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From: Nekar Xenos
Subject: Ping Pong
Date: 20 Mar 2008 03:45:39
Message: <47e22433$1@news.povray.org>
Hear's my suggestion for this ping-pong round.

-- 
-Nekar Xenos-

////////////
/*
  Planet isosurface from Jaime Vives Piqueres's moon.

*/


global_settings{
 assumed_gamma 1.0
 max_trace_level 20
}
#default{texture{finish{ambient 0}}}
#include "functions.inc"


#declare Modelling=off;
#declare ShowPlanet=on;
#declare ShowWater=on;
#declare ShowClouds=on;
#declare ShowRings=on;


// *** PLANET ***

// planet texture
#declare t_planet=
pigment{
          onion    warp { turbulence 0.1 /*lambda 33 */ }
          color_map{
                   [.7 rgb <.3,.2,.05>] // sand
                   [.8 rgb <0,.1,0>]    // green
                   [.99 rgb <.1,.05,.01>]//<.1,.2,.01>]      // green
                   }
                 scale 1/(<1.01,.995,1.01>)
                 }



#declare t_planet=
texture{
 pigment{
          onion    scale <1.01,.995,1.01>
          turbulence .05
          lambda 2.5
          omega 1.2
          pigment_map{
                   [0 rgb 1]
                   [.05  t_planet ]
                   [.95  t_planet ] // sand
                   [1 rgb 1]//<.1,.2,.01>]
                   }
         }

#if(!Modelling)
        normal{granite .001 scale .00001}
#end
finish{specular .1 }
}

#declare Scalar=<4,1,4>;
#declare Rotar=<-15,0,0>;

// Cloud texture
#declare t_clouds=
texture{
         pigment{
                  wrinkles  scale <100,50,100>*22
                  turbulence <1,2,1>
                  lambda 2.5
                  omega 1.3
                  warp { turbulence <10,0,10>*.1
                        //lambda 3
                        omega 1.2
                        }
                  color_map{
                           [0 rgb 1 transmit 1]
                           [.3 rgb 1 transmit .9]
                           [1 rgb 1 transmit 0]
                           }
                  rotate y*15
                  scale<0.021,0.02,0.021>/Scalar
                  rotate -Rotar
                 }
        }

// Cloud texture
#declare t_clouds=
texture{ wrinkles  rotate Rotar
                  scale Scalar
                  //lambda 2.5
                  omega 1.3
                  texture_map{
                           [0 t_clouds ]
                           [.3 pigment {rgb 1 transmit 1}]
                           [.5 t_clouds]
                           [.7 pigment {rgb 1 transmit 1}]
                           [1 t_clouds ]
                           }
                 }
       // }


// Planet
#declare Planet=
union{
        isosurface{  // Copied from Jaime's LightSys Space Demo scene
                 function{(x*x+y*y+z*z-1)+f_granite(x*2,y*2,z*2)*f_agate(x,y,z)*.05}
                 max_gradient 3.8
                 contained_by{sphere{0,1}}
                 texture{t_planet scale .02}
                 scale y*1.002
                 }


       #if(ShowWater)
               sphere{0,1 // water
                      pigment{gradient y scale 2 translate y
                              turbulence .1
                               lambda 7
                             colour_map{
                                      [0 rgbt<1,1,1,0> ]
                                      [.15 rgb <0,.05,.2> transmit 
.3*(!Modelling)]
                                      [.9 rgb <0,.05,.2> transmit 
.3*(!Modelling)]
                                      [1 rgbt<1,1,1,0> ]
                                      }
                              }
                      finish{specular .2  metallic brilliance 2}
                      #if(!Modelling)
                         interior{fade_distance .003 fade_color rgb 
<0,0,.1>}
                      #end
                      scale .996
                      }
       #end
      #if(!Modelling)
              sphere{0,1 // Atmosphere
                      pigment{colour rgbt 1}
                      interior{
                               media {
                                          // (---general values---)
                                          intervals 10           // number 
of intervals used for sampling [10]
                                          samples 1,1            // minimum 
and maximum number of samples taken per interval [1,1]
                                          confidence 0.9         // 
statistic parameter higher->better quality [0.9]
                                          variance 1.0/128       // 
statistic parameter lower->better quality [1.0/128]
                                          ratio 0.9              // 
distribution between lit and unlit areas [0.9]
                                          // (---media types---)
                                          //absorption rgb<.1,.05,0>*.001 
// absorbing media, block light of specified color
                                          scattering {2, rgb 10 }
                                          //method 3               // 
adaptive sampling
                                          density {onion
                                                   color_map{
                                                           [.89 rgb .5] 
// earth
                                                           [.93 rgb 
<0,.5,.6>*.5]//
                                                           [.98 rgb 
<0,0,.1>]//
                                                           [1 rgb 0 ]//
                                                           }
                                                  }
                                        }
                               }
                      rotate y*90
                      scale 1.05
                      hollow
                      double_illuminate
                      }
       #end
       #if(ShowClouds)
               union{
                      sphere{0,1.01 texture{t_clouds }}
                      rotate y*45
                      hollow //double_illuminate
                      }
        #end
       }

// placement
union{  #if(ShowRings)
        disc {<0, 0, 0>  y, 1.0, .7        // -O- RINGs -O-
                        pigment{spherical
                                cubic_wave
                                colour_map{
                                           [0 rgbft <0,0,0, 1,1>]
                                           [.01 rgbft <.4,.3,.2, 0,.1>]
                                           [.015 rgbft <.3,.3,.3, .1,.7>]
                                           [.03 rgbft <.35,.3,.25, 0,.1>]
                                           [.04 rgbft <.1,.21,.3, .1,.9>]
                                           [.07 rgbft <.3,.21,.1, .2,.5>]
                                           //
                                           [.12 rgbft <.25,.2,.15, 0,.1>]
                                           [.12 rgbft <.25,.2,.15, 0,.1>]
                                           [.18 rgbft <.2,.2,.25, .1,.7>]
                                           [.20 rgbft <.3,.2,.1, 0,.1>]
                                           [.22 rgbft <0,0,0, 1,1>]
                                           }
                                }
                        normal{granite .001 scale .00001}
                        finish{diffuse 1}
                        scale 2
                        hollow
                        double_illuminate
                        rotate <40,0,30>
                        }
         #end
        object{Planet }
        scale .3
        translate <0,0,0>
        }

light_source{
         0,
         4
         fade_power 2
         translate <2,.1,.5>
         }

camera{
 location <0,.5,0>
 up y
 look_at .5*x //<0,-.3,1> //<0,-.4,1>

}


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From: Nimish Ajmani
Subject: Re: Ping Pong
Date: 20 Mar 2008 08:45:02
Message: <web.47e2697941aa233d8c12d7010@news.povray.org>
So, do we just download the file, and upload a new copy, with our additions?


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From: Nekar Xenos
Subject: Re: Ping Pong
Date: 20 Mar 2008 08:49:22
Message: <47e26b62@news.povray.org>
"Nimish Ajmani" <nomail@nomail> wrote in message 
news:web.47e2697941aa233d8c12d7010@news.povray.org...
> So, do we just download the file, and upload a new copy, with our 
> additions?

Yes.  You can change or add as you like.

I think the previous round it was suggested only 1 change per post. But I 
don't think that really matters.


-- 
-Nekar Xenos-


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From: alphaQuad
Subject: Re: Ping Pong
Date: 20 Mar 2008 09:40:00
Message: <web.47e2773041aa233d5cffe8340@news.povray.org>
Without AA, I wasn't half way thru the isosurface after 30 minutes rendering.

10 minutes for a mapped sphere.

Any planetarium worth having should have POV scene export capability.
Guess I should add the feature now.

Thank you for posting scene code,
aQ


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planete.jpg


 

From: Nekar Xenos
Subject: Re: Ping Pong
Date: 20 Mar 2008 09:54:24
Message: <47e27aa0@news.povray.org>
"alphaQuad" <alp### [at] earthlinknet> wrote in message 
news:web.47e2773041aa233d5cffe8340@news.povray.org...
> Without AA, I wasn't half way thru the isosurface after 30 minutes 
> rendering.
I first tried rendering mine thought the night on the 500mHz Thinkpad . the 
top part was quick, but when it hit the media, it went down to ~10pps. This 
morning it was at 80%. When I rendered it here at work on the duelcore it 
was finished it ~35min.  :-S

> 10 minutes for a mapped sphere.
>
> Any planetarium worth having should have POV scene export capability.
> Guess I should add the feature now.
>
I dream of a procedural Pov planetarium... :-)

> Thank you for posting scene code,
This is a ping-pong round - you're supposed to change and post the code  :)


-- 
-Nekar Xenos-


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From: alphaQuad
Subject: Re: Ping Pong
Date: 20 Mar 2008 10:35:01
Message: <web.47e2838a41aa233d5cffe8340@news.povray.org>
"Nekar Xenos" <nek### [at] gmailcom> wrote:

> I dream of a procedural Pov planetarium... :-)

Me too. I have all the planetarium code in opengl/C and mircscript,
Orbital elements for all known moons, just an export option and we could skip
all the code translation.
http://members.aceweb.com/alphaquad/matrixcap.jpg

> This is a ping-pong round - you're supposed to change and post the code  :)

well if it has a map ... hmmm I could make jpg out 800k png, as opposed to
zipping for b.s.f ( I dont recall the limit over there )

the comments are wrapping, making for difficult reuse, I've attempted some
repair




****************************** CHANGES ***************************/*
  Planet isosurface from Jaime Vives Piqueres's moon.

*/


global_settings{
 assumed_gamma 1.0
 max_trace_level 12
}
#default{texture{finish{ambient 0}}}
#include "functions.inc"


#declare Modelling=off;
#declare ShowPlanet=on;
#declare ShowWater=on;
#declare ShowClouds=on;
#declare ShowRings=on;


// *** PLANET ***

// planet texture
#declare t_planet=
pigment{
          onion    warp { turbulence 0.1 /*lambda 33 */ }
          color_map{
                   [.7 rgb <.3,.2,.05>] // sand
                   [.8 rgb <0,.1,0>]    // green
                   [.99 rgb <.1,.05,.01>]//<.1,.2,.01>]  // green
                   }
                 scale 1/(<1.01,.995,1.01>)
                 }



#declare t_planet=
texture{
 pigment{
          onion    scale <1.01,.995,1.01>
          turbulence .05
          lambda 2.5
          omega 1.2
          pigment_map{
                   [0 rgb 1]
                   [.05  t_planet ]
                   [.95  t_planet ] // sand
                   [1 rgb 1]//<.1,.2,.01>]
                   }
         }
#declare P_IM_Earth = pigment {
  image_map {
    jpeg "earth1024"
    map_type 1
    interpolate 2
  }
}

#if(!Modelling)
        normal{granite .001 scale .00001}
#end
finish{specular .1 }
}

#declare Scalar=<4,1,4>;
#declare Rotar=<-15,0,0>;

// Cloud texture
#declare t_clouds=
texture{
         pigment{
                  wrinkles  scale <100,50,100>*22
                  turbulence <1,2,1>
                  lambda 2.5
                  omega 1.3
                  warp { turbulence <10,0,10>*.1
                        //lambda 3
                        omega 1.2
                        }
                  color_map{
                           [0 rgb 1 transmit 1]
                           [.3 rgb 1 transmit .9]
                           [1 rgb 1 transmit 0]
                           }
                  rotate y*15
                  scale<0.021,0.02,0.021>/Scalar
                  rotate -Rotar
                 }
        }

// Cloud texture
#declare t_clouds=
texture{ wrinkles  rotate Rotar
                  scale Scalar
                  //lambda 2.5
                  omega 1.3
                  texture_map{
                           [0 t_clouds ]
                           [.3 pigment {rgb 1 transmit 1}]
                           [.5 t_clouds]
                           [.7 pigment {rgb 1 transmit 1}]
                           [1 t_clouds ]
                           }
        }



// Planet
#declare PlanetE=
union {
sphere {
 0,1
 texture { pigment { P_IM_Earth } }
 }
#if(!Modelling)
              sphere{0,1 // Atmosphere
                      pigment{colour rgbt 1}
                      interior{
                               media {
                                          // (---general values---)
  intervals 10 // number of intervals used for sampling [10]
  samples 1,1  // minimum and maximum number of samples taken per interval [1,1]
  confidence 0.9  // statistic parameter higher->better quality [0.9]
  variance 1.0/128   // statistic parameter lower->better quality [1.0/128]
  ratio 0.9      // distribution between lit and unlit areas [0.9]
  // (---media types---)
  //absorption rgb<.1,.05,0>*.001
  // absorbing media, block light of specified color
  scattering {2, rgb 10 }
  //method 3   // adaptive sampling
                           density {onion
                                  color_map{
                                       [.89 rgb .5] // earth
                                       [.93 rgb <0,.5,.6>*.5]//
                                       [.98 rgb <0,0,.1>]//
                                       [1 rgb 0 ]//
                                                           }
                                                  }
                                        }
                               }
                      rotate y*90
                      scale 1.05
                      hollow
                      double_illuminate
                }
#end
 }




#declare Planet=
union{
        isosurface{  // Copied from Jaime's LightSys Space Demo scene

function{(x*x+y*y+z*z-1)+f_granite(x*2,y*2,z*2)*f_agate(x,y,z)*.05}
                 max_gradient 3.8
                 contained_by{sphere{0,1}}
                 texture{t_planet scale .02}
                 scale y*1.002
                 }


