Conversion of standardized ReadMe file for
file /./ftp/cats/J/MNRAS/404/1801 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-20
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/MNRAS/404/1801 Horizon MareNostrum cosmological run (Gay+, 2010)
*================================================================================
*On the filamentary environment of galaxies.
* Gay C., Pichon C., Borgne D.L., Teyssier R., Sousbie T., Devriendt J.
* <Mon. Not. R. Astron. Soc., 404, 1801-1816 (2010)>
* =2010MNRAS.404.1801G
C=============================================================================
C Internal variables
integer*4 i__
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn1d57.dat' ! Catalogue at z=1.56506
integer*4 nr__
parameter (nr__=97563) ! Number of records
character*285 ar__ ! Full-size record
real*4 Xpos ! (Mpc) X position (in Mpc/h)
real*4 Ypos ! (Mpc) Y position (in Mpc/h)
real*4 Zpos ! (Mpc) Z position (in Mpc/h)
real*8 z ! Redshift used for the model (1)
real*8 Zl ! Luminosity-averaged stellar metallicity
real*8 Zm ! Mass-averaged stellar metallicity
real*8 Agel ! (Myr) Luminosity-averaged stellar age
real*8 Agem ! (Myr) Mass-averaged stellar age
real*8 FUV ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag ! (mag) Observed AB magnitude in R band (2)
real*8 Imag ! (mag) Observed AB magnitude in I band (2)
real*8 zmag ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6_ ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0_ ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_1 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_1 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_1 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_1 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_1 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR ! (Msun/yr) Stellar formation rate
real*4 Mass ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn1d80.dat' ! Catalogue at z=1.80229
integer*4 nr__1
parameter (nr__1=103589) ! Number of records
character*285 ar__1 ! Full-size record
real*4 Xpos_1 ! (Mpc) X position (in Mpc/h)
real*4 Ypos_1 ! (Mpc) Y position (in Mpc/h)
real*4 Zpos_1 ! (Mpc) Z position (in Mpc/h)
real*8 z_1 ! Redshift used for the model (1)
real*8 Zl_1 ! Luminosity-averaged stellar metallicity
real*8 Zm_1 ! Mass-averaged stellar metallicity
real*8 Agel_1 ! (Myr) Luminosity-averaged stellar age
real*8 Agem_1 ! (Myr) Mass-averaged stellar age
real*8 FUV_1 ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag_2 ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag_2 ! (mag) Observed AB magnitude in R band (2)
real*8 Imag_2 ! (mag) Observed AB magnitude in I band (2)
real*8 zmag_2 ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag_2 ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6__1 ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0__1 ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM_1 ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_3 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_3 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_3 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_3 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_3 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M_1 ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M_1 ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists_1 ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn_1 ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR_1 ! (Msun/yr) Stellar formation rate
real*4 Mass_1 ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn2d10.dat' ! Catalogue at z=2.09892
integer*4 nr__2
parameter (nr__2=111184) ! Number of records
character*285 ar__2 ! Full-size record
real*4 Xpos_2 ! (Mpc) X position (in Mpc/h)
real*4 Ypos_2 ! (Mpc) Y position (in Mpc/h)
real*4 Zpos_2 ! (Mpc) Z position (in Mpc/h)
real*8 z_2 ! Redshift used for the model (1)
real*8 Zl_2 ! Luminosity-averaged stellar metallicity
real*8 Zm_2 ! Mass-averaged stellar metallicity
real*8 Agel_2 ! (Myr) Luminosity-averaged stellar age
real*8 Agem_2 ! (Myr) Mass-averaged stellar age
real*8 FUV_2 ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag_4 ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag_4 ! (mag) Observed AB magnitude in R band (2)
real*8 Imag_4 ! (mag) Observed AB magnitude in I band (2)
