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trajana.f90
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trajana.f90
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PROGRAM trajana
! --------------------------------------------------------------------
! reads an TRAJECTORY or xyz file
! give the filename on the command line or it defaults to TRAJECTORY
! Features:
! -skips '<<NEW DATA' lines
! -skips blank lines
! -finds the number of atoms
! LIMITATIONS
! -assumes that the number of atoms is the same throughout the
! trajectory
! --------------------------------------------------------------------
IMPLICIT NONE
CHARACTER (80) :: line, output_filename, in_filename, out_filename, &
todo_filename
INTEGER :: read_status, natoms, argcount
INTEGER :: iu_infile = 25
INTEGER :: iu_outfile = 35
INTEGER :: iu_todofile = 45
INTEGER :: nframes
DOUBLE PRECISION, PARAMETER :: au2ang = 0.5291772
INTEGER, DIMENSION (1000,5) :: actiontype
INTEGER :: nactions
INTEGER :: iostatus
INTEGER :: style
INTEGER :: IARGC
argcount = COMMAND_ARGUMENT_COUNT()
if (argcount==0) then
in_filename = "TRAJECTORY"
elseif (argcount==1) then
CALL GET_COMMAND_ARGUMENT(1,in_filename)
else
STOP "TOO MANY ARGUMENTS"
endif
out_filename = "trajana.out"
todo_filename = "trajana.in"
iostatus = 0
open (iu_infile,FILE=in_filename,IOSTAT=iostatus,STATUS='OLD')
if (iostatus.NE.0) CALL give_info("unable to open TRAJECTORY","")
open (iu_todofile,FILE=todo_filename,IOSTAT=iostatus,STATUS='OLD')
if (iostatus.NE.0) CALL give_info("unable to open trajana.in","")
open (iu_outfile,FILE=out_filename,IOSTAT=iostatus,STATUS='UNKNOWN')
if (iostatus.NE.0) CALL give_info("unable to open trajana.out","")
write(*,*) "Opened file ",in_filename
call determine_style(iu_infile, style)
call determine_number_of_atoms (iu_infile, natoms, style)
write(*,*) "atoms per frame : ", natoms
if (natoms.LE.0) CALL give_info("number of atoms should be > 0","")
call determine_number_of_frames (iu_infile, natoms, nframes,style)
write(*,*) "number of frames : ",nframes
if (nframes.LE.0) CALL give_info("number of frames should be > 0","")
call read_todo(iu_todofile, actiontype, nactions,natoms)
write(*,*) "number of quantities to be calculated : ",nactions
call process_data(iu_infile,iu_outfile,natoms,nframes, actiontype, nactions,style)
close (iu_infile, status="KEEP")
close (iu_outfile, status="KEEP")
close (iu_todofile, status="KEEP")
write(*,'(/)')
CONTAINS
!==============================================================================
!==============================================================================
SUBROUTINE give_info(S,S2)
character(*) , INTENT(IN) :: S,S2
write(*,*) "**** TRAJectory ANAlyzer ****"
write(*,*) "Following error occurred : "
write(*,*) ""
write(*,*) S
write(*,*) S2
write(*,*) ""
write(*,*) "**** TRAJectory ANAlyzer ****"
write(*,*) "**** Manual ****"
write(*,*) "*****************************"
write(*,*) "It can calculate - Distances in angstrom"
write(*,*) " - Angles in degrees"
write(*,*) " - Torsion angles in degrees"
write(*,*) "This program will read from the file TRAJECTORY"
write(*,*) "or from the file given on the command line"
write(*,*) "This file can either be in xmol or TRAJECTORY format"
write(*,*) " file trajana.in"
write(*,*) " and write to the file trajana.out"
write(*,*) ""
write(*,*) ""
write(*,*) "the structure of trajana.in is as follows"
write(*,*) "----------------------------------"
write(*,*) "D[istance] #1 #1"
write(*,*) "A[ngle] #1 #2 #3"
write(*,*) "T[orsion] #1 #2 #3 #4"
write(*,*) "! COMMENT"
write(*,*) "# COMMENT"
write(*,*) "C COMMENT"
write(*,*) "----------------------------------"
write(*,*) "the program only checks for the first character of the line"
write(*,*) "so abbrev. may be used"
write(*,*) "the order of the lines is not important."