       #if(ShowWater)
               sphere{0,1 // water
                      pigment{gradient y scale 2 translate y
                              turbulence .1
                               lambda 7
                          colour_map{
                             [0 rgbt<1,1,1,0> ]
                             [.15 rgb <0,.05,.2> transmit .3*(!Modelling)]
                             [.9 rgb <0,.05,.2> transmit .3*(!Modelling)]
                             [1 rgbt<1,1,1,0> ]
                                      }
                              }
                      finish{specular .2  metallic brilliance 2}
                      #if(!Modelling)
                         interior{fade_distance .003 fade_color rgb <0,0,.1>}
                      #end
                      scale .996
                      }
       #end
      #if(!Modelling)
              sphere{0,1 // Atmosphere
                      pigment{colour rgbt 1}
                      interior{
                           media {
                              // (---general values---)
 intervals 10 // number of intervals used for sampling [10]
 samples 1,1  // minimum and maximum number of samples taken per interval [1,1]
 confidence 0.9  // statistic parameter higher->better quality [0.9]
 variance 1.0/128   // statistic parameter lower->better quality [1.0/128]
 ratio 0.9       // distribution between lit and unlit areas [0.9]
 // (---media types---)
 //absorption rgb<.1,.05,0>*.001
 // absorbing media, block light of specified color
 scattering {2, rgb 10 }
 //method 3       // adaptive sampling
                                density {onion
                                          color_map{
                                              [.89 rgb .5] // earth
                                              [.93 rgb <0,.5,.6>*.5]//
                                              [.98 rgb <0,0,.1>]//
                                                           [1 rgb 0 ]//
                                                           }
                                                  }
                                        }
                               }
                      rotate y*90
                      scale 1.05
                      hollow
                      double_illuminate
                      }
       #end
       #if(ShowClouds)
               union{
                      sphere{0,1.01 texture{t_clouds }}
                      rotate y*45
                      hollow //double_illuminate
                      }
        #end
       }

// placement
union{  #if(ShowRings)
        disc {<0, 0, 0>,  y, 1.0, .7        // -O- RINGs -O-
                        pigment{spherical
                                cubic_wave
                                colour_map{
                                           [0 rgbft <0,0,0, 1,1>]
                                           [.01 rgbft <.4,.3,.2, 0,.1>]
                                           [.015 rgbft <.3,.3,.3, .1,.7>]
                                           [.03 rgbft <.35,.3,.25, 0,.1>]
                                           [.04 rgbft <.1,.21,.3, .1,.9>]
                                           [.07 rgbft <.3,.21,.1, .2,.5>]
                                           //
                                           [.12 rgbft <.25,.2,.15, 0,.1>]
                                           [.12 rgbft <.25,.2,.15, 0,.1>]
                                           [.18 rgbft <.2,.2,.25, .1,.7>]
                                           [.20 rgbft <.3,.2,.1, 0,.1>]
                                           [.22 rgbft <0,0,0, 1,1>]
                                           }
                                }
                        normal{granite .001 scale .00001}
                        finish{diffuse 1}
                        scale 2
                        hollow
                        double_illuminate
                        //rotate <40,0,30>

                        }
         #end
        object{PlanetE rotate <0,180,0> }
        scale .3
        rotate <0,0,24>
        translate <0,0,0>
}

light_source{
         <100,.1,100>,
         2
         fade_power 2
         //translate <2,.1,.5>
         }

camera{
 location <0,.5,-3>
 //up y
 //look_at .5*x //<0,-.3,1> //<0,-.4,1>
 look_at <0.3,0.15,0>
 angle 12

}


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From: alphaQuad
Subject: Re: Ping Pong
Date: 20 Mar 2008 11:55:01
Message: <web.47e2965d41aa233d5cffe8340@news.povray.org>
I now see that P_IM_Earth was pasted inside another declaration and it still
worked, my bad. It should be moved anyway I suppose.


#declare P_IM_Earth = pigment {
  image_map {
    jpeg "earth1024"
    map_type 1
    interpolate 2
  }
}


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From: Jörg 'Yadgar' Bleimann
Subject: Re: Ping Pong
Date: 22 Mar 2008 07:19:54
Message: <47e4f96a@news.povray.org>
High!

What about adding an astronomically accurate starry sky?

// Begin addition by Yadgar

// (Atlas for Skywatchers) (C) 1997 Franckh-Kosmos Verlags-GmbH & Co., 
Stuttgart, Germany

yaz### [at] gmxde

// [0] Visual brightness in orders of magnitude
// [1] Rectascension, hours
// [2] Rectascension, minutes
// [3] Declination, degrees

