Conversion of standardized ReadMe file for
file /./ftp/cats/J/A_A/445/423 into FORTRAN code for reading data files line by line.
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-Apr-19
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/A+A/445/423 WeCAPP Survey. M31 variables (Fliri+, 2006)
*================================================================================
*The Wendelstein Calar Alto Pixellensing Project (WeCAPP):
*the M 31 variable star catalogue.
* Fliri J., Riffeser A., Seitz S., Bender R.
* <Astron. Astrophys. 445, 423-439 (2006)>
* =2006A&A...445..423F
C=============================================================================
C Internal variables
integer*4 i__
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'table2.dat' ! Variables in Group 1-3
integer*4 nr__
parameter (nr__=23781) ! Number of records
character*82 ar__ ! Full-size record
C J2000 position composed of: RAh RAm RAs DE- DEd DEm DEs
real*8 RAdeg ! (deg) Right Ascension J2000
real*8 DEdeg ! (deg) Declination J2000
C ---------------------------------- ! (position vector(s) in degrees)
integer*4 Seq ! V Catalogue identifier,
* [FRS2006] WeCAPP VNNNNN in Simbad
integer*4 RAh ! (h) Right ascension (J2000)
integer*4 RAm ! (min) Right ascension (J2000)
real*4 RAs ! (s) Right ascension (J2000)
character*1 DE_ ! Declination sign (J2000)
integer*4 DEd ! (deg) Declination (J2000)
integer*4 DEm ! (arcmin) Declination (J2000)
real*4 DEs ! (arcsec) Declination (J2000)
real*8 RPer ! (d) ?=-99.00 Period derived from R band data
real*4 RSig ! ([-]) ?=-99.00 -log10 of significance of RP (1)
real*8 IPer ! (d) ?=-99.00 Period derived from I band data
real*4 ISig ! ([-]) ?=-99.00 -log10 of significance of IP (1)
real*4 Ramp ! (10-5Jy) Amplitude in broad-band R filter (2)
real*4 Iamp ! (10-5Jy) Amplitude in broad-band I filter (2)
character*3 Cl ! Classification (3)
*Note (1): False alarm probability from Lomb's periodogram
*Note (2): Half of the flux variation Deltaf between minimum and maximum
*Note (3): Classification defined as follows:
* DC = classical or Delta-Cepheids
* SC = s-Cepheids
* BC = beat Cepheids
* IC = intermediate Cepheids
* W = type II Cepheids
* RV = RV Tauri stars
* rv = RV Tauri candidates
* S = regular or semi-regular red variables
* I = irregular variables
* E = eclipsing binaries
* N = novae
* RCB = R Coronae Borealis candidates
* M = miscellaneous variables
* L = long-period variables
* U = unclassified
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'table2a.dat' ! Cepheids in group I
integer*4 nr__1
parameter (nr__1=33) ! Number of records
character*82 ar__1 ! Full-size record
C J2000 position composed of: RAh RAm RAs DE- DEd DEm DEs
real*8 RAdeg_1 ! (deg) Right Ascension J2000
real*8 DEdeg_1 ! (deg) Declination J2000
C ---------------------------------- ! (position vector(s) in degrees)
integer*4 Seq_1 ! V Catalogue identifier,
* [FRS2006] WeCAPP VNNNNN in Simbad
integer*4 RAh_1 ! (h) Right ascension (J2000)
integer*4 RAm_1 ! (min) Right ascension (J2000)
real*4 RAs_1 ! (s) Right ascension (J2000)
character*1 DE__1 ! Declination sign (J2000)
integer*4 DEd_1 ! (deg) Declination (J2000)
integer*4 DEm_1 ! (arcmin) Declination (J2000)
real*4 DEs_1 ! (arcsec) Declination (J2000)
real*8 RPer_1 ! (d) ?=-99.00 Period derived from R band data
real*4 RSig_1 ! ([-]) ?=-99.00 -log10 of significance of RP (1)
real*8 IPer_1 ! (d) ?=-99.00 Period derived from I band data
real*4 ISig_1 ! ([-]) ?=-99.00 -log10 of significance of IP (1)