write(*,*) "The number of lines is limited to 1000"
write(*,*) "#1 #2 #3 #4, are the numbers of the atoms as they appear in"
write(*,*) " the trajectory / movie / output file with 1 being the first"
write(*,*) ""
write(*,*) ""
write(*,*) "the structure of trajana.out is as follows"
write(*,*) "----------------------------------"
write(*,*) "#1 #2 #3 #4 #5 ....."
write(*,*) " ...."
write(*,*) "----------------------------------"
write(*,*) "#1 is the number of the frame analyzed"
write(*,*) " #2 #3 ... is the distance,angle,torsion, in the same order "
write(*,*) " as it appears in the trajana.in file"
write(*,*) "the following line will be for the following frame"
STOP
END SUBROUTINE give_info
!==============================================================================
!==============================================================================
SUBROUTINE determine_style(iu, style)
INTEGER, INTENT(IN) :: iu
INTEGER, INTENT(OUT):: style
CHARACTER (120):: line
INTEGER:: ls, read_status
double precision :: rtemp
rewind (iu)
call read_line(iu, read_status, line)
if (read_status .ne. 0) then
CALL give_info("error reading file","empty")
endif
ls = 1
call csgetr (line, ls, rtemp)
call csgetr (line, ls, rtemp)
if (ls == 0)then
style = 1
write (*,*) "Taking the XMOL format "
else
style = 2
write (*,*) "Taking the TRAJECTORY format"
endif
END SUBROUTINE determine_style
!==============================================================================
!==============================================================================
SUBROUTINE determine_number_of_frames (iu, natoms, nframes, style)
INTEGER, INTENT(IN) :: iu
INTEGER, INTENT(IN) :: natoms, style
INTEGER, INTENT(OUT) :: nframes
INTEGER :: read_status, itemp, iatom_type
INTEGER :: iframes, i
LOGICAL :: continue_read
INTEGER :: iatom, ls
CHARACTER (120) :: line
rewind (iu)
iframes = 0
continue_read = .true.
do
iframes = iframes + 1
if (style==1)then !xmol - file
do i=1,2 ! number of atoms and comment
call read_line (iu, read_status, line)
if (read_status .ne. 0) then
continue_read = .false.
exit
end if
end do
endif
do iatom = 1, natoms
call read_line (iu, read_status, line)
if (read_status .ne. 0) then
continue_read = .false.
exit
end if
end do
if (.not.continue_read) then
exit
endif
end do
nframes = iframes - 1
END SUBROUTINE determine_number_of_frames
!==============================================================================
!==============================================================================
SUBROUTINE determine_number_of_atoms(iu, natoms, style)
INTEGER, INTENT(IN) :: iu, style
INTEGER, INTENT(OUT) :: natoms
INTEGER :: read_status, itemp, frame
LOGICAL :: continue_read
INTEGER :: iatom, ls
CHARACTER (120) :: line
rewind (iu)
natoms = 0
continue_read = .true.
frame = -1
if (style==1)then !xmol - file
call read_line (iu, read_status, line)
ls = 1
CALL csgeti(line,ls,itemp)
if (ls.EQ.0) then
CALL give_info("error reading xmol",line)
endif
natoms=itemp
else !trajectory - file
do
call read_line_2 (iu, read_status, line)
if (read_status .ne. 0) then
exit
end if
ls = 1
CALL csgeti(line,ls,itemp)
if (ls.eq.0) then
exit
endif
if (frame.eq.-1) then
natoms=natoms+1
frame=itemp
else
if (itemp.EQ.frame) then
natoms=natoms+1
else
exit
endif
endif
end do
endif
END SUBROUTINE determine_number_of_atoms
!==============================================================================
!==============================================================================
SUBROUTINE read_todo (iu,actiontype,nactions,natoms)
INTEGER, INTENT(IN) :: iu, natoms
INTEGEr, INTENT(OUT) :: nactions
INTEGER, DIMENSION(1000,5), INTENT(OUT) :: actiontype
INTEGER :: read_status, itemp, iatom_type
LOGICAL :: continue_read
INTEGER :: iatom, ls
CHARACTER (120) :: line
CHARACTER :: firstchar
rewind (iu)
continue_read = .true.
nactions = 0
do
call read_line_2 (iu, read_status, line)
if (read_status .ne. 0) then
continue_read=.false.