real*8 zmag_4 ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag_4 ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6__2 ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0__2 ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM_2 ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_5 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_5 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_5 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_5 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_5 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M_2 ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M_2 ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists_2 ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn_2 ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR_2 ! (Msun/yr) Stellar formation rate
real*4 Mass_2 ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn2d51.dat' ! Catalogue at z=2.50993
integer*4 nr__3
parameter (nr__3=119978) ! Number of records
character*285 ar__3 ! Full-size record
real*4 Xpos_3 ! (Mpc) X position (in Mpc/h)
real*4 Ypos_3 ! (Mpc) Y position (in Mpc/h)
real*4 Zpos_3 ! (Mpc) Z position (in Mpc/h)
real*8 z_3 ! Redshift used for the model (1)
real*8 Zl_3 ! Luminosity-averaged stellar metallicity
real*8 Zm_3 ! Mass-averaged stellar metallicity
real*8 Agel_3 ! (Myr) Luminosity-averaged stellar age
real*8 Agem_3 ! (Myr) Mass-averaged stellar age
real*8 FUV_3 ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag_6 ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag_6 ! (mag) Observed AB magnitude in R band (2)
real*8 Imag_6 ! (mag) Observed AB magnitude in I band (2)
real*8 zmag_6 ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag_6 ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6__3 ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0__3 ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM_3 ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_7 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_7 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_7 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_7 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_7 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M_3 ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M_3 ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists_3 ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn_3 ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR_3 ! (Msun/yr) Stellar formation rate
real*4 Mass_3 ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn3d01.dat' ! Catalogue at z=3.00882
integer*4 nr__4
parameter (nr__4=124642) ! Number of records
character*285 ar__4 ! Full-size record
real*4 Xpos_4 ! (Mpc) X position (in Mpc/h)
real*4 Ypos_4 ! (Mpc) Y position (in Mpc/h)
real*4 Zpos_4 ! (Mpc) Z position (in Mpc/h)
real*8 z_4 ! Redshift used for the model (1)
real*8 Zl_4 ! Luminosity-averaged stellar metallicity
real*8 Zm_4 ! Mass-averaged stellar metallicity
real*8 Agel_4 ! (Myr) Luminosity-averaged stellar age
real*8 Agem_4 ! (Myr) Mass-averaged stellar age
real*8 FUV_4 ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag_8 ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag_8 ! (mag) Observed AB magnitude in R band (2)
real*8 Imag_8 ! (mag) Observed AB magnitude in I band (2)
real*8 zmag_8 ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag_8 ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6__4 ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0__4 ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM_4 ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_9 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_9 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_9 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_9 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_9 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M_4 ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M_4 ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists_4 ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn_4 ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR_4 ! (Msun/yr) Stellar formation rate
real*4 Mass_4 ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn3d53.dat' ! Catalogue at z=3.53147
integer*4 nr__5
parameter (nr__5=119612) ! Number of records
character*285 ar__5 ! Full-size record
real*4 Xpos_5 ! (Mpc) X position (in Mpc/h)
real*4 Ypos_5 ! (Mpc) Y position (in Mpc/h)
real*4 Zpos_5 ! (Mpc) Z position (in Mpc/h)
real*8 z_5 ! Redshift used for the model (1)
real*8 Zl_5 ! Luminosity-averaged stellar metallicity
real*8 Zm_5 ! Mass-averaged stellar metallicity
real*8 Agel_5 ! (Myr) Luminosity-averaged stellar age
real*8 Agem_5 ! (Myr) Mass-averaged stellar age
real*8 FUV_5 ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag_10 ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag_10 ! (mag) Observed AB magnitude in R band (2)