                            // Flam- Bayer     Constel-   Name         Notes
#declare Cat=array[900][4] // steed           lation
{
   { 4.5,  2,  2,   70.91 } // 48              Cas 
multiple
   { 4,    2,  3.4, 72.42 } // 50              Cas
   { 2,    2, 31.8, 89.26 } //  1    (alpha)   UMi (Polaris)
   { 4.8, 12, 49.2, 83.41 } // 78              Cam (32 Cam) 
multiple
   { 4.3, 14, 27.5, 75.7  } //  5              UMi
   { 2.1, 14, 50.7, 74.16 } //  7    (beta)    UMi (Kokhab)
   { 3,   15, 20.7, 71.83 } // 13    (gamma)   UMi (Ferkad)
   { 4.3, 15, 44.1, 77.79 } // 16    (zeta)    UMi
   { 5,   16, 17.5, 75.76 } // 21    (eta)     UMi
   { 4.2, 16, 46,   82.04 } // 22    (epsilon) UMi
   { 4.4, 17, 32.2, 86.59 } // 23    (delta)   UMi
   { 5.1, 18,  0.1, 80    } // 40+41           Dra 
multiple
   { 5.1, 20, 28,   81.43 } // 75              Dra 
multiple
   { 2.1,  0,  8.4, 29.09 } // 21    (alpha)   And (Alferatz, Zirrah)
   { 3.3,  0, 39.3, 30.86 } // 31    (delta)   And
   { 4.5,  0, 49.8, 41.08 } // 35    (ny)      And
   { 3.9,  0, 56.8, 38.5  } // 37    (my)      And
   { 2.1,  1,  9.7, 35.62 } // 43    (beta)    And (Mirakh)
   { 4.1,  1, 36.8, 41.41 } // 50    (upsilon) And                     3 
planets!
   { 3.6,  1, 38,   48.63 } // 51              And
   { 4  ,  1, 43.7, 50.69 } //       (phi)     Per
   { 3.4,  1, 53.1, 29.58 } //  2    (alpha)   Tri (Elmuthalleth)
   { 5,    1, 56,   37.26 } // 56              And 
multiple
   { 2.1,  2,  3.9, 42.33 } // 57    (gamma)   And (Alamak) 
multiple
   { 3,    2,  9.5, 34.99 } //  4    (beta)    Tri
   { 5.6,  2, 10.9, 39.04 } // 59              And 
multiple
   { 4.9,  2, 12.4, 30.3  } //  6    (iota)    Tri 
multiple
   { 4,    2, 17.3, 33.85 } //  9    (gamma)   Tri
   { 5.1,  2, 35.8, 34.7  } // 15              Tri 
multiple
   { 8,    2, 37,   34.26 } //  R              Tri 
fluctuating
   { 2.3   0,  9.2, 59.15 } // 11    (beta)    Cas (Kaf)
   { 4.7,  0, 31.8, 54.52 } // 14    (lambda)  Cas
   { 3.7,  0, 37,   53.9  } // 17    (zeta)    Cas
   { 2.2,  0, 40.5, 56.54 } // 18    (alpha)   Cas (Shedir)
   { 3.4,  0, 49.1, 57.82 } // 24    (eta)     Cas (Akhird) 
multiple
   { 2.35, 0, 56.7, 60.72 } // 27    (gamma)   Cas
   { 4.8,  1, 20.1, 58.23 } // 34    (phi)     Cas 
multiple
   { 2.7,  1, 25.8, 60.24 } // 37    (delta)   Cas (Rukhbah)
   { 3.4,  1, 54.4, 63.67 } // 45    (epsilon) Cas
   { 4.5,  2, 29.1, 67.4  } //        iota     Cas 
multiple
   { 5.95  2, 52,   68.89 } // SU              Cas 
fluctuating
   { 4.3,  4, 54.1, 66.34 } //  9    (alpha)   Cam
   { 4,    5,  3.4, 60.44 } // 10    (beta)    Cam 
multiple
   { 4.8,  5,  6.2, 58.98 } // 11+12           Cam 
multiple
   { 4.2,  2, 50.6, 38.32 } // 16              Per
   { 3.8,  2, 50.7, 55.9  } // 15    (eta)     Per
   { 3.9,  2, 54.3, 52.76 } // 18    (tau)     Per
   { 2.9,  3,  4.8, 53.51 } // 23    (gamma)   Per
   { 3.4,  3,  5.2, 38.84 } // 25    (rho)     Per 
fluctuating
   { 2.75, 3,  8.2, 40.96 } // 26    (beta)    Per (Algol) 
fluctuating
   { 4.1,  3,  9.1, 49.61 } //        iota     Per
   { 3.8,  3,  9.5, 44.86 } // 27    (kappa)   Per
   { 1.8,  3, 24.3, 49.86 } // 33    (alpha)   Per (Mirfak)
   { 3,    3, 42.9, 47.79 } // 39    (delta)   Per
   { 3.8,  3, 44.3, 32.39 } // 38    (omikron) Per (Atik)
   { 3.8,  3, 45.2, 42.58 } // 41    (ny)      Per
   { 2.8,  3, 54.1, 31.88 } // 44    (zeta)    Per
   { 2.9,  3, 57.9, 40.01 } // 45    (epsilon) Per 
multiple
   { 4,    3, 59,   35.79 } // 46    (xi)      Per (Menkib)
   { 4,    4,  8.7, 47.71 } // 48    (upsilon) Per
   { 4.1,  4, 14.9, 48.41 } // 51    (my)      Per
   { 5.4   4, 32,   53.91 } //  1              Cam 
multiple
   { 5.6,  4, 33.4, 43.05 } // 57              Per 
multiple
   { 5.4,  4, 40,   53.47 } //  2              Cam 
multiple
   { 2.7,  4, 57,   33.17 } //  3    (iota)    Aur
   { 4.9,  4, 59.3, 37.89 } //  4    (omega)   Aur 
multiple
   { 3.4,  5,  2,   43.82 } //  7    (epsilon) Aur 
fluctuating
   { 3.85, 5,  2.5, 41.08 } //  8    (zeta)    Aur 
fluctuating
   { 3.2,  5,  6.5, 41.23 } // 10    (eta)     Aur
   { 4.9,  5, 15.4, 32.69 } // 14              Aur 
multiple
   { 0.1,  5, 16.7, 46    } // 13    (alpha)   Aur (Capella)
   { 5.4,  5, 38.6, 30.49 } // 26              Aur
   { 4,    5, 51.5, 39.15 } // 32    (ny)      Aur
   { 3.7,  5, 59.5, 54.28 } // 33    (delta)   Aur
   { 1.9,  5, 59.5, 44.95 } // 34    (beta)    Aur (Menkalinan)
   { 2.6,  5, 59.7, 37.21 } // 37    (theta)   Aur 
multiple
   { 5.8,  6, 11.6, 48.71 } // 41              Aur 
multiple
   { 5.1,  6, 26.8, 58.42 } //  5              Lyn 
multiple
   { 5.35, 6, 28.6, 30.49 } // 48              Aur (RT Aurigae) 
fluctuating
   { 4.8,  6, 46.2, 59.44 } // 12              Lyn 
multiple
   { 4.4,  6, 57.3, 58.42 } // 15              Lyn
   { 5.3,  7, 22.9, 55.29 } // 19              Lyn 
multiple
   { 4.3,  8, 22.8, 43.19 } // 31              Lyn
   { 3.35, 8, 30.3, 60.72 } //  1    (omikron) UMa 
fluctuating
   { 3.1,  8, 59.2, 48.02 } //  9    (iota)    UMa (Talitha)
   { 4,    9,  0.6, 41.78 } // 10              UMa
   { 3.6,  9,  3.6, 47.16 } // 12    (kappa)   UMa
   { 3.8,  9, 18.8, 36.8  } // 38              Lyn 
multiple
   { 3.1,  9, 21.1, 34.39 } // 40    (alpha)   Lyn
   { 5.3,  9, 28.7, 45.6  } // 41              Lyn 
multiple
   { 3.7,  9, 31.5, 63.06 } // 23              UMa
   { 3.2,  9, 32.9, 51.68 } // 25    (theta)   UMa
   { 4.5,  9, 34.5, 69.83 } // 24              UMa
   { 3.8,  9, 51,   59.04 } // 29    (ny)      UMa
   { 4.2, 10, 27.9, 36.71 } // 31    (beta)    LMi
   { 3.8, 10, 53.3, 34.21 } // 46    (omikron) LMi
   { 3.5, 10, 17.1, 42.91 } // 33    (lambda)  UMa (Tania Borealis)
   { 3.1, 10, 22.3, 41.5  } // 34    (my)      UMa (Tania Australis)
   { 6,   10, 45.1, 67.41 } // VY              UMa 
fluctuating
   { 2.3, 11,  1.8, 56.38 } // 48    (beta)    UMa (Merak)
   { 1.8, 11,  3.7, 61.75 } // 50    (alpha)   UMa (Dubhe)
   { 3.0, 11,  9.7, 44.5  } // 52    (psi)     UMa
   { 3.7, 11, 46.1, 47.78 } // 63    (chi)     UMa
   { 2.4, 11, 53.8, 53.69 } // 64    (gamma)   UMa (Phegda, Phad)
   { 3.3, 12, 15.4, 57.03 } // 69    (delta)   UMa (Megrez)
   { 1.8, 12, 54,   55.96 } // 77    (epsilon) UMa (Alioth)
   { 4.9, 13,  0.7, 56.37 } // 78              UMa 
fluctuating
   { 2,   13, 23.9, 54.93 } // 79    (zeta)    UMa (Mizar)
   { 4,   13, 25.2, 54.99 } // 80              UMa (Alkor)
   { 1.9, 13, 47.5, 49.31 } // 85    (eta)     UMa (Alkaid, Benetnasch)
   { 3.8, 11, 18.2, 31.53 } // 53    (xi)      UMa (Alula Australis) 
multiple
   { 3.5, 11, 18.5, 33.09 } // 54    (ny)      UMa (Alula Borealis)
   { 4.2, 12, 33.7, 41.36 } //  8    (beta)    CVn
   { 5.4, 12, 45.1, 45.44 } //  Y              CVn 
fluctuating
   { 2.8, 12, 56,   38.32 } // 12    (alpha)   CVn (Cor Caroli) 
multiple
   { 5.3, 13,  9.9, 38.51 } // 17,15           CVn 
multiple
   { 4.8, 13, 37.5, 36.29 } // 25              CVn 
multiple
   { 4.4, 14, 13.5, 51.79 } // 17    (kappa)   Boo 
multiple
   { 4.7, 14, 16.2, 51.37 } // 21    (iota)    Boo 
multiple
   { 4,   14, 25.2, 51.85 } // 23    (theta)   Boo
   { 3,   14, 32.1, 38.31 } // 27    (gamma)   Boo (Ceginus)
   { 5.7, 14, 49.7, 48.72 } // 39              Boo 
multiple
   { 3.5, 15,  1.9, 40.39 } // 42    (beta)    Boo (Nekkar)
   { 4.8, 15,  3.8, 47.65 } //  i              Boo 
multiple, fluctuating
   { 3.4, 15, 15.5, 33.31 } // 49    (delta)   Boo 
multiple
   { 4.2, 15, 24.5, 37.38 } // 51    (my)      Boo (Alkalurops) 
multiple
   { 4.6, 15, 39.4, 36.64 } //  7    (zeta)    CrB 
multiple
   { 4.2, 16,  8.8, 44.93 } // 11    (phi)     Her
   { 5.2, 16, 17.4, 33.86 } // 17    (sigma)   CrB 
multiple
   { 3.9, 16, 19.7, 46.31 } // 22    (tau)     Her
   { 4.85,16, 28.6, 41.88 } // 30    (g)       Her 
fluctuating
   { 4.2, 16, 34.1, 42.44 } // 35    (sigma)   Her
   { 2.8, 16, 41.3, 31.6  } // 40    (zeta)    Her
   { 3.5, 16, 42.9, 38.92 } // 44    (eta)     Her
   { 3.9, 17,  0.3, 30.93 } // 58    (epsilon) Her
   { 3.2, 17, 15,   36.81 } // 67    (pi)      Her
   { 5.15,17, 17.3, 33.1  } // 68    (u)       Her 
fluctuating
   { 4.1, 17, 23.7, 37.15 } // 75    (rho)     Her 
multiple
   { 3.8, 17, 39.5, 46.01 } // 85    (iota)    Her
   { 3.9, 17, 56.3, 37.25 } // 91    (theta)   Her
   { 3.8, 11, 31.4, 69.33 } //  1    (lambda)  Dra (Giauzar)
   { 3.9, 12, 33.5, 69.76 } //  5    (kappa)   Dra
   { 3.7, 14,  4.4, 64.38 } // 11    (alpha)   Dra (Thuban)
   { 3.3, 15, 24.9, 58.97 } // 12    (iota)    Dra (Edasich)
   { 4,   16,  1.9, 58.57 } // 13    (theta)   Dra
   { 2.7, 16, 24,   61.51 } // 14    (eta)     Dra
   { 4.5, 16, 36.2, 52.91 } // 17,16           Dra 
multiple
   { 4.9, 17,  5.3, 54.47 } // 21    (my)      Dra 
multiple
   { 3.2, 17,  8.8, 65.71 } // 22    (zeta)    Dra
   { 2.8, 17, 30.4, 53.3  } // 23    (beta)    Dra (Rastaben)
   { 4.1, 17, 32.2, 55.18 } // 25,24 (ny)      Dra 
multiple
   { 5.2, 17, 35,   61.87 } // 26              Dra 
multiple
   { 4.3, 17, 41.9, 72.15 } // 31    (psi)     Dra 
multiple
   { 3.7, 17, 53.5, 56.87 } // 32    (xi)      Dra (Grumium)
   { 2.2, 17, 56.6, 51.49 } // 33    (gamma)   Dra (Ettanin)
   { 3.6, 18, 21.1, 72.73 } // 44    (chi)     Dra
   { 4.9, 18, 23.9, 58.8  } // 39              Dra 
multiple
   { 3.1, 19, 12.6, 67.66 } // 57    (delta)   Dra (Altais)
   { 3.8, 19, 48.2, 70.27 } // 63    (epsilon) Dra 
multiple
   { 4.3, 18, 19.9, 36.06 } //  1    (kappa)   Lyr
   { 0,   18, 36.9, 38.78 } //  3    (alpha)   Lyr (Vega)
   { 3.9, 18, 44.4, 39.64 } //  5,4  (epsilon) Lyr 
multiple
   { 4.1, 18, 44.8, 37.6  } //  6,7  (zeta)    Lyr 
multiple
   { 3.75,18, 50.1, 33.36 } // 10    (beta)    Lyr (Sheliak) 
fluctuating, multiple
   { 4.2, 18, 54.5, 36.9  } // 12    (delta-2) Lyr
   { 4.15,18, 55.3, 43.95 } // 13    (R)       Lyr 
fluctuating
   { 3.2, 18, 58.9, 32.69 } // 14    (gamma)   Lyr (Sulaphat)
   { 3.8, 19, 17.1, 53.37 } //  1    (kappa)   Cyg
   { 3.8, 19, 29.7, 51.73 } // 10    (iota)    Cyg
   { 2.9, 19, 30.7, 27.96 } //  6    (beta)    Cyg (Albireo) 
multiple
   { 4.3, 19, 36.4, 50.22 } // 13    (theta)   Cyg 
multiple
   { 5.4, 19, 41.8, 50.52 } // 16              Cyg 
multiple
   { 2.9, 19, 45,   45.13 } // 18    (delta)   Cyg 
multiple
   { 9,   19, 50.6, 32.91 } //       (chi)     Cyg 
fluctuating
   { 4.9, 19, 55.6, 52.44 } // 24    (psi)     Cyg 
multiple
   { 3.9, 19, 56.3, 35.08 } // 21    (eta)     Cyg
   { 3.4, 20, 13.6, 46.76 } // 31  (omikron-1) Cyg 
multiple
   { 4.6, 20, 14.6, 36.8  } // 29              Cyg 
multiple
   { 4,   20, 15.5, 47.71 } // 32  (omikron-2) Cyg
   { 4.8, 20, 17.8, 38.03 } // 34    (P)       Cyg 
fluctuating
   { 2.2, 20, 22.2, 40.26 } // 37    (gamma)   Cyg (Sadr)
   { 4,   20, 29.4, 30.37 } // 41              Cyg
   { 5.1, 20, 31.2, 49.22 } // 46    (omega-2) Cyg
   { 1.3, 20, 41.4, 45.28 } // 50    (alpha)   Cyg (Deneb)
   { 4.2, 20, 45.7, 30.72 } // 52              Cyg
   { 2.5, 20, 46.2, 33.97 } // 53    (epsilon) Cyg
   { 4.5, 20, 47.4, 36.49 } // 54    (lambda)  Cyg 
multiple
   { 5.75,20, 51.5, 28.25 } //  T              Vul 
fluctuating
   { 3.9, 20, 57.2, 41.17 } // 58    (ny)      Cyg
   { 3.7, 21,  4.9, 43.93 } // 62    (xi)      Cyg
   { 3.2, 21, 12.9, 30.23 } // 64    (zeta)    Cyg
   { 3.4, 20, 45.3, 61.84 } //  3    (eta)     Cep
   { 7.8, 21,  9.5, 68.49 } //  T              Cep 
fluctuating
   { 2.5, 21, 18.6, 62.59 } //  5    (alpha)   Cep (Alderamin)
   { 3.2, 21, 28.7, 70.56 } //  8    (beta)    Cep (Alfirk) 
multiple
   { 4.2, 21, 43.5, 58.78 } //       my        Cep 
fluctuating
   { 4.3, 22,  3.8, 64.63 } // 17    (xi)      Cep 
multiple
   { 3.4, 22, 10.9, 58.2  } // 21    (zeta)    Cep
   { 4.2, 22, 15,   57.04 } // 23    (epsilon) Cep
   { 3.8, 22, 29.2, 58.42 } // 27    (delta)   Cep 
fluctuating, multiple
   { 3.5, 22, 49.7, 66.2  } // 32    (iota)    Cep
   { 4.4, 23,  7.9, 75.39 } // 33    (pi)      Cep 
multiple
   { 4.7, 23, 18.6, 68.11 } // 34    (omikron) Cep 
multiple
   { 4.9, 23, 24.8, 62.28 } //  4              Cas 
multiple
   { 4.8, 23, 30,   58.55 } // AR              Cas 
multiple
   { 3.2, 23, 39.3, 77.63 } // 35    (gamma)   Cep (Errai)
   { 4.5, 23, 54.4, 57.5  } //  7    (rho)     Cas 
fluctuating
   { 4.9, 23, 59,   55.76 } //  8    (sigma)   Cas 
multiple
   { 4.8, 21,  6.9, 38.75 } // 61              Cyg 
multiple
   { 3.7, 21, 14.8, 38.05 } // 65    (tau)     Cyg
   { 4.2, 21, 17.4, 39.39 } // 67    (sigma)   Cyg
   { 4,   21, 34,   45.59 } // 73    (rho)     Cyg
   { 5.8, 21, 36,   45.37 } //  W              Cyg 
fluctuating
   { 5.4, 21, 43.5, 38.29 } // 79              Cyg 
multiple
   { 4.4, 21, 44.2, 28.75 } // 78    (my)      Cyg 
multiple

   { 4.1, 22, 16,   37.75 } //  1              Lac
   { 4.6, 22, 21,   46.54 } //  2              Lac
   { 4.4, 22, 23.6, 52.23 } //  3    (beta)    Lac
   { 4.6, 22, 24.5, 49.48 } //  4              Lac
   { 4.3, 22, 29.5, 47.71 } //  5              Lac
   { 3.8, 22, 31.3, 50.28 } //  7    (alpha)   Lac
   { 5.3, 22, 35.9, 39.63 } //  8              Lac 
multiple
   { 3.6, 23,  1.9, 42.33 } //  1    (omikron) And
   { 3.85,23, 37.6, 46.46 } // 16    (lambda)  And 
fluctuating
   { 4.3, 23, 38.1, 43.27 } // 17    (iota)    And
   { 4.1, 23, 40.4, 44.33 } // 19    (kappa)   And
   { 5.4,  0,  9.4,-27.99 } //       (kappa1)  Scl 
multiple
   { 3.6,  0, 19.4, -8.82 } //  8    (iota)    Cet
   { 5.7,  0, 21.8,-20.06 } //  T              Cet 
fluctuating
   { 2,    0, 43.6,-17.99 } // 16    (beta)    Cet (Deneb Kaitos)
   { 4.3,  0, 58.6,-29.36 } //       (alpha)   Scl
   { 3.5,  1,  8.6,-10.18 } // 31    (eta)     Cet
   { 5,    1, 14.4, -7.92 } // 37              Cet 
multiple
   { 3.6,  1, 24,   -8.18 } // 45    (theta)   Cet
   { 5.7,  1, 36.1,-29.91 } //       (tau)     Scl 
multiple
   { 3.5,  1, 44.1,-15.94 } // 52    (tau)     Cet
   { 4.5,  1, 49.6,-10.69 } // 53    (chi)     Cet 
multiple
   { 3.7,  1, 51.5,-10.33 } // 55    (zeta)    Cet (Baten Kaitos)
   { 4,    2,  0,  -21.08 } // 59    (ny)      Cet
   { 5.5,  2, 12.8, -2.39 } // 66              Cet 
multiple
   { 6.3,  2, 19.3, -2.98 } // 68    (omikron) Cet (Mira) 
fluctuating