exit
end if
if (read_status .eq. 0) then
read (line,'(A1)') firstchar
select case (firstchar)
case('D','d')
nactions = nactions + 1
actiontype(nactions,1) = 1
ls = 1
CALL csgeti(line,ls,itemp)
actiontype(nactions,2)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
CALL csgeti(line,ls,itemp)
actiontype(nactions,3)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
case('A','a')
nactions = nactions + 1
actiontype(nactions,1) = 2
ls = 1
CALL csgeti(line,ls,itemp)
actiontype(nactions,2)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
CALL csgeti(line,ls,itemp)
actiontype(nactions,3)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
CALL csgeti(line,ls,itemp)
actiontype(nactions,4)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
case('T','t')
nactions = nactions + 1
actiontype(nactions,1) = 3
ls = 1
CALL csgeti(line,ls,itemp)
actiontype(nactions,2)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
CALL csgeti(line,ls,itemp)
actiontype(nactions,3)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
CALL csgeti(line,ls,itemp)
actiontype(nactions,4)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
CALL csgeti(line,ls,itemp)
actiontype(nactions,5)=itemp
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
case('!','C','#',' ')
! this is just a comment line
case default
!something wrong in syntax
if ((ls.EQ.0).OR.(itemp.LE.0).OR.(itemp.GT.natoms)) CALL give_info("error in trajana.in",line)
end select
end if
end do
if (read_status.EQ.2) CALL give_info("Error reading trajana.in","")
END SUBROUTINE read_todo
!==============================================================================
SUBROUTINE process_data(iu_infile,iu_outfile,natoms,nframes,actiontype,nactions,style)
INTEGER, INTENT(IN) :: iu_outfile
INTEGER, INTENT(IN) :: iu_infile
INTEGER, INTENT(IN) :: nframes
INTEGER, INTENT(IN) :: natoms, style
INTEGER, INTENT(IN) :: nactions
INTEGER, DIMENSION(1000,5), INTENT(IN) :: actiontype
DOUBLE PRECISION, DIMENSION (1000) :: results
DOUBLE PRECISION, DIMENSION (3,natoms) :: xyz
DOUBLE PRECISION, PARAMETER :: au2ang = 0.5291772
DOUBLE PRECISION, PARAMETER :: rad2deg = 57.29578
DOUBLE PRECISION, DIMENSION (3,8) :: dummyvec
INTEGER :: iframe, iaction, I, K, iatom, J
DOUBLE PRECISION :: distance, scal, norm, scal2
CHARACTER (80) :: LINE_OUT
INTEGER :: read_status, itemp, iatom_type, ls
CHARACTER(120) :: line
CHARACTER(120) :: element_type
WRITE (LINE_OUT,'(A,I5,A)') '(I10.7,',nactions,'E15.7)'
rewind (iu_infile)
DO iframe=1, nframes ! TO GET THE data
if (style==1)then
call read_line (iu_infile, read_status, line)
call read_line (iu_infile, read_status, line)
endif
do iatom = 1, natoms
call read_line (iu_infile, read_status, line)
ls = 1
if (style==1)then
call csgets(line,ls, element_type)
else
call csgeti (line, ls, itemp)
endif
call csgetr (line, ls, xyz(1,iatom))
call csgetr (line, ls, xyz(2,iatom))
call csgetr (line, ls, xyz(3,iatom))
if (ls.EQ.0) CALL give_info("error in trajana.in","")
! call csgetr (line, ls, dtemp) ! to get the velocities
! call csgetr (line, ls, dtemp)
! call csgetr (line, ls, dtemp)
end do
DO iaction=1, nactions
select case (actiontype(iaction,1))
case (1)
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,2)), &
-1.0D0, xyz(1,actiontype(iaction,3)), &
dummyvec(1,1) )
CALL getnorm(dummyvec(1,1), distance)
if (style==1)then
results(iaction) = distance
else
results(iaction) = distance * au2ang
endif
case (2)
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,2)), &
-1.0D0, xyz(1,actiontype(iaction,3)), &
dummyvec(1,1) )
CALL normvec(dummyvec(1,1), dummyvec(1,1))
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,4)), &
-1.0D0, xyz(1,actiontype(iaction,3)), &
dummyvec(1,2) )
CALL normvec(dummyvec(1,2), dummyvec(1,2))
CALL getscal(dummyvec(1,1), dummyvec(1,2), scal)
results(iaction) = acos ( scal )*rad2deg
case (3)
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,2)), &
-1.0D0, xyz(1,actiontype(iaction,3)), &
dummyvec(1,1) )
CALL normvec(dummyvec(1,1), dummyvec(1,1))
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,4)), &
-1.0D0, xyz(1,actiontype(iaction,3)), &
dummyvec(1,2) )
