FORTRAN Generation
(/./ftp/cats/J/ApJ/665/1194)

Conversion of standardized ReadMe file for file /./ftp/cats/J/ApJ/665/1194 into FORTRAN code for loading all data files into arrays.

Note that special values are assigned to unknown or unspecified numbers (also called NULL numbers); when necessary, the coordinate components making up the right ascension and declination are converted into floating-point numbers representing these angles in degrees.



      program load_ReadMe
C=============================================================================
C  F77-compliant program generated by readme2f_1.81 (2015-09-23), on 2024-Mar-28
C=============================================================================
*  This code was generated from the ReadMe file documenting a catalogue
*  according to the "Standard for Documentation of Astronomical Catalogues"
*  currently in use by the Astronomical Data Centers (CDS, ADC, A&A)
*  (see full documentation at URL http://vizier.u-strasbg.fr/doc/catstd.htx)
*  Please report problems or questions to   
C=============================================================================

      implicit none
*  Unspecified or NULL values, generally corresponding to blank columns,
*  are assigned one of the following special values:
*     rNULL__    for unknown or NULL floating-point values
*     iNULL__    for unknown or NULL   integer      values
      real*4     rNULL__
      integer*4  iNULL__
      parameter  (rNULL__=--2147483648.)  	! NULL real number
      parameter  (iNULL__=(-2147483647-1))	! NULL int  number
      integer    idig			! testing NULL number

C=============================================================================
Cat. J/ApJ/665/1194      Dense cores in the Orion A cloud survey       (Ikeda+, 2007)
*================================================================================
*A survey of dense cores in the Orion A cloud.
*    Ikeda N., Sunada K., Kitamura Y.
*   <Astrophys. J., 665, 1194-1219 (2007)>
*   =2007ApJ...665.1194I
C=============================================================================

C  Internal variables

      integer*4 i__

c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 

C  Declarations for 'table1.dat'	! Physical properties of the H^13^CO^+^ cores in
                              the Orion A cloud

      integer*4 nr__
      parameter (nr__=236)	! Number of records
      character*72 ar__   	! Full-size record

C  J2000 position composed of: RAh RAm RAs DE- DEd DEm DEs
      real*8        RAdeg      (nr__) ! (deg) Right Ascension J2000
      real*8        DEdeg      (nr__) ! (deg)     Declination J2000
C  ---------------------------------- ! (position vector(s) in degrees)

      integer*4     v_ISK2007_ (nr__) ! Sequential number
      integer*4     RAh        (nr__) ! (h) Right ascension (J2000)
      integer*4     RAm        (nr__) ! (min) Right ascension (J2000)
      real*4        RAs        (nr__) ! (s) [0/60] Right ascension (J2000)
      character*1   DE_        (nr__) ! Declination sign (J2000)
      integer*4     DEd        (nr__) ! (deg) Declination (J2000)
      integer*4     DEm        (nr__) ! (arcmin) Declination (J2000)
      integer*4     DEs        (nr__) ! (arcsec) Declination (J2000)
      real*4        Vlsr       (nr__) ! (km/s) LSR velocity
      real*4        Tpeak      (nr__) ! (K) Peak T*_A_ temperature
      real*4        Asp        (nr__) ! Aspect ratio (a/b)
      integer*4     Rcore      (nr__) ! (arcsec) Core radius in arcsec (1)
      real*4        Rpc        (nr__) ! (pc) Core radius in pc
      real*4        dVcore     (nr__) ! (km/s) Core velocity width (1)
      real*4        MLTE       (nr__) ! (solMass) LTE core mass (1)
      real*4        MVir       (nr__) ! (solMass) Virial mass (1)
      real*4        MVir_LTE   (nr__) ! Virial-to-LTE mass ratio (1)
      real*4        n          (nr__) ! (10+4cm-3) Mean number density of the core (1)
*Note (1): The typical uncertainty of each quantity is as:
*       Rcore  = 0.04pc, derived from the uncertainty in the estimation of
*                the core projected area
*       dVcore = 0.13km/s, corresponding to the velocity resolution
*       MLTE   = a factor of 3 (see text)
*       Mvir   = a factor of 3, derived from the uncertainties in Rcore and
*                dvcore
*   Mvir/MLTE  = a factor of 4, derived from the uncertainties in MLTE and Mvir
*          n   = a factor of 4, derived from the uncertainties in Rcore and MLTE

C=============================================================================

C  Loading file 'table1.dat'	! Physical properties of the H^13^CO^+^ cores in
*                              the Orion A cloud

C  Format for file interpretation

    1 format(
     +  I3,1X,I1,1X,I2,1X,F4.1,2X,A1,I1,1X,I2,1X,I2,1X,F4.1,1X,F3.1,
     +  1X,F3.1,1X,I2,1X,F4.2,1X,F4.2,1X,F4.1,1X,F6.2,1X,F4.2,1X,F5.2)

C  Effective file loading

      open(unit=1,status='old',file=
     +'table1.dat')
      write(6,*) '....Loading file: table1.dat'
      do i__=1,236
        read(1,'(A72)')ar__
        read(ar__,1)
     +  v_ISK2007_(i__),RAh(i__),RAm(i__),RAs(i__),DE_(i__),DEd(i__),
     +  DEm(i__),DEs(i__),Vlsr(i__),Tpeak(i__),Asp(i__),Rcore(i__),
     +  Rpc(i__),dVcore(i__),MLTE(i__),MVir(i__),MVir_LTE(i__),n(i__)
        RAdeg(i__) = rNULL__
        DEdeg(i__) = rNULL__
c  Derive coordinates RAdeg and DEdeg from input data
c  (RAdeg and DEdeg are set to rNULL__ when unknown)
        if(RAh(i__) .GT. -180) RAdeg(i__)=RAh(i__)*15.
        if(RAm(i__) .GT. -180) RAdeg(i__)=RAdeg(i__)+RAm(i__)/4.
        if(RAs(i__) .GT. -180) RAdeg(i__)=RAdeg(i__)+RAs(i__)/240.
        if(DEd(i__) .GE. 0) DEdeg(i__)=DEd(i__)
        if(DEm(i__) .GE. 0) DEdeg(i__)=DEdeg(i__)+DEm(i__)/60.
        if(DEs(i__) .GE. 0) DEdeg(i__)=DEdeg(i__)+DEs(i__)/3600.
        if(DE_(i__).EQ.'-'.AND.DEdeg(i__).GE.0) DEdeg(i__)=-DEdeg(i__)
c    ..............Just test output...........
        write(6,1)
     +  v_ISK2007_(i__),RAh(i__),RAm(i__),RAs(i__),DE_(i__),DEd(i__),
     +  DEm(i__),DEs(i__),Vlsr(i__),Tpeak(i__),Asp(i__),Rcore(i__),
     +  Rpc(i__),dVcore(i__),MLTE(i__),MVir(i__),MVir_LTE(i__),n(i__)
        write(6,'(6H Pos: 2F8.4)') RAdeg(i__),DEdeg(i__)
c    .......End.of.Just test output...........
      end do
      close(1)

C=============================================================================
      stop
      end