   { 4.9,  2, 33.8,-28.23 } //       (omega)   For 
multiple
   { 4.1,  2, 39.5,  0.33 } // 82    (delta)   Cet
   { 3.5,  2, 43.3,  3.24 } // 86    (gamma)   Cet 
multiple
   { 4.2,  2, 44.1,-13.86 } // 89    (pi)      Cet
   { 4.3,  2, 44.9, 10.11 } // 87    (my)      Cet
   { 2.5,  3,  2.3,  4.09 } // 92    (alpha)   Cet (Menkar)
   { 2.8,  0, 13.2, 15.18 } // 88    (gamma)   Peg (Algenib)
   { 5.8,  0, 15,    8.82 } // 35              Psc 
multiple
   { 5,    0, 28,   17.89 } // 47              Psc (TV Piscium) 
fluctuating
   { 4.1,  0, 47.3, 24.27 } // 34    (zeta)    And
   { 4.4,  0, 48.7,  7.59 } // 63    (delta)   Psc
   { 5.5,  0, 49.9, 27.71 } // 65              Psc 
multiple
   { 5.5,  0, 55,   23.63 } // 36              And 
multiple
   { 4.3,  1,  2.9,  7.89 } // 71    (epsilon) Psc
   { 4.7,  1,  5.7, 21.47 } // 74    (psi1)    Psc 
multiple
   { 4.9,  1, 13.7,  7.58 } // 86    (zeta)    Psc 
multiple
   { 3.6,  1, 31.5, 15.35 } // 99    (eta)     Psc
   { 4.4,  1, 41.4,  5.49 } //106    (ny)      Psc
   { 4.3,  1, 45.4,  9.16 } //110    (omikron) Psc
   { 5.8,  1, 50.1, 22.28 } //  1              Ari 
multiple
   { 3.9,  1, 53.5, 19.29 } //  5    (gamma)   Ari (Mesarthim) 
multiple
   { 4.6,  1, 53.6,  3.19 } //111    (xi)      Psc
   { 2.6,  1, 54.6, 20.81 } //  6    (beta)    Ari (Sheratan)
   { 4.7,  1, 57.9, 23.6  } //  9    (lambda)  Ari 
multiple
   { 3.8,  2,  2,    2.76 } //113    (alpha)   Psc 
multiple
   { 5.6,  2,  3.7, 25.94 } // 10              Ari 
multiple
   { 2,    2,  7.2, 23.46 } // 13    (alpha)   Ari (Hamal)
   { 3.6,  2, 50,   27.26 } // 41              Ari
   { 4.6,  2, 59.2, 21.34 } // 48    (epsilon) Ari 
multiple
   { 4.5,  2, 45.1,-18.57 } //  1    (tau1)    Eri
   { 4.4,  2, 49.1,-32.41 } //       (beta)    For
   { 3.9,  2, 56.4, -8.9  } //  3    (eta)     Eri