real*8 Imag_10 ! (mag) Observed AB magnitude in I band (2)
real*8 zmag_10 ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag_10 ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6__5 ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0__5 ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM_5 ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_11 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_11 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_11 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_11 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_11 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M_5 ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M_5 ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists_5 ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn_5 ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR_5 ! (Msun/yr) Stellar formation rate
real*4 Mass_5 ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
c - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
C Declarations for 'mn3d95.dat' ! Catalogue at z=3.95021
integer*4 nr__6
parameter (nr__6=103187) ! Number of records
character*285 ar__6 ! Full-size record
real*4 Xpos_6 ! (Mpc) X position (in Mpc/h)
real*4 Ypos_6 ! (Mpc) Y position (in Mpc/h)
real*4 Zpos_6 ! (Mpc) Z position (in Mpc/h)
real*8 z_6 ! Redshift used for the model (1)
real*8 Zl_6 ! Luminosity-averaged stellar metallicity
real*8 Zm_6 ! Mass-averaged stellar metallicity
real*8 Agel_6 ! (Myr) Luminosity-averaged stellar age
real*8 Agem_6 ! (Myr) Mass-averaged stellar age
real*8 FUV_6 ! (mag) Observed AB magnitude in FUV band (2)
real*8 Gmag_12 ! (mag) Observed AB magnitude in G band (2)
real*8 Rmag_12 ! (mag) Observed AB magnitude in R band (2)
real*8 Imag_12 ! (mag) Observed AB magnitude in I band (2)
real*8 zmag_12 ! (mag) Observed AB magnitude in z band (2)
real*8 Kmag_12 ! (mag) Observed AB magnitude in K band (2)
real*8 v_3_6__6 ! (mag) Observed AB magnitude in IRAC 3.6um band (2)
real*8 v_8_0__6 ! (mag) Observed AB magnitude in IRAC 8um band (2)
real*8 FUVM_6 ! (mag) Absolute AB magnitude in FUV band
real*8 GMAG_13 ! (mag) Absolute AB magnitude in G band
real*8 RMAG_13 ! (mag) Absolute AB magnitude in R band
real*8 IMAG_13 ! (mag) Absolute AB magnitude in I band
real*8 zMAG_13 ! (mag) Absolute AB magnitude in z band
real*8 KMAG_13 ! (mag) Absolute AB magnitude in K band
real*8 v_3_6_M_6 ! (mag) Absolute AB magnitude in IRAC 3.6um band
real*8 v_8_0_M_6 ! (mag) Absolute AB magnitude in IRAC 8um band
real*8 Dists_6 ! (Mpc) Distance to the skeleton (in Mpc/h)
real*8 Distn_6 ! (Mpc) Distance to the nodes of the skeleton
* (in Mpc/h)
real*8 SFR_6 ! (Msun/yr) Stellar formation rate
real*4 Mass_6 ! (Msun) Total stellar mass
*Note (1): Redshift values:
* * for mn1.57.dat, z=1.56506
* * for mn1.80.dat, z=1.80229
* * for mn2.10.dat, z=2.09892
* * for mn2.51.dat, z=2.50993
* * for mn3.01.dat, z=3.00882
* * for mn3.53.dat, z=3.53147
* * for mn3.95.dat, z=3.95021
*Note (2): Available filters:
* FUV = FUV Galex, 1520{AA}
* Gmag = G, 4810{AA}
* Rmag = R, 6980{AA}
* Imag = I CFHT 12K, 8130{AA}
* zmag = SDSS-z, 8960{AA}
* Kmag = Johnson K, 21950{AA}
* [3.6] = Spitzer IRAC channel 1 IRAC-3.6um, 35610{AA}
* [8.0] = Spitzer IRAC channel 4 IRAC-8um, 79580{AA}
C=============================================================================
C Loading file 'mn1d57.dat' ! Catalogue at z=1.56506
C Format for file interpretation
1 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn1d57.dat')
write(6,*) '....Loading file: mn1d57.dat'
do i__=1,97563
read(1,'(A285)')ar__
read(ar__,1)
+ Xpos,Ypos,Zpos,z,Zl,Zm,Agel,Agem,FUV,Gmag,Rmag,Imag,zmag,Kmag,
+ v_3_6_,v_8_0_,FUVM,GMAG_1,RMAG_1,IMAG_1,zMAG_1,KMAG_1,v_3_6_M,
+ v_8_0_M,Dists,Distn,SFR,Mass
c ..............Just test output...........
write(6,1)
+ Xpos,Ypos,Zpos,z,Zl,Zm,Agel,Agem,FUV,Gmag,Rmag,Imag,zmag,Kmag,
+ v_3_6_,v_8_0_,FUVM,GMAG_1,RMAG_1,IMAG_1,zMAG_1,KMAG_1,v_3_6_M,
+ v_8_0_M,Dists,Distn,SFR,Mass
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'mn1d80.dat' ! Catalogue at z=1.80229
C Format for file interpretation
2 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn1d80.dat')
write(6,*) '....Loading file: mn1d80.dat'
do i__=1,103589
read(1,'(A285)')ar__1
read(ar__1,2)
+ Xpos_1,Ypos_1,Zpos_1,z_1,Zl_1,Zm_1,Agel_1,Agem_1,FUV_1,Gmag_2,
+ Rmag_2,Imag_2,zmag_2,Kmag_2,v_3_6__1,v_8_0__1,FUVM_1,GMAG_3,
+ RMAG_3,IMAG_3,zMAG_3,KMAG_3,v_3_6_M_1,v_8_0_M_1,Dists_1,
+ Distn_1,SFR_1,Mass_1
c ..............Just test output...........