CALL normvec(dummyvec(1,2), dummyvec(1,2))
CALL vecprod(dummyvec(1,1),dummyvec(1,2),dummyvec(1,5))
CALL normvec(dummyvec(1,5),dummyvec(1,5))
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,3)), &
-1.0D0, xyz(1,actiontype(iaction,4)), &
dummyvec(1,3) )
CALL normvec(dummyvec(1,3), dummyvec(1,3))
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,5)), &
-1.0D0, xyz(1,actiontype(iaction,4)), &
dummyvec(1,4) )
CALL normvec(dummyvec(1,4), dummyvec(1,4))
CALL vecprod(dummyvec(1,3),dummyvec(1,4),dummyvec(1,6))
CALL normvec(dummyvec(1,6),dummyvec(1,6))
CALL addvec( 1.0D0, xyz(1,actiontype(iaction,4)), &
-1.0D0, xyz(1,actiontype(iaction,3)), &
dummyvec(1,8) )
CALL getscal(dummyvec(1,5),dummyvec(1,6),scal)
CALL vecprod(dummyvec(1,5),dummyvec(1,6),dummyvec(1,7))
CALL getnorm(dummyvec(1,7),norm)
CALL getscal(dummyvec(1,7),dummyvec(1,8),scal2)
results(iaction) = ACOS(scal)
IF (scal2.LT.0) THEN
results(iaction) = -results(iaction) +&
2*3.1415926535
END IF
results(iaction)=results(iaction)*rad2deg
end select
END DO
WRITE (iu_outfile,LINE_OUT) iframe,(results(J),J=1,nactions)
END DO
END SUBROUTINE process_data
!==============================================================================
!==============================================================================
SUBROUTINE read_line ( iu, status_out, line)
! ---------------------------------------------------------
! reads the from input and skips selected kinds of lines
!
! status_out = 0 everything normal
! 1 end of file reached
! 2 some other kind of error
! ---------------------------------------------------------
INTEGER, INTENT(IN) :: iu
INTEGER, INTENT(OUT) :: status_out
CHARACTER(*), INTENT(IN OUT) :: line
INTEGER :: ios
status_out = 0
do
read (iu, '(a120)', IOSTAT=ios, END=999) line
if (ios .ne. 0) then
status_out = 2
exit
end if
if (line(4:5) == '<<') cycle
if (line .ne. "") exit
end do
return
! ---------------------------------------
! If end of file is reached reading input
! ---------------------------------------
999 continue
status_out = 1
END SUBROUTINE read_line
!==============================================================================
!==============================================================================
SUBROUTINE read_line_2 ( iu, status_out, line)
! ---------------------------------------------------------
! reads the from input and skips selected kinds of lines
!
! status_out = 0 everything normal
! 1 end of file reached
! 2 some other kind of error
! ---------------------------------------------------------
INTEGER, INTENT(IN) :: iu
INTEGER, INTENT(OUT) :: status_out
CHARACTER(*), INTENT(IN OUT) :: line
INTEGER :: ios
status_out = 0
do
read (iu, '(a120)', IOSTAT=ios, END=9999) line
if (ios .ne. 0) then
status_out = 2
exit
end if
if (line .ne. "") exit
end do
return
! ---------------------------------------
! If end of file is reached reading input
! ---------------------------------------
9999 continue
status_out = 1
END SUBROUTINE read_line_2
!==============================================================================
END PROGRAM trajana
subroutine csbegn (string, is)
!
! ======================================================================
!
! purpose: determine the position of the first non-blank character
! in a string.
!
! input : string - character string to be analyzed
!
! output : is - position of first non-blank (0 if not found)
!
! *=====================================================================
!
implicit integer (i-n)
implicit double precision (a-h,o-z)
!
parameter (lchars = 80)
character*(lchars) line, word
logical valid
! ----------------------------------------------------------------------
character*(*) string
!
parameter (nchop = 8)
character*(nchop) space8
parameter (space8 = ' ')
!
! ======================================================================
!
l2 = len (string)
l1 = 0
10 if (l2-l1 .ge.nchop) then
if (string(l1+1:l1+nchop) .ne.space8) goto 20
l1 = l1+nchop
goto 10
endif
!
20 l1 = l1+1
if (l1.gt.l2) then
l1 = 0
elseif (string(l1:l1) .eq.' ') then
goto 20
endif
!
is = l1
!
return
end
subroutine csend (string, ls)
!
