inum
real(kr8) :: rnum
call value_dr(str,rnum,ios)
if(abs(rnum)>huge(inum)) then
ios=15
return
end if
inum=nint(rnum,ki4)
end subroutine value_si
!**********************************************************************
subroutine shiftstr(str,n)
! Shifts characters in in the string 'str' n positions (positive values
! denote a right shift and negative values denote a left shift). Characters
! that are shifted off the end are lost. Positions opened up by the shift
! are replaced by spaces.
character(len=*):: str
lenstr=len(str)
nabs=iabs(n)
if(nabs>=lenstr) then
str=repeat(' ',lenstr)
return
end if
if(n<0) str=str(nabs+1:)//repeat(' ',nabs) ! shift left
if(n>0) str=repeat(' ',nabs)//str(:lenstr-nabs) ! shift right
return
end subroutine shiftstr
!**********************************************************************
subroutine insertstr(str,strins,loc)
! Inserts the string 'strins' into the string 'str' at position 'loc'.
! Characters in 'str' starting at position 'loc' are shifted right to
! make room for the inserted string. Trailing spaces of 'strins' are
! removed prior to insertion
character(len=*):: str,strins
character(len=len(str))::tempstr
lenstrins=len_trim(strins)
tempstr=str(loc:)
call shiftstr(tempstr,lenstrins)
tempstr(1:lenstrins)=strins(1:lenstrins)
str(loc:)=tempstr
return
end subroutine insertstr
!**********************************************************************
subroutine delsubstr(str,substr)
! Deletes first occurrence of substring 'substr' from string 'str' and
! shifts characters left to fill hole. Trailing spaces or blanks are
! not considered part of 'substr'.
character(len=*):: str,substr
lensubstr=len_trim(substr)
ipos=index(str,substr)
if(ipos==0) return
if(ipos == 1) then
str=str(lensubstr+1:)
else
str=str(:ipos-1)//str(ipos+lensubstr:)
end if
return
end subroutine delsubstr
!**********************************************************************
subroutine delall(str,substr)
! Deletes all occurrences of substring 'substr' from string 'str' and
! shifts characters left to fill holes.
character(len=*):: str,substr
lensubstr=len_trim(substr)
do
ipos=index(str,substr)
if(ipos == 0) exit
if(ipos == 1) then
str=str(lensubstr+1:)
else
str=str(:ipos-1)//str(ipos+lensubstr:)
end if
end do
return
end subroutine delall
!**********************************************************************
function uppercase(str) result(ucstr)
! convert string to upper case
character (len=*):: str
character (len=len_trim(str)):: ucstr
ilen=len_trim(str)
ioffset=iachar('A')-iachar('a')
iquote=0
ucstr=str
do i=1,ilen
iav=iachar(str(i:i))
if(iquote==0 .and. (iav==34 .or.iav==39)) then
iquote=1
iqc=iav
cycle
end if
if(iquote==1 .and. iav==iqc) then
iquote=0
cycle
end if
if (iquote==1) cycle
if(iav >= iachar('a') .and. iav <= iachar('z')) then
ucstr(i:i)=achar(iav+ioffset)
else
ucstr(i:i)=str(i:i)
end if
end do
return
end function uppercase
!**********************************************************************
function lowercase(str) result(lcstr)
! convert string to lower case
character (len=*):: str
character (len=len_trim(str)):: lcstr
ilen=len_trim(str)
ioffset=iachar('A')-iachar('a')
iquote=0
lcstr=str
do i=1,ilen
iav=iachar(str(i:i))
if(iquote==0 .and. (iav==34 .or.iav==39)) then
iquote=1
iqc=iav
cycle
end if
if(iquote==1 .and. iav==iqc) then
iquote=0
cycle
end if
if (iquote==1) cycle
if(iav >= iachar('A') .and. iav <= iachar('Z')) then
lcstr(i:i)=achar(iav-ioffset)
else
lcstr(i:i)=str(i:i)
end if
end do
return
end function lowercase
!**********************************************************************
subroutine readline(nunitr,line,ios)
! Reads line from unit=nunitr, ignoring blank lines
! and deleting comments beginning with an exclamation point(!)
character (len=*):: line
do
read(nunitr,'(a)', iostat=ios) line ! read input line
if(ios /= 0) return
line=adjustl(line)
ipos=index(line,'!')