write(6,2)
+ Xpos_1,Ypos_1,Zpos_1,z_1,Zl_1,Zm_1,Agel_1,Agem_1,FUV_1,Gmag_2,
+ Rmag_2,Imag_2,zmag_2,Kmag_2,v_3_6__1,v_8_0__1,FUVM_1,GMAG_3,
+ RMAG_3,IMAG_3,zMAG_3,KMAG_3,v_3_6_M_1,v_8_0_M_1,Dists_1,
+ Distn_1,SFR_1,Mass_1
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'mn2d10.dat' ! Catalogue at z=2.09892
C Format for file interpretation
3 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn2d10.dat')
write(6,*) '....Loading file: mn2d10.dat'
do i__=1,111184
read(1,'(A285)')ar__2
read(ar__2,3)
+ Xpos_2,Ypos_2,Zpos_2,z_2,Zl_2,Zm_2,Agel_2,Agem_2,FUV_2,Gmag_4,
+ Rmag_4,Imag_4,zmag_4,Kmag_4,v_3_6__2,v_8_0__2,FUVM_2,GMAG_5,
+ RMAG_5,IMAG_5,zMAG_5,KMAG_5,v_3_6_M_2,v_8_0_M_2,Dists_2,
+ Distn_2,SFR_2,Mass_2
c ..............Just test output...........
write(6,3)
+ Xpos_2,Ypos_2,Zpos_2,z_2,Zl_2,Zm_2,Agel_2,Agem_2,FUV_2,Gmag_4,
+ Rmag_4,Imag_4,zmag_4,Kmag_4,v_3_6__2,v_8_0__2,FUVM_2,GMAG_5,
+ RMAG_5,IMAG_5,zMAG_5,KMAG_5,v_3_6_M_2,v_8_0_M_2,Dists_2,
+ Distn_2,SFR_2,Mass_2
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'mn2d51.dat' ! Catalogue at z=2.50993
C Format for file interpretation
4 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn2d51.dat')
write(6,*) '....Loading file: mn2d51.dat'
do i__=1,119978
read(1,'(A285)')ar__3
read(ar__3,4)
+ Xpos_3,Ypos_3,Zpos_3,z_3,Zl_3,Zm_3,Agel_3,Agem_3,FUV_3,Gmag_6,
+ Rmag_6,Imag_6,zmag_6,Kmag_6,v_3_6__3,v_8_0__3,FUVM_3,GMAG_7,
+ RMAG_7,IMAG_7,zMAG_7,KMAG_7,v_3_6_M_3,v_8_0_M_3,Dists_3,
+ Distn_3,SFR_3,Mass_3
c ..............Just test output...........
write(6,4)
+ Xpos_3,Ypos_3,Zpos_3,z_3,Zl_3,Zm_3,Agel_3,Agem_3,FUV_3,Gmag_6,
+ Rmag_6,Imag_6,zmag_6,Kmag_6,v_3_6__3,v_8_0__3,FUVM_3,GMAG_7,
+ RMAG_7,IMAG_7,zMAG_7,KMAG_7,v_3_6_M_3,v_8_0_M_3,Dists_3,
+ Distn_3,SFR_3,Mass_3
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'mn3d01.dat' ! Catalogue at z=3.00882
C Format for file interpretation
5 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn3d01.dat')
write(6,*) '....Loading file: mn3d01.dat'
do i__=1,124642
read(1,'(A285)')ar__4
read(ar__4,5)
+ Xpos_4,Ypos_4,Zpos_4,z_4,Zl_4,Zm_4,Agel_4,Agem_4,FUV_4,Gmag_8,
+ Rmag_8,Imag_8,zmag_8,Kmag_8,v_3_6__4,v_8_0__4,FUVM_4,GMAG_9,
+ RMAG_9,IMAG_9,zMAG_9,KMAG_9,v_3_6_M_4,v_8_0_M_4,Dists_4,
+ Distn_4,SFR_4,Mass_4
c ..............Just test output...........