real*4 Ramp_1 ! (10-5Jy) Amplitude in broad-band R filter (2)
real*4 Iamp_1 ! (10-5Jy) Amplitude in broad-band I filter (2)
character*3 Cl_1 ! Classification (3)
*Note (1): False alarm probability from Lomb's periodogram
*Note (2): Half of the flux variation Deltaf between minimum and maximum
*Note (3): Classification defined as follows:
* DC = classical or Delta-Cepheids
* SC = s-Cepheids
* BC = beat Cepheids
* IC = intermediate Cepheids
* W = type II Cepheids
* RV = RV Tauri stars
* rv = RV Tauri candidates
* S = regular or semi-regular red variables
* I = irregular variables
* E = eclipsing binaries
* N = novae
* RCB = R Coronae Borealis candidates
* M = miscellaneous variables
* L = long-period variables
* U = unclassified
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'table2b.dat' ! Type II Cepheids
integer*4 nr__2
parameter (nr__2=93) ! Number of records
character*82 ar__2 ! Full-size record
C J2000 position composed of: RAh RAm RAs DE- DEd DEm DEs
real*8 RAdeg_2 ! (deg) Right Ascension J2000
real*8 DEdeg_2 ! (deg) Declination J2000
C ---------------------------------- ! (position vector(s) in degrees)
integer*4 Seq_2 ! V Catalogue identifier,
* [FRS2006] WeCAPP VNNNNN in Simbad
integer*4 RAh_2 ! (h) Right ascension (J2000)
integer*4 RAm_2 ! (min) Right ascension (J2000)
real*4 RAs_2 ! (s) Right ascension (J2000)
character*1 DE__2 ! Declination sign (J2000)
integer*4 DEd_2 ! (deg) Declination (J2000)
integer*4 DEm_2 ! (arcmin) Declination (J2000)
real*4 DEs_2 ! (arcsec) Declination (J2000)
real*8 RPer_2 ! (d) ?=-99.00 Period derived from R band data
real*4 RSig_2 ! ([-]) ?=-99.00 -log10 of significance of RP (1)
real*8 IPer_2 ! (d) ?=-99.00 Period derived from I band data
real*4 ISig_2 ! ([-]) ?=-99.00 -log10 of significance of IP (1)
real*4 Ramp_2 ! (10-5Jy) Amplitude in broad-band R filter (2)
real*4 Iamp_2 ! (10-5Jy) Amplitude in broad-band I filter (2)
character*3 Cl_2 ! Classification (3)
*Note (1): False alarm probability from Lomb's periodogram
*Note (2): Half of the flux variation Deltaf between minimum and maximum
*Note (3): Classification defined as follows:
* DC = classical or Delta-Cepheids
* SC = s-Cepheids
* BC = beat Cepheids
* IC = intermediate Cepheids
* W = type II Cepheids
* RV = RV Tauri stars
* rv = RV Tauri candidates
* S = regular or semi-regular red variables
* I = irregular variables
* E = eclipsing binaries
* N = novae
* RCB = R Coronae Borealis candidates
* M = miscellaneous variables
* L = long-period variables
* U = unclassified
C=============================================================================
C Loading file 'table2.dat' ! Variables in Group 1-3
C Format for file interpretation
1 format(
+ I5,1X,I2,1X,I2,1X,F5.2,1X,A1,I2,1X,I2,1X,F5.2,1X,F9.4,1X,F6.2,
+ 1X,F9.4,1X,F6.2,1X,F6.2,1X,F6.2,1X,A3)
C Effective file loading
open(unit=1,status='old',file=
+'table2.dat')
write(6,*) '....Loading file: table2.dat'
do i__=1,23781
read(1,'(A82)')ar__
read(ar__,1)
+ Seq,RAh,RAm,RAs,DE_,DEd,DEm,DEs,RPer,RSig,IPer,ISig,Ramp,Iamp,
+ Cl
RAdeg = rNULL__
DEdeg = rNULL__
c Derive coordinates RAdeg and DEdeg from input data
c (RAdeg and DEdeg are set to rNULL__ when unknown)
if(RAh .GT. -180) RAdeg=RAh*15.
if(RAm .GT. -180) RAdeg=RAdeg+RAm/4.
if(RAs .GT. -180) RAdeg=RAdeg+RAs/240.
if(DEd .GE. 0) DEdeg=DEd
if(DEm .GE. 0) DEdeg=DEdeg+DEm/60.
if(DEs .GE. 0) DEdeg=DEdeg+DEs/3600.
if(DE_.EQ.'-'.AND.DEdeg.GE.0) DEdeg=-DEdeg
c ..............Just test output...........