   { 3.9,  3, 12.1,-28.99 } //       (alpha)   For 
multiple
   { 3.7,  3, 19.5,-21.76 } // 16    (tau4)    Eri
   { 3.7,  3, 32.9, -9.46 } // 18    (epsilon) Eri
   { 4.3,  3, 33.8,-21.63 } // 19    (tau5)    Eri
   { 3.5,  3, 43.2, -9.77 } // 23    (delta)   Eri
   { 4.2,  3, 46.8,-23.25 } // 27    (tau6)    Eri
   { 4.5,  3, 54.3, -2.95 } // 32              Eri 
multiple
   { 3,    3, 58,  -13.51 } // 34    (gamma)   Eri (Zaurak)
   { 4,    4, 11.9, -6.84 } // 38    (omikron1)Eri
   { 4.9,  4, 14.4,-10.26 } // 39              Eri 
multiple
   { 4.4,  4, 15.3, -7.64 } // 40    (omikron2)Eri 
multiple
   { 3.6,  4, 17.9,-33.8  } // 41    (upsilon4)Eri
   { 4,    4, 24,  -34.02 } // 43    (upsilon3)Eri
   { 3.8,  4, 35.6,-30.56 } // 52    (upsilon2)Eri
   { 3.9,  4, 36.3, -3.35 } // 48    (ny)      Eri
   { 3.9,  4, 38.2,-14.3  } // 53              Eri
   { 4,    4, 45.5, -3.25 } // 57    (my)      Eri
   { 2.8,  5,  7.9, -5.09 } // 67    (beta)    Eri (Cursa)
   { 3.9,  5, 31.2,-35.47 } //       (epsilon) Col
   { 2.6,  5, 39.6,-34.07 } //       (alpha)   Col
   { 3.1,  5, 51,  -35.77 } //       (beta)    Col
   { 4.4,  5, 57.5,-35.28 } //       (gamma)   Col
   { 3.9,  6, 22.1,-33.44 } //       (delta)   Col
   { 3.6,  3, 24.8,  9.03 } //  1    (omikron) Tau
   { 3.7,  3, 27.2,  9.73 } //  2    (xi)      Tau
   { 3.7,  3, 44.9, 24.11 } // 17              Tau (Electra)
   { 4.3,  3, 45.2, 24.47 } // 19              Tau (Taygeta)
   { 3.8,  3, 45.8, 24.37 } // 20              Tau (Maia)
   { 4.1,  3, 46.3, 23.95 } // 23              Tau (Merope)
   { 2.8,  3, 47.5, 24.11 } // 25    (eta)     Tau (Alcyone)
   { 3.6,  3, 49.2, 24.06 } // 27              Tau (Atlas)
   { 5.05, 3, 49.2, 24.14 } // 28    (BU)      Tau (Pleione) 
fluctuating
   { 3.65, 4,  0.7, 12.49 } // 35    (lambda)  Tau 
fluctuating
   { 3.9,  4,  3.2,  5.99 } // 38    (ny)      Tau
   { 4.8,  4, 13.9,  9.26 } // 47              Tau 
multiple
   { 3.6,  4, 19.8, 15.63 } // 54    (gamma)   Tau
   { 3.8,  4, 22.9, 17.54 } // 61    (delta1)  Tau
   { 4.3,  4, 25.5, 17.93 } // 68    (delta3)  Tau 
multiple
   { 3.5,  4, 28.6, 19.18 } // 74    (epsilon) Tau
   { 3.8,  4, 28.6, 15.96 } // 77    (theta1)  Tau
   { 3.4,  4, 28.7, 15.87 } // 78    (theta2)  Tau
   { 4.2,  4, 35.7, 10.16 } // 88              Tau 
multiple
   { 0.9,  4, 35.9, 16.51 } // 87    (alpha)   Tau (Aldebaran) 
probably planet(s)!
   { 4.2,  4, 42.2, 22.96 } // 94    (tau)     Tau 
multiple
   { 1.7,  5, 26.3, 28.61 } //112    (beta)    Tau (Elnath, Nath)
   { 5.5,  5, 29.3, 25.15 } //118              Tau 
multiple
   { 3,    5, 37.6, 21.14 } //123    (zeta)    Tau
   { 7.85, 4, 59.6,-14.81 } //  R              Lep 
fluctuating
   { 3.2,  5,  5.5,-22.37 } //  2    (epslion) Lep
   { 5.6,  5, 11.4,-11.85 } // RX              Lep 
fluctuating
   { 3.3,  5, 12.9,-16.21 } //  5    (my)      Lep 
fluctuating
   { 4.4,  5, 13.2,-12.94 } //  4    (kappa)   Lep 
multiple
   { 0.1,  5, 14.5, -8.2  } // 19    (beta)    Ori (Rigel) 
multiple
   { 3.6,  5, 17.6, -6.84 } // 20    (tau)     Ori
   { 2.8,  5, 28.2,-20.76 } //  9    (beta)    Lep (Nihal)
   { 2.6,  5, 32.7,-17.82 } // 11    (alpha)   Lep (Arneb)
   { 4,    5, 35.3, -5.4  } // 41,43 (theta)   Ori 
quadruple
   { 4.1,  5, 35.4, -4.84 } // 42,45           Ori 
multiple
   { 2.8,  5, 35.4, -5.91 } // 44    (iota)    Ori 
multiple
   { 3.5,  5, 44.5,-22.45 } // 13    (gamma)   Ori 
multiple
   { 3.6,  5, 47,  -14.82 } // 14    (zeta)    Ori
   { 2.1,  5, 47.8, -9.67 } // 53    (kappa)   Ori (Saiph)
   { 3.8,  5, 51.3,-20.88 } // 15    (delta)   Lep
   { 3.7,  5, 56.4,-14.17 } // 16    (eta)     Lep
   { 3.2,  4, 49.8,  6.96 } //  1    (pi3)     Ori
   { 3.7,  4. 51.2,  5.61 } //  3    (pi4)     Ori
   { 3.7,  4, 54.3,  2.44 } //  8    (pi5)     Ori
   { 5.3,  5,  7.9,  8.5  } // 14              Ori 
multiple
   { 4.4,  5, 21.7, -0.39 } // 22              Ori 
multiple
   { 4.9,  5, 22.8,  3.55 } // 23              Ori 
multiple
   { 3.45, 5, 24.5, -2.4  } // 28    (eta)     Ori 
multiple, fluctuating
   { 1.6,  5, 21.2,  6.35 } // 24    (gamma)   Ori (Bellatrix)
   { 4.2,  5, 30.8,  5.95 } // 32              Ori 
multiple
   { 5.4,  5, 31.2,  3.29 } // 33              Ori 
multiple
   { 2.2,  5, 32,   -0.3  } // 34    (delta)   Ori (Mintaka) 
multiple
   { 5.5,  5, 33.5, -1.16 } // VV              Ori 
fluctuating
   { 3.4,  5, 35.1,  9.93 } // 39    (lambda)  Ori 
multiple
   { 1.7,  5, 36.2, -1.2  } // 46    (epsilon) Ori (Alnilam)
   { 3.6,  5, 38.8, -2.6  } // 48    (sigma)   Ori 
multiple
   { 1.7,  5, 40.8, -1.94 } // 50    (zeta)    Ori (Alnitak) 
multiple
   { 5.3,  5, 48,    6.45 } // 52              Ori 
multiple
   { 0.6,  5, 55.2,  7.41 } // 58    (alpha)   Ori (Beteigeuze) 
fluctuating
   { 3,    6, 20.3,-30.06 } //  1    (zeta)    CMa (Phurud) 
multiple (perspectivic)
   { 2,    6, 22.7,-17.96 } //  2    (beta)    CMa (Mirzam)
   { 4,    6, 36.7,-19.26 } //  7    (ny2)     CMa
   {-1.5,  6, 45.1,-16.72 } //  9    (alpha)   CMa (Sirius)
   { 3.75, 6, 49.8,-32.51 } // 13    (kappa)   CMa 
multiple, fluctuating
   { 3.9,  6, 54.1,-24.18 } // 16    (omikron1)CMa 
fluctuating
   { 1.5,  6, 58.6,-28.97 } // 21    (epsilon) CMa (Adhara) 
multiple
   { 3.5,  7,  1.7,-27.93 } // 22    (sigma)   CMa
   { 3,    7,  3,  -23.83 } // 24    (omikron2)CMa
   { 4.1,  7,  3.8,-15.63 } // 23    (gamma)   CMa
   { 1.8,  7,  8.4,-26.39 } // 25    (delta)   CMa (Wezen)
   { 4.55, 7, 14.3,-26.35 } // 27              CMa (EW CMa) 
fluctuating
   { 3.9,  7, 14.8,-26.77 } // 28    (omega)   CMa 
fluctuating
   { 4.5,  7, 16.6,-23.31 } //145              CMa 
multiple (perspectivic)
   { 5.05, 7, 18.7,-24.56 } // 29              CMa (UW CMa) 
fluctuating
   { 2.4,  7, 24.1,-29.3  } // 31    (eta)     CMa (Aludra) 
multiple (perspectivic)
   { 5.1,  7, 34.3,-23.47 } //  n              Pup 
multiple
   { 3.8,  7, 38.8,-26.8  } //  k    (kappa)   Pup 
multiple
   { 3.9,  7, 43.8,-28.96 } //  3              Pup
   { 3.2,  7, 49.3,-24.86 } //  7    (xi)      Pup (Aspidiske) 
multiple (perspectivic)
   { 4.2,  7, 56.9,-22.88 } // 11              Pup
   { 2.8,  8,  7.5,-24.3  } // 15    (rho)     Pup
   { 3.3,  6, 14.9, 22.51 } //  7    (eta)     Gem (Tejat Prior) 
fluctuating
   { 2.9,  6, 23,   22.51 } // 13    (my)      Gem (Tejat Posterior)
   { 4.1,  6, 29,   20.21 } // 18    (ny)      Gem
   { 1.9,  6, 37.7, 16.4  } // 24    (gamma)   Gem (Alhena)
   { 4.6,  6, 41,    9.9  } // 15              Gem 
multiple
   { 3.1,  6, 43.9, 25.13 } // 27    (epsilon) Gem (Mebsuta)
   { 3.4,  6, 45.3, 12.9  } // 31    (xi)      Gem
   { 3.6,  6, 52.8, 33.96 } // 34    (theta)   Gem
   { 4.7,  6, 54.6, 13.18 } // 38              Gem 
multiple
   { 3.9,  7,  4.1, 20.57 } // 43    (zeta)    Gem (Mekbuda) 
multiple (perspectivic), fluctuating
   { 3.6,  7, 18.1, 16.54 } // 54    (lambda)  Gem
   { 3.5,  7, 20.1, 21.98 } // 55    (delta)   Gem (Wasat)
   { 3.8,  7, 25.7, 27.8  } // 60    (iota)    Gem
   { 4.2,  7, 29.1, 31.78 } // 62    (rho)     Gem
   { 1.6,  7, 34.6, 31.89 } // 66    (alpha)   Gem (Castor) 
multiple
   { 4.1,  7, 35.9, 26.9  } // 69    (upsilon) Gem
   { 3.6,  7, 44.4, 24.4  } // 77    (kappa)   Gem
   { 1.1,  7, 45.3, 28.03 } // 78    (beta)    Gem (Pollux)
   { 4,    6, 14.9, -6.27 } //  5    (gamma)   Mon
   { 3.7,  6, 28.8, -7.03 } // 11    (beta)    Mon 
multiple
   { 4.1,  6, 54.2,-12.04 } // 14    (theta)   CMa
   { 5,    6, 56.1,-14.04 } // 18    (my)      CMa 
multiple
   { 4.2,  7, 11.9, -0.49 } // 22    (delta)   Mon
   { 6.6,  7, 30.8, -9.78 } //  U              Mon 
fluctuating
   { 3.9,  7, 41.2, -9.55 } // 26    (alpha)   Mon
   { 5.7,  7, 45.5,-14.69 } //  2              Pup 
multiple
   { 5.5,  7, 47.9,-12.19 } //  5              Pup 
multiple
   { 4.4,  8,  8.6, -2.98 } // 29    (zeta)    Mon
   { 4.7,  8, 11.3,-12.93 } // 19              Pup
   { 4.3,  6, 23.8,  4.59 } //  8    (epsilon) Mon 
multiple
   { 6.1,  6, 25.2,  7.09 } //  T              Mon 
fluctuating
   { 2.9,  7, 27.2,  8.29 } //  3    (beta)    CMi (Gomeisa)
   { 4.3,  7, 28.2,  8.93 } //  4    (gamma)   CMi
   { 0.4,  7, 39.3,  5.22 } // 10    (alpha)   CMi (Procyon)
   { 4.7,  8, 12.2, 17.65 } // 16    (zeta)    Cnc 
multiple
   { 3.5,  8, 16.5,  9.19 } // 17    (beta)    Cnc (Altarf)
   { 5.5,  8, 26.8, 26.94 } // 23    (phi2)    Cnc 
multiple
   { 4.7,  8, 43.3, 21.47 } // 43    (gamma)   Cnc (Asellus Borealis)
   { 3.9,  8, 44.7, 18.15 } // 47    (delta)   Cnc (Asellus Australis)
   { 3.9,  8, 46.7, 28.76 } // 48    (iota)    Cnc 
multiple
   { 5.3,  8, 52.5, 28.3  } // 55    (rho1)    Cnc 
multiple (perspectivic), 4 planets!
   { 5.4,  8, 54.2, 39.58 } // 57              Cnc 
multiple
   { 6.25, 8, 55.4, 17.23 } //  X              Cnc 
fluctuating
   { 4.3,  8, 58.5, 11.86 } // 65    (alpha)   Cnc
   { 5.8,  9, 10.6, 30.96 } // RS              Cnc 
fluctuating
   { 3.9,  8, 25.7, -3.91 } //  C              Hya
   { 4.1,  8, 37.7,  5.79 } //  4    (delta)   Hya
   { 4.4,  8, 38.8,  3.34 } //  5    (sigma)   Hya
   { 4,    8, 40.1,-35.31 } //       (beta)    Pyx
   { 4.3,  8, 43.2,  3.4  } //  7    (eta)     Hya
   { 3.7,  8, 43.6,-33.19 } //       (alpha)   Pyx 
multiple
   { 3.4,  8, 46.8,  6.42 } // 11    (epsilon) Hya 
multiple
   { 4.4,  8, 48.4,  5.84 } // 13    (rho)     Hya
   { 4,    8, 50.5,-27.71 } //       (gamma)   Pyx
   { 3.1,  8, 55.4,  5.95 } // 16    (zeta)    Hya
   { 3.9,  9, 14.4,  2.31 } // 22    (theta)   Hya
   { 4.7,  9, 20.5, -9.56 } // 27              Hya 
multiple
   { 2,    9, 27.6, -8.66 } // 30    (alpha)   Hya (Alphard)
   { 4.5,  9, 29.1, -2.77 } // 31    (tau1)    Hya 
multiple
   { 3.9,  9, 39.9, -1.14 } // 35    (iota)    Hya
   { 4.1,  9, 51.5,-14.85 } // 39    (upsilon1)Hya
   { 5.1,  9, 52.5, -8.11 } //  8    (gamma)   Sex
   { 4.5, 10,  7.9, -0.37 } // 15    (alpha)   Sex
   { 3.6, 10, 10.6,-12.35 } // 41    (lambda)  Hya
   { 3.8, 10, 26.1,-16.84 } // 42    (my)      Hya
   { 4.3, 10, 27.2,-31.07 } //       (alpha)   Ant
   { 4.9, 10, 37.6,-13.38 } //  U              Hya 
fluctuating
   { 5.8, 10, 43.3,  4.75 } // 33              Sex 
multiple
   { 3.1, 10, 49.6,-16.19 } //       (ny)      Hya
   { 5.4,  9, 28.5,  9.06 } //  2    (omega)   Leo 
multiple
   { 4.3,  9, 31.7, 22.97 } //  4    (lambda)  Leo (Alterf)
   { 3.5,  9, 41.2,  9.89 } // 14    (omikron) Leo
   { 3,    9, 45.9, 23.77 } // 17    (epsilon) Leo
   { 7.9,  9, 47.6, 11.43 } //  R              Leo 
fluctuating
   { 3.9,  9, 52.8, 26.01 } // 24    (my)      Leo
   { 3.5, 10,  7.3, 16.76 } // 30    (eta)     Leo
   { 1.4, 10,  8.4, 11.97 } // 32    (alpha)   Leo (Regulus) 
multiple
   { 3.4, 10, 16.7, 23.42 } // 36    (zeta)    Leo (Aldhafera)
   { 2,   10, 20,   19.84 } // 41    (gamma)   Leo (Algieba) 
multiple
   { 3.8, 10, 32.8,  9.31 } // 47    (rho)     Leo
   { 4.3, 10, 55.6, 24.75 } // 54              Leo 
multiple
   { 2.6, 11, 14.1, 20.52 } // 68    (delta)   Leo (Zosma)
   { 3.3, 11, 14.2, 15.43 } // 70    (theta)   Leo (Coxa)
   { 4,   11, 23.9, 10.53 } // 78    (iota)    Leo 
multiple
   { 2.1, 11, 49.1, 14.57 } // 94    (beta)    Leo (Denebola)
   { 4.1, 10, 59.8,-18.3  } //  7    (alpha)   Crt (Alkes)
   { 4.5, 11, 11.7,-22.83 } // 11    (beta)    Crt
   { 3.6, 11, 19.3,-14.78 } // 12    (delta)   Crt
   { 4.1, 11, 24.9,-17.68 } // 15    (gamma)   Crt
   { 4.9, 11, 27.9,  2.85 } // 84    (tau)     Leo 
multiple (perspectivic)
   { 4.9, 11, 32.3,-29.26 } //  N              Hya 
multiple
   { 3.5, 11, 33,  -31.86 } //       (xi)      Hya
   { 4,   11, 45.9,  6.53 } //  3    (ny)      Vir
   { 3.6, 11, 50.7,  1.76 } //  5    (beta)    Vir (Zawijava)
   { 4.3, 11, 52.9,-33.91 } //       (beta)    Hya
   { 4,   12,  8.4,-24.73 } //  1    (alpha)   Crv (Alchiba)
   { 3,   12, 10.1,-22.62 } //  2    (epsilon) Crv
   { 2.6, 12, 15.8,-17.54 } //  4    (gamma)   Crv (Gienah)
   { 3.9, 12, 19.9, -0.67 } // 15    (eta)     Vir (Zaniah)