write(6,5)
+ Xpos_4,Ypos_4,Zpos_4,z_4,Zl_4,Zm_4,Agel_4,Agem_4,FUV_4,Gmag_8,
+ Rmag_8,Imag_8,zmag_8,Kmag_8,v_3_6__4,v_8_0__4,FUVM_4,GMAG_9,
+ RMAG_9,IMAG_9,zMAG_9,KMAG_9,v_3_6_M_4,v_8_0_M_4,Dists_4,
+ Distn_4,SFR_4,Mass_4
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'mn3d53.dat' ! Catalogue at z=3.53147
C Format for file interpretation
6 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn3d53.dat')
write(6,*) '....Loading file: mn3d53.dat'
do i__=1,119612
read(1,'(A285)')ar__5
read(ar__5,6)
+ Xpos_5,Ypos_5,Zpos_5,z_5,Zl_5,Zm_5,Agel_5,Agem_5,FUV_5,
+ Gmag_10,Rmag_10,Imag_10,zmag_10,Kmag_10,v_3_6__5,v_8_0__5,
+ FUVM_5,GMAG_11,RMAG_11,IMAG_11,zMAG_11,KMAG_11,v_3_6_M_5,
+ v_8_0_M_5,Dists_5,Distn_5,SFR_5,Mass_5
c ..............Just test output...........
write(6,6)
+ Xpos_5,Ypos_5,Zpos_5,z_5,Zl_5,Zm_5,Agel_5,Agem_5,FUV_5,
+ Gmag_10,Rmag_10,Imag_10,zmag_10,Kmag_10,v_3_6__5,v_8_0__5,
+ FUVM_5,GMAG_11,RMAG_11,IMAG_11,zMAG_11,KMAG_11,v_3_6_M_5,
+ v_8_0_M_5,Dists_5,Distn_5,SFR_5,Mass_5
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
C Loading file 'mn3d95.dat' ! Catalogue at z=3.95021
C Format for file interpretation
7 format(
+ E11.8,1X,E12.8,1X,E12.8,1X,F7.5,1X,F8.5,1X,F8.5,1X,F11.6,1X,
+ F11.6,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,1X,F7.4,
+ 1X,F7.4,1X,F9.5,1X,F9.5,1X,F8.4,1X,F8.4,1X,F8.4,1X,F8.4,1X,
+ F9.5,1X,F9.5,1X,F12.8,1X,F15.7,1X,F15.7,1X,E12.9)
C Effective file loading
open(unit=1,status='old',file=
+'mn3d95.dat')
write(6,*) '....Loading file: mn3d95.dat'
do i__=1,103187
read(1,'(A285)')ar__6
read(ar__6,7)
+ Xpos_6,Ypos_6,Zpos_6,z_6,Zl_6,Zm_6,Agel_6,Agem_6,FUV_6,
+ Gmag_12,Rmag_12,Imag_12,zmag_12,Kmag_12,v_3_6__6,v_8_0__6,
+ FUVM_6,GMAG_13,RMAG_13,IMAG_13,zMAG_13,KMAG_13,v_3_6_M_6,
+ v_8_0_M_6,Dists_6,Distn_6,SFR_6,Mass_6
c ..............Just test output...........
write(6,7)
+ Xpos_6,Ypos_6,Zpos_6,z_6,Zl_6,Zm_6,Agel_6,Agem_6,FUV_6,
+ Gmag_12,Rmag_12,Imag_12,zmag_12,Kmag_12,v_3_6__6,v_8_0__6,
+ FUVM_6,GMAG_13,RMAG_13,IMAG_13,zMAG_13,KMAG_13,v_3_6_M_6,
+ v_8_0_M_6,Dists_6,Distn_6,SFR_6,Mass_6
c .......End.of.Just test output...........
end do
close(1)
C=============================================================================
stop
end