! source file: /raid23/csomes/UVic/2.9/c_n_isotopes/last_glacial_experiments/dlgp15/updates/iomngr.F subroutine ioinit !======================================================================= ! Ioinit initializes logical array "inuse" to show which i/o units ! are available to the subroutine getunitnumber. It also ! initializes the array fname of file names associated with each ! i/o unit, and opens a file "iohistory", if enabled. !======================================================================= implicit none integer last_reserved_unit, i, last_reserved parameter (last_reserved_unit=0) include "stdunits.h" include "iomngr.h" do i=0,maxfilenames hide_file(i) = .false. iunit(i) = 0 fname(i) = ' ' enddo fname(0) = ' ' fname(1) = 'reserved' nfiles = 1 ! reserve units 1..last_reserved_unit (making them not available) ! units last_reserved_unit+1..maxunit=99 are available ! unnecessary assignment to avoid WARNING on sgi f77 compiler last_reserved = last_reserved_unit do i=1,last_reserved inuse(i) = .true. ifile(i) = 1 scratch_file(i) = .false. unix_name(i) = .true. enddo do i=last_reserved_unit+1,maxunit inuse(i) = .false. ifile(i) = 0 scratch_file(i) = .false. unix_name(i) = .true. enddo ! reserve units 5 and 6, whether or not they are stdin/stdout inuse(5) = .true. inuse(6) = .true. ifile(5) = 1 ifile(6) = 1 ! reserve standard i/o files: stdin, stdout, stderr call link_unit (stdin, 'stdin') call link_unit (stdout, 'stdout') if (stderr .ne. stdout) then call link_unit (stderr, 'stderr') else fname(ifile(stdout)) = 'stdout/stderr' endif return end subroutine iomngr_resume !======================================================================= ! iomngr_resume resumes normal operation of the iomngr after a ! call release_all has closed all files cleanly to permit executing ! a section of code that does not use the iomngr to allocate ! units. It reopens the file "iohistory", if enabled. !======================================================================= implicit none include "stdunits.h" include "iomngr.h" return end subroutine getunitnumber (iounit) !======================================================================= ! getunitnumber assigns a Fortran i/o unit number that does not ! conflict with any i/o unit currently in use. ! comments: ! see relunit which releases a Fortran i/o unit number. !======================================================================= implicit none character(120) :: name integer i, iostat, iounit logical opened include "stdunits.h" include "iomngr.h" do i = 1,maxunit if (.NOT. inuse(i)) then ! check if opened without getunit. inquire(i,OPENED=opened) if (.not. opened) goto 101 endif enddo ! "Normal" termination of the do loop indicates all units are in use write (stdout, '(a4)') & 'ERROR: No i/o units available -- Execution terminated' call showunits stop '==>Getunit' 101 continue iounit = i inuse(i) = .true. return end subroutine getunit (iounit, oldfilename, optionlist) !======================================================================= ! getunit gets an unused Fortran unit number, assigns it to the ! dummy argument iounit, and opens it with FILE=filename and options ! given in optionlist. Enable cpp directive "print_io_description" ! to see the list of options. !======================================================================= implicit none character(*) :: oldfilename, optionlist character(120) :: filename, new_file_name character(160) :: options character(2) :: aiounit character(15) :: ssequential, sdirect character(15) :: sformatted, sunformatted character(15) :: srewind, sappend character(15) :: sread, swrite, sreadwrite, sunknown, sold, snew character(15) :: sstatus, saccess, sform, sposition, saction character(15) :: sieee, srec_len, sdummy character(15) :: sblocking, psblocking, snumeric character(15) :: ssave, sovfl character(15) :: sffio, snamelist logical scan_option, scan_size, exists, named logical skip_open integer errors, irec_len, iblock, iword, ibyte, inum integer ibuffer, maxsize, layer, i, iounit include "stdunits.h" include "iomngr.h" data ssequential /'SEQUENTIAL'/ data sdirect /'DIRECT'/ data sformatted /'FORMATTED'/ data sunformatted /'UNFORMATTED'/ data srewind /'REWIND'/ data sappend /'APPEND'/ data sread /'READ'/ data swrite /'WRITE'/ data sreadwrite /'READWRITE'/ data sunknown /'UNKNOWN'/ data sold /'OLD'/ data snew /'NEW'/ filename = new_file_name (oldfilename) ! set default file attributes saccess = ssequential sform = ' ' sposition = srewind saction = sreadwrite sstatus = sunknown sblocking = ' ' psblocking = ' ' sieee = ' ' snumeric = ' ' ssave = 'save' sovfl = 'novfl' irec_len = 0 iblock = 0 iword = 0 ibyte = 0 inum = 0 ibuffer = 0 maxsize = 0 layer = 0 sffio = ' ' snamelist = ' ' ! convert options list to lowercase options = optionlist call tolower (options) ! decode options: i = 1 errors = 0 100 continue if (i .gt. len_trim(options)) go to 101 ! scan options by full names if (scan_option(options, i, & 'sequential', saccess, ssequential)) then elseif (scan_option(options, i, & 'direct', saccess, sdirect)) then call setreclen (irec_len,srec_len,sform,iblock,iword,ibyte) if (irec_len .eq. 0) then print '(a,a,/,a,a)', & '=>ERROR in getunit options list:', & ' ''direct'' requires a record length', & ' options=',options errors = errors + 1 endif elseif (scan_option(options, i, 'recl', sdummy, sdummy)) then call setreclen (irec_len,srec_len,sform,iblock,iword,ibyte) if (irec_len .eq. 0) then print '(a,a,/,a,a)', & '=>ERROR in getunit options list:', & ' ''recl='' requires a record length', & ' options=',options errors = errors + 1 endif elseif (scan_option(options, i, & 'formatted', sform, sformatted)) then elseif (scan_option(options, i, & 'unformatted', sform, sunformatted)) then elseif (scan_option(options, i, & 'readwrite', saction, sreadwrite)) then elseif (scan_option(options, i, & 'read', saction, sread)) then print '(a,a)', 'WARNING: ACTION=''read'' not supported. ', & 'ACTION=''READWRITE'' is used.' elseif (scan_option(options, i, & 'write', saction, swrite)) then print '(a,a)', 'WARNING: ACTION=''write'' not supported. ', & 'ACTION=''READWRITE'' is used.' elseif (scan_option(options, i, & 'rewind', sposition, srewind)) then elseif (scan_option(options, i, & 'append', sposition, sappend)) then elseif (scan_option(options, i, 'ieee', sieee, 'ieee')) then elseif (scan_option(options, i, 'f77namelist', & snamelist, 'f77')) then ! scan for blocking options elseif (scan_option(options, i, 'fortran', & sblocking, 'f77')) then elseif (scan_option(options, i, 'f77', & sblocking, 'f77')) then elseif (scan_option(options, i, 'stream', & sblocking, 'null')) then elseif (scan_option(options, i, 'unblocked', & sblocking, 'null')) then elseif (scan_option(options, i, 'null', & sblocking, 'null')) then ! the 'buffer' option is parsed, but ignored on many systems ! f77 blocking is assumed elseif (scan_option(options, i, 'buffer', sdummy, sdummy)) then ! force new_layer to recognize f77 blocking sblocking = 'f77' if (scan_size(options, i, ibuffer, iblock, iword, ibyte)) then endif ! why assume that buffers are in bytes? f77 buffer units=bytes. call set2byte (ibuffer, iblock, iword, ibyte) inum = ibuffer if (ibuffer .eq. 0) then print '(a,a,/,a,a)', & '=>ERROR in getunit options list:', & ' ''buffer='' requires a size', & ' options=',options errors = errors + 1 endif ! scan options by abbreviated names elseif (scan_option(options, i, 's', saccess, ssequential)) then elseif (scan_option(options, i, 'd', saccess, sdirect)) then call setreclen (irec_len,srec_len,sform,iblock,iword,ibyte) if (irec_len .eq. 0) then print '(a,a,/,a,a)', & '=>ERROR in getunit options list:', & ' ''direct'' requires a record length', & ' options=',options errors = errors + 1 endif elseif (scan_option(options, i, 'f', sform, sformatted)) then elseif (scan_option(options, i, 'u', sform, sunformatted)) then elseif (scan_option(options, i, 'rw', saction, sreadwrite)) then elseif (scan_option(options, i, 'ro', saction, sread)) then elseif (scan_option(options, i, 'wo', saction, swrite)) then elseif (scan_option(options, i, 'r', sposition, srewind)) then elseif (scan_option(options, i, 'a', sposition, sappend)) then ! scan for size options with no introductory keyword ! the introductory keyword must be several options back elseif (scan_size(options, i, inum, iblock, iword, ibyte)) then else print '(4a)', '=>ERROR: Getunit unable to parse options=', & options(1:i-1), '|', & options(i:len_trim(options)) errors = errors + 1 i = i + 1 endif goto 100 ! end of scan loop ! a do loop is not be used because i is changed within the loop 101 continue if (errors .gt. 0) then print '(/a/a,i3,a)' &, 'STOP in getunit' &, 'There were',errors,' errors scanning the list of I/O options' stop endif ! in case neither "formatted" or "unformatted" is specified, choose ! the proper default for sequential and direct access files. if (sform .eq. ' ') then if (saccess .eq. ssequential) then sform = sformatted elseif (saccess .eq. sdirect) then sform = sunformatted endif endif !