   { 2.9, 12, 29.9,-16.52 } //  7    (delta)   Crv (Algorab)
   { 2.7, 12, 34.4,-23.4  } //  9    (beta)    Crv
   { 4.6, 12, 39.2, -8    } // 26    (chi)     Vir
   { 2.7, 12, 41.7, -1.45 } // 29    (gamma)   Vir (Porrima) 
multiple
   { 3,   13, 18.9,-23.17 } // 46    (gamma)   Hya
   { 6.95,13, 29.7,-23.28 } //  R              Hya 
fluctuating
   { 5.8, 12,  4.3, 21.46 } //  2              Com 
multiple
   { 4.4, 12, 26.9, 28.27 } // 15    (gamma)   Com
   { 5,   12, 28.9, 25.91 } // 17              Com 
multiple
   { 4.8, 12, 35.1, 18.38 } // 24              Com 
multiple
   { 5.8, 12, 52.3, 17.09 } // 32,33           Com 
multiple (perspectivic)
   { 4.9, 12, 53.3, 21.24 } // 35              Com 
multiple
   { 4.3, 13, 10,   17.53 } // 42    (alpha)   Com (Diadem)
   { 4.2, 13, 11.9, 27.88 } // 43    (beta)    Com
   { 4.1, 13, 49.5, 15.8  } //  5    (upsilon) Boo
   { 2.7, 13, 54.7, 18.4  } //  8    (eta)     Boo (Muphrid)
   { 0,   14, 15.7, 19.18 } // 16    (alpha)   Boo (Arcturus)
   { 3.6, 14, 31.8, 30.37 } // 25    (rho)     Boo
   { 4.5, 14, 40.7, 16.42 } // 29    (pi)      Boo 
multiple
   { 3.8, 14, 41.1, 13.73 } // 30    (zeta)    Boo
   { 4.8, 14, 43.4, 26.53 } // 34              Boo (W Bootis) 
fluctuating
   { 2.4, 14, 45,   27.07 } // 36    (epsilon) Boo (Izar) 
multiple
   { 3.7, 14, 46.2,  1.89 } //109              Vir
   { 4.5, 14, 51.4, 19.1  } // 37    (xi)      Boo 
multiple
   { 5,   15, 23.2, 30.29 } //  2    (eta)     CrB 
multiple
   { 3.7, 15, 27.8, 29.11 } //  3    (beta)    CrB (Nusakan)
   { 4.1, 15, 32.9, 31.36 } //  4    (theta)   CrB
   { 2.2, 15, 34.8, 26.71 } //  5    (alpha)   CrB (Alphekka, Gemma)
   { 3.8, 15, 42.7, 26.3  } //  8    (gamma)   CrB 
multiple
   { 6,   15, 48.6, 28.16 } //  R              CrB 
fluctuating
   { 4.6, 15, 49.6, 26.07 } // 10    (delta)   CrB
   { 4.1, 15, 57.6, 26.88 } // 13    (epsilon) CrB
   { 3.4, 12, 55.6,  3.4  } // 43    (delta)   Vir
   { 2.8, 13,  2.2, 10.96 } // 47    (epsilon) Vir (Vindemiatrix)
   { 4.4, 13,  9.9, -5.54 } // 51    (theta)   Vir
   { 1,   13, 25.2,-11.16 } // 67    (alpha)   Vir (Spica)
   { 3.4, 13, 34.7, -0.6  } // 79    (zeta)    Vir
   { 4.3, 13, 51.8,-32.99 } //  3              Cen 
multiple
   { 4.2, 14,  1.6,  1.54 } // 93    (tau)     Vir
   { 3.3, 14,  6.4,-26.68 } // 49    (pi)      Hya
   { 3.9, 14, 43.1, -5.66 } //107    (my)      Vir
   { 5,   14, 46,  -25.44 } // 54              Hya 
multiple
   { 5.3, 14, 49.3,-14.15 } //  7    (my)      Lib 
multiple
   { 2.6, 14, 50.9,-16.04 } //  9,8  (alpha)   Lib (Zubenelgenubi) 
multiple
   { 5.4, 15,  1,   -8.52 } // 19    (delta)   Lib 
fluctuating
   { 3.3, 15,  4.1,-25.28 } // 20    (sigma)   Lib
   { 2.6, 15, 17,   -9.38 } // 27    (beta)    Lib (Zubeneschemali)
   { 3.8, 15, 34.8,-10.54 } // 13    (delta)   Ser 
multiple
   { 3.9, 15, 35.5,-14.79 } // 38    (gamma)   Lib
   { 3.6, 15, 37,  -28.13 } // 39    (upsilon) Lib
   { 3.7, 15, 38.7,-29.78 } // 40    (tau)     Lib
   { 2.6, 15, 44.3,  6.43 } // 24    (alpha)   Ser (Unukalhai)
   { 3.7, 15, 46.2, 15.42 } // 28    (beta)    Ser
   { 4.1, 15, 48.7, 18.14 } // 35    (kappa)   Ser
   { 3.5, 15, 49.6, -3.43 } // 32    (my)      Ser
   { 9.5, 15, 50.7, 15.13 } //  R              Ser 
fluctuating
   { 3.7, 15, 50.8,  4.48 } // 37    (epsilon) Ser
   { 4,   15, 51,  -33.63 } //  5    (chi)     Lup
   { 3.9, 15, 56.5, 15.66 } // 41    (gamma)   Ser
   { 4.6, 15, 56.9,-33.97 } //       (xi)      Lup 
multiple
   { 4.1, 16,  4.4,-11.37 } //       (xi)      Sco 
multiple
   { 2.7, 16, 14.3, -3.69 } //  1    (delta)   Oph (Yed Prior)
   { 3.2, 16, 18.3, -4.69 } //  2    (epsilon) Oph (Yed Posterior)
   { 4.45,16, 27,  -18.46 } //  7    (chi)     Oph 
fluctuating
   { 3.8, 16, 30.9,  1.98 } // 10    (lambda)  Oph (Marfik) 
multiple
   { 2.5, 16, 37.2,-10.57 } // 13    (zeta)    Oph
   { 3.2, 16, 57.7,  9.38 } // 27    (kappa)   Oph
   { 2.4, 17, 10.4,-15.72 } // 35    (eta)     Oph (Sabik)
   { 2.1, 17, 34.9, 12.56 } // 55    (alpha)   Oph (Rasalhague)
   { 3.5, 17, 37.6,-15.4  } // 55    (xi)      Ser
   { 2.8, 17, 43.5,  4.57 } // 60    (beta)    Oph (Cebalrai)
   { 5.6, 17, 44.6,  2.58 } // 61              Oph 
multiple
   { 3.8, 17, 47.9,  2.71 } // 62    (gamma)   Oph
   { 9.5, 17, 57.8,  4.69 } // Pfeilstern          (Barnards Stern)
   { 3.3, 17, 59,   -9.77 } // 64    (ny)      Oph
   { 3.9, 18,  0.6,  2.93 } // 67              Oph 
multiple
   { 4.8, 18,  3.1, -8.18 } // 69    (tau)     Oph 
multiple
   { 4,   18,  5.5,  2.5  } // 70              Oph 
multiple
   { 3.7, 18,  7.4,  9.56 } // 72              Oph 
multiple (perspectivic)
   { 3.9, 15, 56.9,-29.21 } //  5    (rho)     Sco
   { 2.9, 15, 58.9,-26.11 } //  6    (pi)      Sco
   { 2.3, 16,  0.3,-22.62 } //  7    (delta)   Sco
   { 2.4, 16,  5.4,-19.8  } //  8    (beta)    Sco (Acrab) 
multiple
   { 3.9, 16,  6.8,-20.67 } //  9    (omega1)  Sco
   { 3.9, 16, 12,  -19.46 } // 14    (ny)      Sco 
multiple
   { 2.9, 16, 21.2,-25.59 } // 20    (sigma)   Sco
   { 4.4, 16, 25.6,-23.44 } //  5    (rho)     Oph 
multiple
   { 1,   16, 29.4,-26.43 } // 21    (alpha)   Sco (Antares) 
multiple, fluctuating
   { 2.8, 16, 35.9,-28.22 } // 23    (tau)     Sco
   { 2.3, 16, 50.2,-34.29 } // 26    (epsilon) Sco
   { 8,   16, 56.6,-30.58 } // RR              Sco 
fluctuating
   { 4.3, 17, 15.3,-26.6  } // 36              Oph 
multiple
   { 4.9, 17, 18,  -24.29 } // 39    (omikron) Oph 
multiple
   { 3.3, 17, 22,  -25    } // 42    (theta)   Oph
   { 4.7, 16, 18.1, 17.05 } //  7    (kappa)   Her 
multiple
   { 3.7, 16, 21.9, 19.15 } // 20    (gamma)   Her
   { 2.8, 16, 30.2, 21.49 } // 27    (beta)    Her (Ruticulus)
   { 3,   17, 14.6, 14.39 } // 64    (alpha)   Her (Rasalgethi) 
multiple, fluctuating
   { 3.1, 17, 15,   24.84 } // 65    (delta)   Her
   { 3.4, 17, 46.5, 27.72 } // 86    (my)      Her
   { 3.7, 17, 57.8, 29.25 } // 92    (xi)      Her
   { 4.3, 18,  1.5, 21.6  } // 95              Her 
multiple
   { 3.8, 18,  7.5, 28.76 } //103    (omikron) Her
   { 5.1, 18,  7.8, 26.1  } //100              Her 
multiple
   { 3.2, 18, 21.3, -2.9  } // 58    (eta)     Ser
   { 3.8, 18, 23.7, 21.77 } //109              Her
   { 5.2, 18, 27.2,  0.2  } // 59d             Ser 
multiple
   { 3.9, 18, 35.2, -8.24 } //       (alpha)   Sct
   { 5.6, 18, 46.5, -0.96 } //  5              Aql 
multiple
   { 4.2, 18, 47.2, -4.75 } //       (beta)    Sct
   { 5.75,18, 47.5, -5.7  } //  R              Sct
   { 4,   18, 56.2,  4.2  } // 63    (theta)   Ser 
multiple
   { 3,   18,  5.8,-30.42 } // 10    (gamma)   Sgr (Alnasl)
   { 3.8, 18, 13.8,-21.06 } // 13    (my)      Sgr
   { 2.7, 18, 21,  -29.83 } // 19    (delta)   Sgr (Kaus Media)
   { 1.8, 18, 24.2,-34.38 } // 20    (epsilon) Sgr (Kaus Australis)
   { 2.8, 18, 28,  -25.42 } // 22    (lambda)  Sgr (Kaus Borealis)
   { 3.2, 18, 45.7,-26.99 } // 27    (phi)     Sgr
   { 2,   18, 55.3,-26.3  } // 34    (sigma)   Sgr (Nunki)
   { 3.5, 18, 57.5,-21.11 } // 37    (xi2)     Sgr
   { 2.6, 19,  2.6,-29.88 } // 38    (zeta)    Sgr
   { 3.8, 19,  4.7,-21.74 } // 39    (omikron) Sgr
   { 3.3, 19,  6.9,-27.67 } // 40    (tau)     Sgr
   { 2.9, 19,  9.8,-21.02 } // 41    (pi)      Sgr
   { 4,   18, 59.6, 15.07 } // 13    (epsilon) Aql
   { 4,   19,  1.7, -5.74 } // 12              Aql
   { 5.2, 19,  5,   -4.03 } // 15              Aql 
multiple (perspectivic)
   { 3,   19,  5.4, 13.86 } // 17    (zeta)    Aql
   { 3.4, 19,  6.2, -4.88 } // 16    (lambda)  Aql
   { 7.9, 19,  6.4,  8.23 } //  R              Aql 
fluctuating
   { 3.4, 19, 25.5,  3.11 } // 30    (delta)   Aql
   { 4.4, 19, 28.7, 24.66 } //  6    (alpha)   Vul
   { 4.4, 19, 40.1, 18.01 } //  5    (alpha)   Sge
   { 4.4, 19, 41,   17.48 } //  6    (beta)    Sge
   { 2.7, 19, 46.3, 10.61 } // 50    (gamma)   Aql (Tarazed)
   { 3.7, 19, 47.4, 18.53 } //  7    (delta)   Sge
   { 5.7, 19, 48.7, 11.82 } // 52    (pi)      Aql 
multiple
   { 0.8, 19, 50.8,  8.87 } // 53    (alpha)   Aql (Altair)
   { 3.95,19, 52.5,  1.01 } // 55    (eta)     Aql 
fluctuating
   { 5.3, 19, 54.6, -8.23 } // 57              Aql 
multiple
   { 3.7, 19, 55.3,  6.41 } // 60    (beta)    Aql (Alschain)
   { 3.5, 19, 58.8, 19.49 } // 12    (gamma)   Sge
   { 5.2, 20,  2,   24.94 } // 16              Vul 
multiple
   { 5.4, 20,  4.1, 17.08 } // 15              Sge 
multiple (perspectivic)
   { 3.2, 20, 11.3, -0.82 } // 65    (theta)   Aql
   { 4,   20, 33.2, 11.3  } //  2    (epsilon) Del
   { 3.6, 20, 37.5, 14.6  } //  6    (beta)    Del
   { 3.8, 20, 39.6, 15.91 } //  9    (alpha)   Del
   { 4.4, 20, 43.5, 15.07 } // 11    (delta)   Del
   { 3.9, 20, 46.7, 16.12 } // 12    (gamma)   Del 
multiple
   { 3.9, 19, 21.7,-17.85 } // 44    (rho1)    Sgr
   { 4.3, 20, 17.6,-12.51 } //  5    (alpha1)  Cap (Algiedi Secundus)
   { 3.6, 20, 18.1,-12.54 } //  6    (alpha2)  Cap (Algiedi Primus) 
known from "Dune" (Harkonnen system)
   { 3,   20, 21,  -14.78 } //  9    (beta)    Cap 
multiple
   { 4.6, 20, 28.9,-17.82 } // 11    (rho)     Cap 
multiple (perspectivic)
   { 5.5, 20, 29.9,-18.58 } // 12    (omikron) Cap 
multiple
   { 4.1, 20, 46.1,-25.27 } // 16    (psi)     Cap
   { 4.1, 20, 51.8,-26.92 } // 18    (omega)   Cap
   { 4.1, 21,  5.9,-17.23 } // 23    (theta)   Cap
   { 4.3, 21, 22.2,-16.83 } // 32    (iota)    Cap
   { 3.8, 21, 26.7,-22.41 } // 34    (zeta)    Cap
   { 3.7, 21, 40.1,-16.66 } // 40    (gamma)   Cap
   { 2.95,21, 47,  -16.13 } // 49    (delta)   Cap (Deneb Algiedi) 
fluctuating
   { 5.4, 22,  0.8,-28.45 } // 12    (eta)     PsA 
multiple
   { 4.3, 22, 31.5,-32.35 } // 17    (beta)    PsA 
multiple
   { 4.2, 22, 40.7,-27.04 } // 18    (epsilon) PsA
   { 4.5, 22, 52.5,-32.88 } // 22    (gamma)   PsA 
multiple
   { 4.2, 22, 55.9,-32.54 } // 23    (delta)   PsA
   { 1.2, 22, 57.6,-29.62 } // 24    (alpha)   PsA (Fomalhaut)
   { 5.2, 20, 59.1,  4.29 } //  1    (epsilon) Equ 
multiple
   { 4.7, 21, 10.3, 10.13 } //  5    (gamma)   Equ
   { 4.5, 21, 14.5, 10.01 } //  7    (delta)   Equ
   { 3.9, 21, 15.8,  5.25 } //  8    (alpha)   Equ (Kitalphar)
   { 4.1, 21, 22.1, 19.8  } //  1              Peg
   { 2.4, 21, 44.2,  9.88 } //  8    (epsilon) Peg (Enif)
   { 4.1, 21, 44.6, 25.65 } // 10    (kappa)   Peg
   { 3.8, 22,  7,   25.35 } // 24    (iota)    Peg
   { 4.3, 22, 10,   33.18 } // 29    (pi)      Peg (pi2 Pegasi)
   { 3.5, 22, 10.2,  6.2  } // 26    (theta)   Peg (Baham)
   { 5.5, 22, 30,    4.43 } // 37              Peg
   { 3.4, 22, 41.5, 10.83 } // 42    (zeta)    Peg (Homam)
   { 2.9, 22, 43,   30.22 } // 44    (eta)     Peg (Matar)
   { 4,   22, 46.5, 23.57 } // 47    (lambda)  Peg
   { 4.2, 22, 46.7, 12.17 } // 46    (xi)      Peg
   { 3.5, 22, 50,   24.6  } // 48    (my)      Peg (Sadalbari)
   { 2.5, 23,  3.8, 28.08 } // 53    (beta)    Peg (Scheat) 
fluctuating
   { 4.5, 23,  3.9,  3.82 } //  4    (beta)    Psc
   { 2.5, 23,  4.8, 15.21 } // 54    (alpha)   Peg (Markab)
   { 3.7, 23, 17.2,  3.28 } //  6    (gamma)   Psc
   { 4.3, 23, 28,    6.38 } // 10    (theta)   Psc
   { 5,   23, 34,   31.33 } // 72              Peg 
multiple
   { 4.1, 23, 39.9,  5.63 } // 17    (iota)    Psc
   { 4.5, 23, 42,    1.78 } // 18    (lambda)  Psc
   { 5,   23, 46.4,  3.49 } // 19              Psc (TX Piscium) 
fluctuating
   { 4,   23, 59.3,  6.86 } // 28    (omega)   Psc
   { 3.8, 20, 47.7, -9.5  } //  2    (epsilon) Aqr
   { 5.5, 21,  4.1, -5.82 } // 12              Aqr 
multiple
   { 4.5, 21,  9.6,-11.37 } // 13    (ny)      Aqr
   { 2.9, 21, 31.6, -5.57 } // 22    (beta)    Aqr (Sadalsuud)
   { 3,   22,  5.8, -0.32 } // 34    (alpha)   Aqr (Sadalmelik)
   { 5.3, 22, 14.3,-21.07 } // 41              Aqr 
multiple
   { 3.9, 22, 21.7, -1.39 } // 48    (gamma)   Aqr (Sadachbia)
   { 3.7, 22, 28.8, -0.02 } // 55    (zeta)    Aqr 
multiple
   { 4,   22, 35.4, -0.12 } // 62    (eta)     Aqr
   { 4,   22, 49.6,-13.59 } // 71    (tau2)    Aqr
   { 3.7, 22, 52.6, -7.58 } // 73    (lambda)  Aqr