if(ipos == 1) cycle
if(ipos /= 0) line=line(:ipos-1)
if(len_trim(line) /= 0) exit
end do
return
end subroutine readline
!**********************************************************************
subroutine match(str,ipos,imatch)
! Sets imatch to the position in string of the delimiter matching the delimiter
! in position ipos. Allowable delimiters are (), [], {}, <>.
character(len=*) :: str
character :: delim1,delim2,ch
lenstr=len_trim(str)
delim1=str(ipos:ipos)
select case(delim1)
case('(')
idelim2=iachar(delim1)+1
istart=ipos+1
iend=lenstr
inc=1
case(')')
idelim2=iachar(delim1)-1
istart=ipos-1
iend=1
inc=-1
case('[','{','<')
idelim2=iachar(delim1)+2
istart=ipos+1
iend=lenstr
inc=1
case(']','}','>')
idelim2=iachar(delim1)-2
istart=ipos-1
iend=1
inc=-1
case default
write(*,*) delim1,' is not a valid delimiter'
return
end select
if(istart < 1 .or. istart > lenstr) then
write(*,*) delim1,' has no matching delimiter'
return
end if
delim2=achar(idelim2) ! matching delimiter
isum=1
do i=istart,iend,inc
ch=str(i:i)
if(ch /= delim1 .and. ch /= delim2) cycle
if(ch == delim1) isum=isum+1
if(ch == delim2) isum=isum-1
if(isum == 0) exit
end do
if(isum /= 0) then
write(*,*) delim1,' has no matching delimiter'
return
end if
imatch=i
return
end subroutine match
!**********************************************************************
subroutine write_dr(rnum,str,fmt)
! Writes double precision real number rnum to string str using format fmt
real(kr8) :: rnum
character(len=*) :: str,fmt
character(len=80) :: formt
formt='('//trim(fmt)//')'
write(str,formt) rnum
str=adjustl(str)
end subroutine write_dr
!***********************************************************************
subroutine write_sr(rnum,str,fmt)
! Writes single precision real number rnum to string str using format fmt
real(kr4) :: rnum
character(len=*) :: str,fmt
character(len=80) :: formt
formt='('//trim(fmt)//')'
write(str,formt) rnum
str=adjustl(str)
end subroutine write_sr
!***********************************************************************
subroutine write_di(inum,str,fmt)
! Writes double precision integer inum to string str using format fmt
integer(ki8) :: inum
character(len=*) :: str,fmt
character(len=80) :: formt
formt='('//trim(fmt)//')'
write(str,formt) inum
str=adjustl(str)
end subroutine write_di
!***********************************************************************
subroutine write_si(inum,str,fmt)
! Writes single precision integer inum to string str using format fmt
integer(ki4) :: inum
character(len=*) :: str,fmt
character(len=80) :: formt
formt='('//trim(fmt)//')'
write(str,formt) inum
str=adjustl(str)
end subroutine write_si
!***********************************************************************
subroutine trimzero(str)
! Deletes nonsignificant trailing zeroes from number string str. If number
! string ends in a decimal point, one trailing zero is added.