----------------------------------------------------------------------- ! See if the file has previously been opened in this run !----------------------------------------------------------------------- do i=1,nfiles if (fname(i) .eq. filename) then sstatus = sold if (iunit(i) .ne. 0) then ! This happens when a call relunit was executed for this file, ! but due to system bugs, it was necessary to merely hide the ! file while keeping it connected to a unit to permit later ! appending. iounit = iunit(i) ifile(iounit) = i inuse(iounit) = .true. if (sposition .eq. sappend) then skip_open = .true. else ! A previously hidden file that is now being opened with ! POSITION=REWIND. It should first be closed to permit ! reading from it. call close_file (iounit, filename) skip_open = .false. endif else ! This file is now closed, but had previously been opened. ! Get a new unit number and reconnect it. call getunitnumber (iounit) ifile(iounit) = i iunit(i) = iounit ! STATUS=UNKNOWN may cause rewind on some computers. ! This is incompatible with append if (sposition .eq. sappend) then sstatus = sold endif skip_open = .false. endif go to 201 endif enddo ! This file has not previously been opened in this run. ! Get a free unit number and bind it to the file ! unless the request is 'sdsalloc' which does not ! use a true i/o unit number. if (saccess .ne. 'sdsalloc') then call getunitnumber (iounit) call link_unit (iounit, filename) if (sposition .eq. sappend) then ! If file pre-exists, append to it, but if no such file ! exists, open a new file and rewind it. inquire (FILE=fname(nfiles), EXIST=exists, NAMED=named) if (.not. exists .or. .not. named) then sstatus = snew sposition = srewind else sstatus = sold endif endif endif skip_open = .false. 201 continue write (aiounit,'(i2)') iounit ! make 'stream' mean: sequential access, unformatted if (sblocking .eq. 'null') then saccess = ssequential sform = 'UNFORMATTED' endif !----------------------------------------------------------------------- ! select open statement compatible with options and computer platform !----------------------------------------------------------------------- if (skip_open) then goto 301 endif if (saccess .eq. ssequential .or. saccess .eq. sappend) then ! some compilers may allow a record length specifier for ! sequential access files. iomngr supports this possibility if (irec_len .eq. 0) then open (iounit, & FILE=filename, & FORM=sform, & ACCESS=saccess, & STATUS=sstatus &, POSITION=sposition & ) else open (iounit, & FILE=filename, & FORM=sform, & ACCESS=saccess, & STATUS=sstatus &, POSITION=sposition &, RECL=irec_len & ) endif unix_name(iounit) = .true. elseif (saccess .eq. sdirect) then open (iounit, & FILE=filename, & FORM=sform, & ACCESS=saccess, & RECL=irec_len, & STATUS=sstatus & ) ! unix_name(iounit) = .true. unix_name(iounit) = .false. endif 301 continue return end subroutine relunit (iounit) !======================================================================= ! Relunit releases a Fortran i/o unit number currently in use and ! closes the file. ! see Getunit which gets a Fortran i/o unit number. !======================================================================= implicit none integer ifn, iounit include "stdunits.h" include "iomngr.h" ifn = ifile(iounit) if (iounit .ge. 1 .and. iounit .le. maxunit) then inuse(iounit) = .false. if (.not. hide_file(ifn) .and. unix_name(iounit)) then call close_file (iounit, fname(ifn)) iunit(ifn) = 0 endif ifile(iounit) = 0 else print *,'=>ERROR: iounit is bad. iounit=',iounit stop 'relunit' endif return end subroutine release_all !