   { 3.3, 22, 54.6,-15.82 } // 76    (delta)   Aqr
   { 3.7, 23,  9.4,-21.17 } // 88              Aqr
   { 5.1, 23, 19.1,-13.46 } // 94              Aqr 
multiple
   { 4,   23, 23,  -20.1  } // 98              Aqr
   { 4.7, 23, 33.3,-20.91 } //101              Aqr 
multiple
   { 4.8, 23, 41.8,-17.81 } //104              Aqr
   { 8,   23, 43.8,-15.28 } //  R              Aqr 
fluctuating
   { 5.3, 23, 46,  -18.68 } //107              Aqr 
multiple
   { 3.9,  0,  9.4,-45.75 } //       (epsilon) Phe
   { 2.8,  0, 25.8,-77.25 } //       (beta)    Hyi
   { 3.9,  0, 26.2,-43.68 } //       (kappa)   Phe
   { 2.4,  0, 26.3,-42.31 } //       (alpha)   Phe (Ankaa)
   { 3.7,  0, 31.6,-62.96 } //       (beta)    Tuc 
multiple
   { 3.3,  1,  6.1,-46.72 } //       (beta)    Phe
   { 3.15, 1,  8.4,-55.25 } //       (zeta)    Phe 
multiple, fluctuating
   { 3.4,  1, 28.4,-43.32 } //       (gamma)   Phe
   { 3.9,  1, 31.3,-49.07 } //       (delta)   Phe
   { 0.5,  1, 37.7,-57.24 } //       (alpha)   Eri (Achernar)
   { 5,    1, 39.8,-56.2  } //  p              Eri 
multiple
   { 3.7,  1, 56,  -51.61 } //       (chi)     Eri
   { 2.9,  1, 58.8,-61.57 } //       (alpha)   Hyi
   { 3.6,  2, 16.5,-51.51 } //       (phi)     Eri
   { 4.1,  2, 40.7,-39.86 } //       (iota)    Eri
   { 8.85, 2, 53.9,-49.89 } //  R              Hor 
fluctuating
   { 2.9,  2, 58.3,-40.3  } //       (theta)   Eri (Acamar) 
multiple
   { 4.3,  3, 48.6,-37.62 } //  f              Eri 
multiple
   { 3.8,  3, 44.2,-64.81 } //       (beta)    Ret
   { 3.3,  3, 47.2,-74.24 } //       (gamma)   Hyi
   { 4.6,  3, 58.7,-61.4  } //       (delta)   Ret
   { 3.9,  4, 14,  -42.29 } //       (alpha)   Hor
   { 3.3,  4, 14.4,-62.47 } //       (alpha)   Ret
   { 4.3,  4, 16,  -51.49 } //       (gamma)   Dor
   { 4.4,  4, 16.5,-59.3  } //       (epsilon) Ret
   { 3.3,  4, 34,  -55.05 } //       (alpha)   Dor
   { 5.2,  4, 50.9,-53.46 } //       (iota)    Pic 
multiple
   { 3.75, 5, 33.6,-62.49 } //       (beta)    Dor 
fluctuating
   { 3.9,  5, 47.3,-51.07 } //       (beta)    Pic
   { 4.5,  5, 49.8,-56.17 } //       (gamma)   Pic
   { 4,    5, 59.1,-42.82 } //       (eta)     Col
   {-0.7,  6, 24,  -52.7  } //       (alpha)   Car (Canopus) 
known from "Dune" (planet Arrakis)
   { 3.2,  6, 37.8,-43.2  } //       (ny)      Pup
   { 3.2,  6, 48.2,-61.94 } //       (alpha)   Pic
   { 2.9,  6, 49.9,-50.61 } //       (tau)     Pup
   { 3.6,  7,  8.7,-70.5  } //       (gamma)   Vol 
multiple
   { 4,    7, 16.8,-67.96 } //       (delta)   Vol
   { 3.9,  7, 41.8,-72.61 } //       (zeta)    Vol
   { 3.5,  7, 56.8,-52.98 } //       (chi)     Car
   { 4.7,  8, 19.9,-71.51 } //       (kappa)   Vol 
multiple
   { 1.9,  8, 22.5,-59.51 } //       (epsilon) Car (Avoir)
   { 3.8,  8, 25.7,-66.14 } //       (beta)    Vol
   { 3.8,  8, 55,  -60.64 } //  c              Car
   { 4,    9,  2.4,-66.4  } //       (alpha)   Vol
   { 4.5,  7, 13.5,-44.64 } //  L2             Pup 
fluctuating
   { 2.7,  7, 17.1,-37.1  } //       (pi)      Pup
   { 4.1,  7, 18.4,-36.74 } //  y    (upsilon) Pup 
multiple
   { 3.3,  7, 29.2,-43.3  } //       (sigma)   Pup
   { 3.6,  7, 45.3,-37.97 } //  c              Pup
   { 3.7,  7, 52.2,-40.58 } //  a              Pup
   { 2.2,  8,  3.6,-40    } //       (zeta)    Pup
   { 1.6,  8,  9.5,-47.34 } //       (gamma)   Pup (Suhail al-Muhlif) 
multiple, fluctuating
   { 3.6,  8, 40.3,-52.92 } //       (omikron) Pup
   { 3.8,  8, 40.6,-46.65 } //  b              Vel
   { 4,    8, 44.4,-42.65 } //  d              Vel 
multiple
   { 1.9,  8, 44.7,-54.71 } //       (delta)   Vel
   { 3.9,  8, 46,  -46.04 } //  a              Vel
   { 3.8,  9,  4.2,-47.1  } //  c              Vel
   { 2.2,  9,  8,  -43.43 } //       (lambda)  Vel (Suhail al-Wazn)
   { 2.5,  9, 22.1,-55.01 } //       (kappa)   Vel
   { 3.6,  9, 30.7,-40.47 } //       (psi)     Vel
   { 3.5,  9, 56.9,-54.57 } //       (phi)     Vel
   { 3.9, 10, 14.7,-42.12 } //  q              Vel
   { 3.8, 10, 37.3,-48.23 } //  p              Vel
   { 4.1, 10, 39.3,-55.6  } //  x              Vel 
multiple
   { 2.7, 10, 46.8,-49.42 } //       (my)      Vel
   { 4.1,  8, 18.5,-76.92 } //       (alpha)   Cha
   { 4.7,  8, 57,  -59.23 } //  b1             Car 
multiple
   { 3.4,  9, 11,  -58.97 } //  a              Car
   { 4,    9, 11.3,-62.32 } //  i              Car
   { 1.7,  9, 13.2,-69.72 } //       (beta)    Car (Miaplacidus)
   { 2.2,  9, 17.1,-59.28 } //       (iota)    Car
   { 3.2,  9, 31.2,-57.03 } //  N              Vel
   { 6.85, 9, 32.2,-62.79 } //  R              Car 
fluctuating
   { 3.7,  9, 45.2,-62.51 } //  l              Car (ZZ Carinae) 
fluctuating
   { 2.9,  9, 47.1,-65.07 } //       (upsilon) Car 
multiple
   { 3.3, 10, 13.7,-70.04 } //       (omega)   Car
   { 3.4, 10, 17.1,-61.33 } //  q              Car
   { 3.9, 10, 24.4,-74.02 } //  I              Car 
multiple (perspectivic)
   { 3.8, 10, 27.9,-58.74 } //  s              Car
   { 3.3, 10, 32,  -61.69 } //  p              Car
   { 4.1, 10, 35.5,-78.61 } //       (gamma)   Cha
   { 2.7, 10, 43,  -64.39 } //       (theta)   Car
   { 4.1, 10, 45.6,-80.52 } //       (delta)   Cha 
multiple
   { 3.7, 10, 53.5,-58.86 } //  u              Car 
multiple (perspectivic)
   { 3.9, 11,  8.6,-58.97 } //  x              Car
   { 4.7, 11, 59.7,-78.22 } //       (epsilon) Cha
   { 3.9, 11, 21,  -54.49 } //       (pi)      Cen
   { 4.4, 11, 31.8,-59.48 } //       (omikron) Cen 
multiple, fluctuating
   { 3.1, 11, 35.8,-63.02 } //       (lambda)  Cen
   { 3.6, 11, 45.6,-66.73 } //       (lambda)  Mus
   { 2.4, 12,  8.3,-50.71 } //       (delta)   Cen 
multiple
   { 4,   12, 11.7,-52.37 } //       (rho)     Cen
   { 2.8, 12, 15.1,-58.75 } //       (delta)   Cru
   { 4.15,12, 17.6,-67.96 } //       (epsilon) Mus 
fluctuating
   { 4.1, 12, 18.4,-64    } //       (zeta)    Cru
   { 3.55,12, 21.4,-60.4  } //       (epsilon) Cru 
fluctuating
   { 0.7, 12, 26.6,-63.1  } //       (alpha)   Cru (Acrux) 
multiple
   { 3.9, 12, 28,  -50.23 } //       (sigma)   Cen
   { 1.6, 12, 31.2,-57.11 } //       (gamma)   Cru (Gacrux) 
multiple (perspectivic)
   { 3.8, 12, 32.5,-72.13 } //       (gamma)   Mus
   { 2.7, 12, 37.2,-69.14 } //       (alpha)   Mus
   { 3.9, 12, 37.7,-48.54 } //       (tau)     Cen
   { 2.2, 12, 41.5,-48.96 } //       (gamma)   Cen
   { 3,   12, 46.3,-68.11 } //       (beta)    Mus 
multiple
   { 1.3, 12, 47.7,-59.69 } //       (beta)    Cru (Mimosa)
   { 3.7, 12, 54.6,-57.18 } //       (my)      Cru 
multiple
   { 3.6, 13,  2.3,-71.55 } //       (delta)   Mus
   { 2.8, 13, 20.6,-36.71 } //       (iota)    Cen
   { 4.3, 13, 22.6,-60.99 } //  J              Cen 
multiple
   { 3.9, 13, 31,  -39.41 } //  d              Cen
   { 2.3, 13, 39.9,-53.47 } //       (epsilon) Cen
   { 5,   13, 41.7,-54.56 } //  Q              Cen 
multiple
   { 3.4, 13, 49.5,-41.69 } //       (ny)      Cen
   { 3.25,13, 49.6,-42.47 } //       (my)      Cen
   { 2.5, 13, 55.5,-47.29 } //       (zeta)    Cen
   { 3.8, 13, 58.3,-42.1  } //       (rho)     Cen
   { 3.9, 13, 58.7,-44.8  } //       (upsilon1)Cen
   { 0.6, 14,  3.8,-60.37 } //       (beta)    Cen (Hadar, Agena)
   { 2.1, 14,  6.7,-36.37 } //  5    (theta)   Cen
   { 7.9, 14, 16.6,-59.91 } //  R              Cen 
fluctuating
   { 2.3, 14, 35.5,-42.16 } //       (eta)     Cen
   {-0.3, 14, 39.6,-60.83 } //       (alpha)   Cen (Rigil Kentaurus) 
multiple
   { 4,   14, 42,  -37.79 } //  b              Cen
   { 3.2, 14, 42.5,-64.98 } //       (alpha)   Cir
   { 3.1, 14, 59.2,-42.1  } //       (kappa)   Cen
   { 4.6, 15, 16.8,-60.94 } //       (delta)   Cir 
multiple
   { 4.1, 15, 17.5,-58.8  } //       (beta)    Cir
   { 4.5, 15, 23.4,-59.32 } //       (gamma)   Cir
   { 3.5, 14, 19.4,-46.06 } //       (iota)    Lup
   { 2.3, 14, 41.9,-47.39 } //       (alpha)   Lup
   { 2.7, 14, 58.5,-43.13 } //       (beta)    Lup
   { 3.9, 15,  5.1,-47.05 } //       (pi)      Lup 
multiple
   { 3.7, 15, 11.9,-48.74 } //       (kappa)   Lup 
multiple
   { 3.4, 15, 12.3,-52.1  } //       (zeta)    Lup 
multiple
   { 4.1, 15, 18.5,-47.88 } //       (my)      Lup 
quadruple
   { 3.2, 15, 21.4,-40.65 } //       (delta)   Lup
   { 3.6, 15, 21.8,-36.26 } //       (rho1)    Lup
   { 3.4, 15, 22.7,-44.69 } //       (epsilon) Lup
   { 2.8, 15, 35.1,-41.17 } //       (gamma)   Lup
   { 4.5, 15, 35.9,-44.96 } //  d              Lup 
multiple
   { 3.4, 16,  0.1,-38.4  } //       (eta)     Lup 
multiple
   { 4,   16, 19.8,-50.16 } //       (gamma2)  Nor
   { 4.4, 16, 27.2,-47.55 } //       (epsilon) Nor 
multiple
   { 3.8, 16, 49.8,-59.04 } //       (eta)     Ara
   { 3.1, 16, 58.6,-55.99 } //       (zeta)    Ara
   { 4.1, 16, 59.6,-53.16 } //       (epsilon1)Ara
   { 2.8, 17, 25.3,-55.53 } //       (beta)    Ara
   { 3.3, 17, 25.4,-56.38 } //       (gamma)   Ara
   { 3.6, 17, 31.1,-60.68 } //       (delta)   Ara
   { 2.9, 17, 31.8,-49.88 } //       (alpha)   Ara
   { 3.7, 18,  6.6,-50.09 } //       (theta)   Ara
   { 3.05,16, 51.9,-38.05 } //       (my1)     Sco 
fluctuating
   { 3.6, 16, 52.3,-38.02 } //       (my2)     Sco
   { 3.6, 16, 54.6,-42.36 } //       (zeta2)   Sco
   { 3.3, 17, 12.2,-43.24 } //       (eta)     Sco
   { 2.7, 17, 30.8,-37.39 } // 34    (upsilon) Sco (Lesath)
   { 1.6, 17, 33.6,-37.1  } // 35    (lambda)  Sco (Shaula)
   { 1.9, 17, 37.3,-43    } //       (theta)   Sco (Sargas)
   { 2.4, 17, 42.5,-39.03 } //       (kappa)   Sco
   { 3,   17, 47.6,-40.13 } //       (iota1)   Sco
   { 3.2, 17, 49.9,-37.04 } //  G              Sco
   { 3.1, 18, 17.6,-36.76 } //       (eta)     Sgr 
multiple
   { 3.5, 18, 27,  -45.97 } //       (alpha)   Tel
   { 4.1, 18, 28.8,-49.07 } //       (zeta)    Tel
   { 5.2, 18, 33.4,-38.72 } //       (kappa)   CrA 
multiple
   { 4.85,18, 58.7,-37.11 } //       (epsilon) CrA 
fluctuating
   { 4.7, 19,  3.1,-42.1  } //       (zeta)    CrA
   { 4.2, 19,  6.4,-37.06 } //       (gamma)   CrA 
multiple
   { 4.6, 19,  8.3,-40.5  } //       (delta)   CrA
   { 4.1, 19,  9.5,-37.9  } //       (alpha)   CrA
   { 4.1, 19, 10,  -39.34 } //       (beta)    CrA
   { 3.9, 19, 22.6,-44.46 } //       (beta1)   Sgr 
multiple
   { 4,   19, 23.9,-40.62 } //       (alpha)   Sgr
   { 4.3, 14, 26.9,-83.67 } //       (delta)   Oct
   { 3.8, 14, 47.9,-79.04 } //       (alpha)   Aps
   { 2.9, 15, 18.9,-68.68 } //       (gamma)   TrA
   { 4.1, 15, 36.7,-66.32 } //       (epsilon) TrA
   { 2.8, 15, 55.1,-63.43 } //       (beta)    TrA
   { 3.9, 16, 15.4,-63.59 } //       (delta)   TrA
   { 4.2, 16, 20.4,-78.69 } //       (delta)   Aps 
multiple
   { 3.9, 16, 33.5,-78.9  } //       (gamma)   Aps
   { 4.2, 16, 43.1,-77.52 } //       (beta)    Aps
   { 1.9, 16, 48.7,-69.03 } //       (alpha)   TrA
   { 3.6, 17, 45.7,-64.72 } //       (eta)     Pav
   { 4,   18, 43,  -71.43 } //       (zeta)    Pav
   { 4.2, 18, 52.2,-62.19 } //       (lambda)  Pav
   { 3.35,18, 56.9,-67.23 } //       (kappa)   Pav 
fluctuating
   { 4,   20,  0.6,-72.91 } //       (epsilon) Pav
   { 3.6, 20,  8.7,-66.18 } //       (delta)   Pav
   { 1.9, 20, 25.6,-56.74 } //       (alpha)   Pav (Peacock)
   { 3.1, 20, 37.6,-47.29 } //       (alpha)   Ind
   { 3.4, 20, 45,  -66.2  } //       (beta)    Pav
   { 3.7, 20, 54.8,-58.45 } //       (beta)    Ind
   { 4.4, 21, 19.9,-53.45 } //       (theta)   Ind 
multiple
   { 3.7, 21, 41.5,-77.39 } //       (ny)      Oct
   { 3,   21, 53.9,-37.37 } //       (gamma)   Gru
   { 1.7, 22,  8.2,-46.96 } //       (alpha)   Gru (Alnair)
   { 2.9, 22, 18.5,-60.26 } //       (alpha)   Tuc
   { 5.2, 22, 23,  -45.93 } //       (pi)      Gru 
multiple (perspectivic)
   { 4,   22, 29.3,-43.5  } //       (delta1)  Gru
   { 4.1, 22, 29.8,-43.75 } //       (delta2)  Gru
   { 2.1, 22, 42.7,-46.88 } //       (beta)    Gru
   { 4.1, 22, 46.1,-81.38 } //       (beta)    Oct
   { 3.5, 22, 48.6,-51.32 } //       (epsilon) Gru
   { 3.9, 23, 10.4,-45.25 } //       (iota)    Gru
   { 4,   23, 17.4,-58.24 } //       (gamma)   Tuc