character(len=*) :: str
character :: ch
character(len=10) :: exp
ipos=scan(str,'eE')
if(ipos>0) then
exp=str(ipos:)
str=str(1:ipos-1)
endif
lstr=len_trim(str)
do i=lstr,1,-1
ch=str(i:i)
if(ch=='0') cycle
if(ch=='.') then
str=str(1:i)//'0'
if(ipos>0) str=trim(str)//trim(exp)
exit
endif
str=str(1:i)
exit
end do
if(ipos>0) str=trim(str)//trim(exp)
end subroutine trimzero
!**********************************************************************
subroutine writeq_dr(unit,namestr,value,fmt)
! Writes a string of the form <name> = value to unit
real(kr8) :: value
integer :: unit
character(len=*) :: namestr,fmt
character(len=32) :: tempstr
call writenum(value,tempstr,fmt)
call trimzero(tempstr)
write(unit,*) trim(namestr)//' = '//trim(tempstr)
end subroutine writeq_dr
!**********************************************************************
subroutine writeq_sr(unit,namestr,value,fmt)
! Writes a string of the form <name> = value to unit
real(kr4) :: value
integer :: unit
character(len=*) :: namestr,fmt
character(len=32) :: tempstr
call writenum(value,tempstr,fmt)
call trimzero(tempstr)
write(unit,*) trim(namestr)//' = '//trim(tempstr)
end subroutine writeq_sr
!**********************************************************************
subroutine writeq_di(unit,namestr,ivalue,fmt)
! Writes a string of the form <name> = ivalue to unit
integer(ki8) :: ivalue
integer :: unit
character(len=*) :: namestr,fmt
character(len=32) :: tempstr
call writenum(ivalue,tempstr,fmt)
call trimzero(tempstr)
write(unit,*) trim(namestr)//' = '//trim(tempstr)
end subroutine writeq_di
!**********************************************************************
subroutine writeq_si(unit,namestr,ivalue,fmt)
! Writes a string of the form <name> = ivalue to unit
integer(ki4) :: ivalue
integer :: unit
character(len=*) :: namestr,fmt
character(len=32) :: tempstr
call writenum(ivalue,tempstr,fmt)
call trimzero(tempstr)
write(unit,*) trim(namestr)//' = '//trim(tempstr)
end subroutine writeq_si
!**********************************************************************
function is_letter(ch) result(res)
! Returns .true. if ch is a letter and .false. otherwise
character :: ch
logical :: res
select case(ch)
case('A':'Z','a':'z')
res=.true.
case default
res=.false.
end select
return
end function is_letter
!**********************************************************************
function is_digit(ch) result(res)
! Returns .true. if ch is a digit (0,1,...,9) and .false. otherwise
character :: ch
logical :: res
select case(ch)
case('0':'9')
res=.true.
case default
res=.false.
end select
return
end function is_digit
!**********************************************************************
subroutine split(str,delims,before,sep)
! Routine finds the first instance of a character from 'delims' in the
! the string 'str'. The characters before the found delimiter are
! output in 'before'. The characters after the found delimiter are
! output in 'str'. The optional output character 'sep' contains the
! found delimiter. A delimiter in 'str' is treated like an ordinary
! character if it is preceded by a backslash (\). If the backslash
! character is desired in 'str', then precede it with another backslash.
character(len=*) :: str,delims,before
character,optional :: sep
logical :: pres
character :: ch,cha
pres=present(sep)
str=adjustl(str)
call compact(str)
lenstr=len_trim(str)
if(lenstr == 0) return ! string str is empty
k=0
ibsl=0 ! backslash initially inactive
before=' '
do i=1,lenstr
ch=str(i:i)
if(ibsl == 1) then ! backslash active
k=k+1
before(k:k)=ch
ibsl=0
cycle
end if
if(ch == '\\') then ! backslash with backslash inactive
k=k+1
before(k:k)=ch
ibsl=1
cycle
end if
ipos=index(delims,ch)
if(ipos == 0) then ! character is not a delimiter
k=k+1
before(k:k)=ch
cycle
end if
if(ch /= ' ') then ! character is a delimiter that is not a space
str=str(i+1:)
if(pres) sep=ch
exit
end if
cha=str(i+1:i+1) ! character is a space delimiter
iposa=index(delims,cha)
if(iposa > 0) then ! next character is a delimiter
str=str(i+2:)
if(pres) sep=cha
exit
else
str=str(i+1:)
if(pres) sep=ch
exit
end if
end do
if(i >= lenstr) str=''
str=adjustl(str) ! remove initial spaces
return
end subroutine split
!**********************************************************************
subroutine removebksl(str)
! Removes backslash (\) characters. Double backslashes (\\) are replaced
! by a single backslash.
character(len=*):: str
character(len=1):: ch
character(len=len_trim(str))::outstr
str=adjustl(str)
lenstr=len_trim(str)
outstr=' '
k=0
ibsl=0 ! backslash initially inactive
do i=1,lenstr
ch=str(i:i)
if(ibsl == 1) then ! backslash active
k=k+1
outstr(k:k)=ch
ibsl=0
cycle
end if
if(ch == '\\') then ! backslash with backslash inactive
ibsl=1
cycle
end if
k=k+1
outstr(k:k)=ch ! non-backslash with backslash inactive
end do
str=adjustl(outstr)
end subroutine removebksl
!**********************************************************************
end module strings