======================================================================= ! Releases all user i/o units currently in use and their file names. ! All files except stdin, stdout, and stderr are closed. ! Hidden files are closed at this time. ! After a call to release_all, it is safe to execute a section of ! code that does not use the iomngr to allocate units. !======================================================================= implicit none integer ifn include "stdunits.h" include "iomngr.h" do ifn=1,nfiles if (iunit(ifn) .ne. 0) then if ((inuse(iunit(ifn)) .or. hide_file(ifn)) .and. & unix_name(iunit(ifn)) .and. & fname(ifn) .ne. 'reserved' .and. & fname(ifn) .ne. 'stdin' .and. & fname(ifn) .ne. 'stdout' .and. & fname(ifn) .ne. 'stderr' .and. & fname(ifn) .ne. 'stdout/stderr') then call close_file (iunit(ifn), fname(ifn)) ! mark file as released inuse(iunit(ifn)) = .false. iunit(ifn) = 0 endif endif enddo return end subroutine close_file (iounit, filename) !======================================================================= ! close Fortran unit iounit !======================================================================= implicit none integer iounit character(120) :: filename close (iounit) return end subroutine showunits !======================================================================= ! lists all i/o units currently in use and their file names. !======================================================================= implicit none integer i include "stdunits.h" include "iomngr.h" write(stdout, '(/,a,/)') 'i/o units in use' write(stdout, '(a5,tr1,a,tr1,a)') ' unit', 'hidden', 'file name' do i=1,maxunit if (inuse(i)) then write(stdout, '(i4,tr3,l2,tr4,a)') & i, hide_file(ifile(i)), & fname(ifile(i))(1:len_trim(fname(ifile(i)))) endif enddo return end !======================================================================= subroutine showfiles !======================================================================= ! lists all file names that have been used [in chronological order] !======================================================================= implicit none integer i include "stdunits.h" include "iomngr.h" write(stdout, '(/,a,/)') ' Files Used in This Run' write(stdout, '(a5,tr1,a,tr1,a)') ' ', 'hidden', 'file name' do i=1,nfiles write(stdout, '(i4,tr3,l2,tr4,a)') & i, hide_file(i), & fname(i)(1:len_trim(fname(i))) enddo return end !======================================================================= subroutine link_unit (iounit, filename) !======================================================================= ! links an i/o unit number to a new file name !----------------------------------------------------------------------- implicit none character(*) :: filename integer iounit include "stdunits.h" include "iomngr.h" nfiles = nfiles + 1 inuse(iounit) = .true. fname(nfiles) = filename ifile(iounit) = nfiles iunit(nfiles) = iounit return end !======================================================================= subroutine setreclen (irec_len,srec_len,sform,iblock,iword,ibyte) !----------------------------------------------------------------------- ! calculates record length for direct access files !----------------------------------------------------------------------- implicit none character(*) :: srec_len, sform character(15) :: sformatted data sformatted /'FORMATTED'/ integer irec_len, iblock, iword, ibyte if (sform .eq. sformatted) then call set2byte (irec_len, iblock, iword, ibyte) else call set2word (irec_len, iblock, iword, ibyte) endif call i2a(irec_len, srec_len) return end !======================================================================= subroutine set2byte (inum, iblock, iword, ibyte) implicit none integer inum, ibyte, iword, iblock !----------------------------------------------------------------------- ! if first argument is zero, sets first argument to value in bytes !----------------------------------------------------------------------- if (inum .eq. 0) then if (ibyte .ne. 0) then inum = ibyte elseif (iword .ne. 0) then inum = 4 * iword endif endif return end !======================================================================= subroutine set2word (inum, iblock, iword, ibyte) implicit none integer inum, ibyte, iword, iblock !----------------------------------------------------------------------- ! if first argument is zero, sets first argument to value in bytes !