}

// #declare minmag=6;                  // magnitude of the faintest 
stars to be visible
// #declare w=800;                    // image width
// #declare an=50;                     // field of view
// #declare m=0.00058/(w/800)/(50/an); // radius of the faintest stars 
adjusted to image width and field of view
// #declare fac=2;                     // logarithmic factor for orders 
of magnitude,
                                     // should be smaller at low 
resolutions to prevent bright stars
                                     // from being unnaturally large 


#macro Stars(minmag, w, an, fac)
   #local stars=union
   {
     #local m=0.00058/(w/800)/(50/an);
     #local a=0;
     #while (a<dimension_size(Cat, 1))
       #local rad=m*pow(fac, (minmag-Cat[a][0])/2);
       #local rec=-Cat[a][1]*15-Cat[a][2]*0.25;
       #local dec=Cat[a][3];
       sphere { <sin(rec*(pi/180))*cos(dec*(pi/180)), sin(dec*(pi/180)), 
cos(rec*(pi/180))*cos(dec*(pi/180))>, rad }
       #declare a=a+1;
     #end
   }
   sky_sphere
   {
     pigment
     {
       object { stars color rgb 0 color rgb 1 }
     }
     rotate y*90
     rotate x*23.4333
   }
#end
// End addition by Yadgar

/*
   Planet isosurface from Jaime Vives Piqueres's moon.

*/


global_settings{
  assumed_gamma 1.0
  max_trace_level 20
}
#default{texture{finish{ambient 0}}}
#include "functions.inc"


#declare Modelling=off;
#declare ShowPlanet=on;
#declare ShowWater=on;
#declare ShowClouds=on;
#declare ShowRings=on;

// Begin addition by Yadgar
Stars(7, 1024, 40, 1.3)
// End addition by Yadgar

// *** PLANET ***

// planet texture
#declare t_planet=
pigment{
           onion    warp { turbulence 0.1 /*lambda 33 */ }
           color_map{
                    [.7 rgb <.3,.2,.05>] // sand
                    [.8 rgb <0,.1,0>]    // green
                    [.99 rgb <.1,.05,.01>]//<.1,.2,.01>]      // green
                    }
                  scale 1/(<1.01,.995,1.01>)
                  }



#declare t_planet=
texture{
  pigment{
           onion    scale <1.01,.995,1.01>
           turbulence .05
           lambda 2.5
           omega 1.2
           pigment_map{
                    [0 rgb 1]
                    [.05  t_planet ]
                    [.95  t_planet ] // sand
                    [1 rgb 1]//<.1,.2,.01>]
                    }
          }

#if(!Modelling)
         normal{granite .001 scale .00001}
#end
finish{specular .1 }
}

#declare Scalar=<4,1,4>;
#declare Rotar=<-15,0,0>;

// Cloud texture
#declare t_clouds=
texture{
          pigment{
                   wrinkles  scale <100,50,100>*22
                   turbulence <1,2,1>
                   lambda 2.5
                   omega 1.3
                   warp { turbulence <10,0,10>*.1
                         //lambda 3
                         omega 1.2
                         }
                   color_map{
                            [0 rgb 1 transmit 1]
                            [.3 rgb 1 transmit .9]
                            [1 rgb 1 transmit 0]
                            }
                   rotate y*15
                   scale<0.021,0.02,0.021>/Scalar
                   rotate -Rotar
                  }
         }

// Cloud texture
#declare t_clouds=
texture{ wrinkles  rotate Rotar
                   scale Scalar
                   //lambda 2.5
                   omega 1.3
                   texture_map{
                            [0 t_clouds ]
                            [.3 pigment {rgb 1 transmit 1}]
                            [.5 t_clouds]
                            [.7 pigment {rgb 1 transmit 1}]
                            [1 t_clouds ]
                            }
                  }
        // }


// Planet
#declare Planet=
union{
         isosurface{  // Copied from Jaime's LightSys Space Demo scene
 
function{(x*x+y*y+z*z-1)+f_granite(x*2,y*2,z*2)*f_agate(x,y,z)*.05}
                  max_gradient 3.8
                  contained_by{sphere{0,1}}
                  texture{t_planet scale .02}
                  scale y*1.002
                  }


        #if(ShowWater)
                sphere{0,1 // water
                       pigment{gradient y scale 2 translate y
                               turbulence .1
                                lambda 7
                              colour_map{
                                       [0 rgbt<1,1,1,0> ]
                                       [.15 rgb <0,.05,.2> transmit
.3*(!Modelling)]
                                       [.9 rgb <0,.05,.2> transmit
.3*(!Modelling)]
                                       [1 rgbt<1,1,1,0> ]
                                       }
                               }
                       finish{specular .2  metallic brilliance 2}
                       #if(!Modelling)
                          interior{fade_distance .003 fade_color rgb
<0,0,.1>}
                       #end
                       scale .996
                       }
        #end
       #if(!Modelling)
               sphere{0,1 // Atmosphere
                       pigment{colour rgbt 1}
                       interior{
                                media {
                                           // (---general values---)
                                           intervals 10           // 
number of intervals used for sampling [10]
                                           samples 1,1            // 
minimum and maximum number of samples taken per interval [1,1]
                                           confidence 0.9         // 
statistic parameter higher->better quality [0.9]
                                           variance 1.0/128       // 
statistic parameter lower->better quality [1.0/128]
                                           ratio 0.9              // 
distribution between lit and unlit areas [0.9]
                                           // (---media types---)
                                           //absorption rgb<.1,.05,0>*.001
// absorbing media, block light of specified color
                                           scattering {2, rgb 10 }
                                           //method 3               // 
adaptive sampling
                                           density {onion
                                                    color_map{
                                                            [.89 rgb .5]
// earth
                                                            [.93 rgb
<0,.5,.6>*.5]//
                                                            [.98 rgb
<0,0,.1>]//
                                                            [1 rgb 0 ]//
                                                            }
                                                   }
                                         }
                                }
                       rotate y*90
                       scale 1.05
                       hollow
                       double_illuminate
                       }
        #end
        #if(ShowClouds)
                union{
                       sphere{0,1.01 texture{t_clouds }}
                       rotate y*45
                       hollow //double_illuminate
                       }
         #end
        }

// placement
union{  #if(ShowRings)
         disc {<0, 0, 0>  y, 1.0, .7        // -O- RINGs -O-
                         pigment{spherical
                                 cubic_wave
                                 colour_map{
                                            [0 rgbft <0,0,0, 1,1>]
                                            [.01 rgbft <.4,.3,.2, 0,.1>]
                                            [.015 rgbft <.3,.3,.3, .1,.7>]
                                            [.03 rgbft <.35,.3,.25, 0,.1>]
                                            [.04 rgbft <.1,.21,.3, .1,.9>]
                                            [.07 rgbft <.3,.21,.1, .2,.5>]
                                            //
                                            [.12 rgbft <.25,.2,.15, 0,.1>]
                                            [.12 rgbft <.25,.2,.15, 0,.1>]
                                            [.18 rgbft <.2,.2,.25, .1,.7>]
                                            [.20 rgbft <.3,.2,.1, 0,.1>]
                                            [.22 rgbft <0,0,0, 1,1>]
                                            }
                                 }
                         normal{granite .001 scale .00001}
                         finish{diffuse 1}
                         scale 2
                         hollow
                         double_illuminate
                         rotate <40,0,30>
                         }
          #end
         object{Planet }
         scale .3
         translate <0,0,0>
         }

light_source{
          0,
          4
          fade_power 2
          translate <2,.1,.5>
          }

camera{
  location <0,.5,0>
  up y
  look_at .5*x //<0,-.3,1> //<0,-.4,1>

}

// End of file

See you on www.khyberspace.de!

Yadgar


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From: Eero Ahonen
Subject: Re: Ping Pong
Date: 22 Mar 2008 08:07:35
Message: <47e50497@news.povray.org>
Nekar Xenos wrote:
> Hear's my suggestion for this ping-pong round.
> 
> 

Damn hard to think of anything on that scene. It feels so ready with so 
low amount of objects. But it's the end of the world as we know it, 
while the nuclear flame is taking the planet and all life down.

-- 
Eero "Aero" Ahonen
    http://www.zbxt.net
       aer### [at] removethiszbxtnetinvalid


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From: alphaQuad
Subject: Re: Ping Pong
Date: 22 Mar 2008 17:50:00
Message: <web.47e58b9d41aa233d1b8ed7370@news.povray.org>
making 3000 star cat with more data but running into typecast issues.

#declare catalog2 = array[1][7] {
{ "5.1","23","2.606","41.757778","A3","107.18092300280163","And 02" }
}
works. typecast (float)string, then ok but I am not finding that.

#declare catalog = array[1][7] {
{ 5.1,23,2.606,41.757778,"A3",107.18092300280163,"And 02" }
}
fails of course.

whats the solution besides 2 arrays, a string and float array?


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