! ======================================================================
!
! purpose: determine the end of a character string, not counting the
! end-blanks.
!
! input : string - string to be analyzed
!
! output : ls - position of the last non-blank character
!
! *=====================================================================
!
implicit integer (i-n)
implicit double precision (a-h,o-z)
!
parameter (lchars = 80)
character*(lchars) line, word
logical valid
! ----------------------------------------------------------------------
character*(*) string
!
parameter (nchop = 8)
!
! ======================================================================
!
ll = len (string)
if (ll.le.0) then
stop
end if
!
l2 = 0
10 if (string(l2+1:) .eq.' ') goto 20
if (l2+nchop .lt.ll) then
l2 = l2+nchop
goto 10
endif
l2 = ll
!
20 if (l2.eq.0) goto 50
if (string(l2:l2) .ne.' ') goto 50
l2 = l2-1
goto 20
!
50 ls = l2
!
return
end
logical function cseq (strng1, strng2)
!
! ======================================================================
!
! purpose: test whether two strings are equal, neglecting end-blanks
! and initial blanks. neglect lower/uppercase.
!
! input : strng1, strngs - two strings
!
! *=====================================================================
!
implicit integer (i-n)
implicit double precision (a-h,o-z)
!
parameter (lchars = 80)
character*(lchars) line, word
logical valid
! ----------------------------------------------------------------------
!
character*(*) strng1, strng2
character*(26) lowerc, upperc
character*(1) c1,c2
!
data lowerc / 'abcdefghijklmnopqrstuvwxyz' /, &
& upperc / 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' /
!
! ======================================================================
!
call csend (strng1, ls1)
call csend (strng2, ls2)
!
if (ls1.gt.0 .and. ls2.gt.0) then
!
call csbegn (strng1, is1)
call csbegn (strng2, is2)
!
if (ls1-is1 .ne. ls2-is2) then
cseq = .false.
elseif (strng1(is1:ls1) .eq. strng2(is2:ls2)) then
cseq = .true.
!
else
!
! upper/lowercase
!
cseq = .false.
!
k = -1
10 k = k+1
!
k1 = is1+k
c1 = strng1(k1:k1)
j1 = index (lowerc, c1) + index (upperc, c1)
!
k2 = is2+k
c2 = strng2(k2:k2)
j2 = index (lowerc, c2) + index (upperc, c2)
!
if (j1.ne.j2) then
return
elseif (j1.eq.0) then
if (c1.ne.c2) return
endif
!
if (k1.lt.ls1) goto 10
!
cseq = .true.
endif
!
else
cseq = (ls1.eq.0) .and. (ls2.eq.0)
endif
!
return
end
subroutine csgeti (string, is, ival)
!
! ======================================================================
!
! purpose: get the next integer from a string (skip any preceding
! non-numeric data)
!
! input : string
!
! in-out : is - in : position to start searching
! n.b.: if non-positive, start at 1
! : out: (only when positive on input)
! 0 : not found
! other: position after item
!
! output : ival - integer (if found)
!
! *=====================================================================
!
implicit integer (i-n)
implicit double precision (a-h,o-z)
!
parameter (lchars = 80)
character*(lchars) line, word
logical valid
! ----------------------------------------------------------------------
character*(*) digits, string
!
parameter (digits = '0123456789')
!
! ======================================================================
!
istart = max (1,is)
lx = len (string)
ip = 0
!
! locate the first digit
!
do 50 i0 = istart, lx
if (index (digits,string(i0:i0)) .gt.0) then
!
! scan the integer, by transforming all successive digits from character
! into numerical value, and updating the total integer value
!
m0 = ichar('0')
ival = 0
!
ip = i0
10 ival = 10*ival + ichar (string(ip:ip)) - m0
ip = ip+1
!
if (ip.le.lx) then
if (index (digits,string(ip:ip)) .gt.0) goto 10
endif
!
! check for a preceding minus sign (if the integer did not start at the
! first character of the input string)
!
if (i0.gt.istart) then
if (string(i0-1:i0-1) .eq.'-') ival = -ival
endif
!
goto 60
!
endif
50 continue
!
60 if (is.gt.0) is = ip
!
return
end
subroutine csgetr (string, is, rval)
!
! ======================================================================
!
! purpose: get the next real value from a string (skipping preceding
! non-numeric data)
!
! input : string
!
! in-out : is - in : position to start searching
! n.b.: if non-positive, start at 1
! : out: (only when positive on input)
! 0 : not found
! other: position after item
!