----------------------------------------------------------------------- if (inum .eq. 0) then if (ibyte .ne. 0) then inum = 1 + (ibyte - 1) / 4 elseif (iword .ne. 0) then inum = iword endif endif return end !======================================================================= subroutine tolower (string) !----------------------------------------------------------------------- ! converts all alphabetic characters in string to lowercase !----------------------------------------------------------------------- implicit none character(*) :: string character(1) :: c integer lcshift, i parameter (lcshift=32) do i=1,len(string) c = string(i:i) if ('A' .le. c .and. c .le. 'Z') then string(i:i) = char(ichar(c) + lcshift) endif enddo return end !======================================================================= subroutine i2a (i, a) implicit none character(*) :: a character(15) :: string integer i, j write (string, '(i15)') i do j=1,15 if (string(j:j) .ne. ' ') go to 101 enddo 101 continue a = string(j:) return end !======================================================================= function scan_option (options, i, spattern, svar, soption) !----------------------------------------------------------------------- ! scans the options string for spattern starting at position i. ! if found, svar is set to soption. !----------------------------------------------------------------------- implicit none logical scan_option character(*) :: options, spattern, svar, soption character(1) :: c integer i, j ! skip delimiters 100 continue if (i .le. len(options)) then c = options(i:i) if (c.eq.'=' .or. c.eq.' ' .or. c.eq.',' .or. c.eq.':') then i = i + 1 goto 100 endif endif ! scan for option scan_option = .false. j = i + len_trim(spattern) - 1 if (j .le. len(options)) then if (options(i:j) .eq. spattern) then scan_option = .true. svar = soption i = i + len_trim(spattern) endif endif return end !======================================================================= function scan_size(options, i, inum, iblock, iword, ibyte) !----------------------------------------------------------------------- ! scans the options string for a size specification starting at ! position i. ! if found, one of inum, iblock, iword, ibyte is nonzero. !----------------------------------------------------------------------- implicit none logical scan_size, scan_number, scan_option character(*) :: options character(15) :: snum, sblock, sword, sbyte, sdummy integer i, inum, iblock, iword, ibyte ! scan for size options scan_size = .false. if (scan_number(options, i, inum, snum)) then iblock = 0 iword = 0 ibyte = 0 scan_size = .true. elseif (scan_option(options, i, 'words', sdummy, sdummy)) then if (scan_number(options, i, iword, sword)) then inum = 0 iblock = 0 ibyte = 0 scan_size = .true. else print '(a,a,/,a,a)', & '=>ERROR in getunit options list:', & ' ''words='' requires a size in words', & ' options=',options endif elseif (scan_option(options, i, 'bytes', sdummy, sdummy)) then if (scan_number(options, i, ibyte, sbyte)) then inum = 0 iblock = 0 iword = 0 scan_size = .true. else print '(a,a,/,a,a)', & '=>ERROR in getunit options list:', & ' ''bytes='' requires a size in bytes', & ' options=',options endif endif return end !======================================================================= function scan_number (options, i, n, sn) !----------------------------------------------------------------------- ! scans the options string for a number starting at position i. ! if found, n is the number as an integer and sn as a string. !----------------------------------------------------------------------- implicit none logical scan_number character(*) :: options, sn character(1) :: c integer i, n ! skip delimiters 100 continue if (i .le. len(options)) then c = options(i:i) if (c.eq.'=' .or. c.eq.' ' .or. c.eq.',' .or. c.eq.':') then i = i + 1 goto 100 endif endif ! scan for digits if (i .le. len(options)) then c = options(i:i) if ('0' .le. c .and. c .le. '9') then sn = c n = ichar(c) - ichar('0') scan_number = .true. 200 continue i = i + 1 if (i .le. len(options)) then c = options(i:i) if ('0' .le. c .and. c .le. '9') then sn = sn(1:len_trim(sn)) // c n = 10 * n + ichar(c) - ichar('0') goto 200 endif endif else scan_number = .false. endif endif return end