write(6,1)
+ Seq,RAh,RAm,RAs,DE_,DEd,DEm,DEs,RPer,RSig,IPer,ISig,Ramp,Iamp,
+ Cl
write(6,'(6H Pos: 2F8.4)') RAdeg,DEdeg
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'table2a.dat' ! Cepheids in group I
C Format for file interpretation
2 format(
+ I5,1X,I2,1X,I2,1X,F5.2,1X,A1,I2,1X,I2,1X,F5.2,1X,F9.4,1X,F6.2,
+ 1X,F9.4,1X,F6.2,1X,F6.2,1X,F6.2,1X,A3)
C Effective file loading
open(unit=1,status='old',file=
+'table2a.dat')
write(6,*) '....Loading file: table2a.dat'
do i__=1,33
read(1,'(A82)')ar__1
read(ar__1,2)
+ Seq_1,RAh_1,RAm_1,RAs_1,DE__1,DEd_1,DEm_1,DEs_1,RPer_1,RSig_1,
+ IPer_1,ISig_1,Ramp_1,Iamp_1,Cl_1
RAdeg_1 = rNULL__
DEdeg_1 = rNULL__
c Derive coordinates RAdeg_1 and DEdeg_1 from input data
c (RAdeg_1 and DEdeg_1 are set to rNULL__ when unknown)
if(RAh_1 .GT. -180) RAdeg_1=RAh_1*15.
if(RAm_1 .GT. -180) RAdeg_1=RAdeg_1+RAm_1/4.
if(RAs_1 .GT. -180) RAdeg_1=RAdeg_1+RAs_1/240.
if(DEd_1 .GE. 0) DEdeg_1=DEd_1
if(DEm_1 .GE. 0) DEdeg_1=DEdeg_1+DEm_1/60.
if(DEs_1 .GE. 0) DEdeg_1=DEdeg_1+DEs_1/3600.
if(DE__1.EQ.'-'.AND.DEdeg_1.GE.0) DEdeg_1=-DEdeg_1
c ..............Just test output...........
write(6,2)
+ Seq_1,RAh_1,RAm_1,RAs_1,DE__1,DEd_1,DEm_1,DEs_1,RPer_1,RSig_1,
+ IPer_1,ISig_1,Ramp_1,Iamp_1,Cl_1
write(6,'(6H Pos: 2F8.4)') RAdeg_1,DEdeg_1
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'table2b.dat' ! Type II Cepheids
C Format for file interpretation
3 format(
+ I5,1X,I2,1X,I2,1X,F5.2,1X,A1,I2,1X,I2,1X,F5.2,1X,F9.4,1X,F6.2,
+ 1X,F9.4,1X,F6.2,1X,F6.2,1X,F6.2,1X,A3)
C Effective file loading
open(unit=1,status='old',file=
+'table2b.dat')
write(6,*) '....Loading file: table2b.dat'
do i__=1,93
read(1,'(A82)')ar__2
read(ar__2,3)
+ Seq_2,RAh_2,RAm_2,RAs_2,DE__2,DEd_2,DEm_2,DEs_2,RPer_2,RSig_2,
+ IPer_2,ISig_2,Ramp_2,Iamp_2,Cl_2
RAdeg_2 = rNULL__
DEdeg_2 = rNULL__
c Derive coordinates RAdeg_2 and DEdeg_2 from input data
c (RAdeg_2 and DEdeg_2 are set to rNULL__ when unknown)
if(RAh_2 .GT. -180) RAdeg_2=RAh_2*15.
if(RAm_2 .GT. -180) RAdeg_2=RAdeg_2+RAm_2/4.
if(RAs_2 .GT. -180) RAdeg_2=RAdeg_2+RAs_2/240.
if(DEd_2 .GE. 0) DEdeg_2=DEd_2
if(DEm_2 .GE. 0) DEdeg_2=DEdeg_2+DEm_2/60.
if(DEs_2 .GE. 0) DEdeg_2=DEdeg_2+DEs_2/3600.
if(DE__2.EQ.'-'.AND.DEdeg_2.GE.0) DEdeg_2=-DEdeg_2
c ..............Just test output...........
write(6,3)
+ Seq_2,RAh_2,RAm_2,RAs_2,DE__2,DEd_2,DEm_2,DEs_2,RPer_2,RSig_2,
+ IPer_2,ISig_2,Ramp_2,Iamp_2,Cl_2
write(6,'(6H Pos: 2F8.4)') RAdeg_2,DEdeg_2
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
stop
end