! output : rval - real value (if found)
!
! remark * a real number r is written as : r = s i1 . i2 e
! (no blanks between the parts)
! s is a sign (optional)
! i1 and i2 are unsigned integers. one of them may be absent
! the decimal point is optional if i2 is absent
! e is the exponential part (optional), written as : e = p s i
! (no blanks between the parts)
! p is the power indicator (d or e)
! s is a sign (optional)
! i is an unsigned integer
!
! *=====================================================================
!
implicit integer (i-n)
implicit double precision (a-h,o-z)
!
parameter (lchars = 80)
character*(lchars) line, word
logical valid
! ----------------------------------------------------------------------
!
character*(*) digits, string
character*(1) ch
logical cseq
!
parameter (digits = '0123456789')
!
! ======================================================================
!
! get the starting digit of the first integer part (i1 or i2)
!
istart = max (1,is)
lx = len(string)
!
do 400 i0 = istart, lx
ch = string(i0:i0)
if (index (digits,ch) .ne.0) goto 410
400 continue
goto 1000
!
! end of this integer part
!
410 do 420 j = i0+1, lx
ch = string(j:j)
if (index (digits,ch) .eq.0) goto 450
420 continue
ix = lx+1
goto 600
!
! integer preceded by a decimal point. if yes then proceed to
! the exponential part (i1 is absent)
!
450 if (i0.gt.istart) then
if (string(i0-1:i0-1) .eq.'.') then
i0 = i0-1
goto 550
endif
endif
!
! integer not followed by decimal point: goto expo part
!
if (ch.ne.'.') goto 550
!
! end of decimal fraction
!
k = j+1
do 500 j = k, lx
ch = string(j:j)
if (index (digits,ch) .eq.0) goto 550
500 continue
ix = lx+1
goto 600
!
! check presence of i2 (fractional part)
!
550 ix = j
if (cseq (ch,'E') .or. cseq (ch,'D')) then
!
j = j+1
if (j.gt.lx) goto 600
if (string(j:j).eq.'+' .or. string(j:j).eq.'-') then
j = j+1
if (j.gt.lx) goto 600
endif
if (index (digits,string(j:j)) .eq.0) goto 600
!
do 560 ix = j+1, lx
ch = string(ix:ix)
if (index (digits,ch) .eq.0) goto 600
560 continue
ix = lx+1
!
endif
!
! complete number may be preceded by a sign
!
600 if (i0.gt.istart) then
if (string(i0-1:i0-1).eq.'+'.or.string(i0-1:i0-1).eq.'-') i0 = i0-1
endif
!
if (ix-i0 .gt. 80) stop
line = string(i0:ix-1)
read (line,'(BN,F80.0)') rval
ip = ix
!
goto 1050
!
! ----------------------------------------------------------------------
1000 ip = 0
1050 if (is.gt.0) is = ip
!
return
end
subroutine csgets (string, is, text)
!
! ======================================================================
!
! purpose: get the next non-empty substring from a string (i.e. the part
! separated from the remaining part by any from a set of
! delimiters: comma, blank, ...)
!
! input : string
!
! in-out : is - in : position to start searching
! n.b.: if non-positive, start at 1
! : out: (only when positive on input)
! 0 : not found
! other: position after item
!
! output : text - substring (if found)
!
! *=====================================================================
!
implicit integer (i-n)
implicit double precision (a-h,o-z)
!
parameter (lchars = 80)
character*(lchars) line, word
logical valid
! ----------------------------------------------------------------------
character*(*) delim, string, text
!
parameter (delim = ' ,=')
!
! ======================================================================
!
istart = max (1,is)
lx = len (string)
!
ip = 0
do 50 i = istart, lx
if (index (delim, string(i:i)) .le.0) then
!
ip = i
10 ip = ip+1
if (ip.le.lx) then
if (index (delim, string(ip:ip)) .le.0) goto 10
endif
!
text = string(i:ip-1)
goto 60
endif
50 continue
!
60 if (is.gt.0) is = ip
!
return
end
! ==================================================================
SUBROUTINE getnorm(vec,dnorm)
IMPLICIT DOUBLE PRECISION (A-H,O-Z)
DIMENSION vec(3)
! ==--------------------------------------------------------------==
dnorm = sqrt ( vec(1)*vec(1) + vec(2)*vec(2) + vec(3)*vec(3) )
! ==--------------------------------------------------------------==
RETURN
END