POV-Ray : Newsgroups : povray.binaries.animations : Binary Planet Zoom Server Time
22 Dec 2024 16:19:41 EST (-0500)
  Binary Planet Zoom (Message 1 to 7 of 7)  
From: Nekar Xenos
Subject: Binary Planet Zoom
Date: 30 May 2008 02:13:54
Message: <483f9b22@news.povray.org>
Something strange happens when entering the atmosphere. Any ideas on how to 
fix it?

-- 
-Nekar Xenos-

// begin code:

// Begin addition by Yadgar

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

//yazdegird@gmx.de

// [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 .9 }}
     rotate y*90
     rotate x*23.4333
   }
#end
// End addition by Yadgar

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

*/

// +w2304 +h1024

global_settings{
  //assumed_gamma 1
  max_trace_level 100
  //radiosity{}
}
#default{texture{finish{ambient 0}}}
#include "functions.inc"


#declare ShowMedia=on;
#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 Bue ***

#declare t_planet=
pigment{
           onion    warp { turbulence 0.01 /*lambda 33 */ }
           color_map{
                    [0 rgb .9]
                    [.6 rgb <.02,.01,.2>]
                    [.785 rgb <.6,.5,.4>]
                    [.79 rgb <.3,.2,.1>] // sand
                    [.805 rgb <0,.1,.2>]    // green
                    [.99 rgb <.02,.01,.2>]//<.1,.2,.01>]      // green
                    [1 rgb <.6,.5,.4>]
                    }
                  scale 1/(<1.01,.995,1.01>)
                  }



#declare t_planet= // Bue texture
texture{
  pigment{
           onion    scale <1.01,.995,1.01>
           turbulence .0005
           lambda 2.5
           omega 1.2
           pigment_map{
                    [0 rgb 1]
                    [.05  t_planet ]
                    [.95  t_planet ] // sand
                    [1 rgb 1]//<.1,.2,.01>]
                    }
          }
        normal {agate scale .001}
        }

#declare t_planet_Har=
texture{
pigment{
           onion    warp { turbulence 0.1 /*lambda 33 */ }
           pigment_map{
                    [0 rgb <2,1,0> ]
                    [.05 crackle scale .05 turbulence 0.1 colour_map{[0 rgb 
<1,0,0> ][1 rgb 0]}]//rgb <1,.5,0> ]

                    [1 rgb 0]
                    }
                  //scale 1/(<1.01,.995,1.01>)
               }


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

#declare Scalar=<4,1,4>;
#declare Rotar= <-15,0,0>; //<0,0,0>; //<60,0,16>; //<15,0,0>;//




        // }
#declare d_clouds=
//texture{
          density{
                   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
                         }
                   density_map{
                            [0 rgb 0]
                            [.3 granite scale 1/(<100,50,100>*22) 
density_map{[0 rgb 0][.7 rgb 200]}]
                            [1 rgb 200]
                            }
                   rotate y*15
                   scale<0.021,0.02,0.021>/Scalar
                   rotate -Rotar
                  }
#declare d_clouds2=
//texture{
          density{ wrinkles  rotate Rotar
                   scale Scalar
                   //lambda 2.5
                   omega 1.3
                   density_map{
                            [.1 rgb 0 ]
                            [.6 granite scale 3 density_map{
                                                [.5 rgb 0]
                                                [.7 granite scale .1
                                                density_map{
                                                        [0 rgb 0]
                                                        [.7 granite scale .1 
density_map{[.5 rgb 0][.6 rgb 10][1 rgb 200]}]

                                                        [1 rgb 200]
                                                        }

                                                ]

                                                [.8 rgb 100]
                                                [1 rgb 200]
                                                }
                            ]
                            //[.5 d_clouds]
                            //[.6 granite scale .1 density_map{[.5 rgb 0][.6 
rgb 100]}]

                            //[1 d_clouds]
                            [1 rgb 0]
                            }
                   rotate y*-5
                   scale<0.021,0.02,0.021>/Scalar
                   rotate -Rotar
                  }


#declare d_clouds3=
//texture{
          density{
                   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
                         }
                   density_map{
                            [0 rgb 0]
                            [.3 d_clouds2]
                            [1 rgb 200]
                            }
                   rotate y*15
                   scale<0.021,0.02,0.021>/Scalar
                   rotate -Rotar
                  }

// Cloud texture
#declare t_clouds1=
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
                  }
         }
#declare t_clouds=
texture{ wrinkles  rotate Rotar
                   scale Scalar
                   //lambda 2.5
                   omega 1.3
                   texture_map{
                            [0 t_clouds1 ]
                            [.3 pigment {rgb 1 transmit 1}]
                            [.5 t_clouds1]
                            [.7 pigment {rgb 1 transmit 1}]
                            [1 t_clouds1 ]
                            }
                  }

        // }
#declare t_smog=
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 <.3,.4,.1> transmit .9]
                            [1 rgb .5 transmit 0]
                            }
                   rotate y*15
                   scale<0.021,0.02,0.021>/Scalar
                    rotate -Rotar
                  }
         }
#declare t_smog=
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 ]
                            }
                  }
// Terrain
#declare Terrain=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 3.199
                  contained_by{sphere{0,1}}

                  }


// Planet
#declare PlanetBue=
union{
         isosurface{

        function{(x*x+y*y+z*z-1)
                  +f_granite(x*2,y*2,z*2)*f_agate(x,y,z)*.05
                  +f_agate(x*100,y*100,z*100)*.001
                  -f_granite(x*1000,y*1000,z*1000)*.0001

                  }
                  //max_gradient 3.199
                  accuracy 1/100000
                  contained_by{sphere{0,1}}

                texture{t_planet
                scale .02}
                  scale y*1.002
                  }


        #if(ShowWater)
                sphere{0,1 // water
                  /*isosurface{

                        function{(x*x+y*y+z*z-1) -f_granite(x,y,z)*.001 }
                                  //max_gradient 3.199
                                  accuracy 1/1000000
                                  contained_by{sphere{0,1.1}} */
                       pigment{gradient y scale 2 translate y
                               turbulence .1
                                lambda 7
                              pigment_map{
                                       [0 rgbt<1,1,1,0> ]
                                       [.15 rgbft <0,.05,.2,.5,.5>

                                       ]
                                       [.9 rgbft <0,.05,.2,.5,.5>

                                       ]
                                       [1 rgbt<1,1,1,0> ]
                                       }
                               }
                        normal{granite  scale .0005 phase clock}
                       #if(ShowMedia)
                          finish{//specular .1 metallic .5
                                //reflection{.5,1 fresnel on}
                                specular 1 metallic .8
                                brilliance 4 conserve_energy
                                }

                          interior{ior 1.33 fade_distance .003 fade_color 
rgb <0,0,.1>
                                        }
                       #end
                       scale .996
                       hollow
                       }
        #end
       #if(ShowMedia)

               sphere{0,1 // Atmosphere
                       pigment{colour rgbt 1}
                       interior{ior 1.1
                                media {
                                   method 3
                                   //adaptive sampling
                                   aa_threshold 0.1 aa_level 3
                            samples 10 //6
                            //intervals 1
                            /*jitter .1*/
                            //variance 1.0/500
                            scattering {4, rgb < 0.1, 0.4, 1>*3 extinction 
1}
                                   absorption (1-< 0.1, 0.4, 0.9>)*.5
                                   density {onion
                                            color_map{
                                                    [0 rgb <.001,.01,.1>]
                                                    [.96 rgb 
<.001,.01,.1>*2]
                                                    [.97 rgb 1]  // earth
                                                    //[.98 rgb .5]//
                                                    [.99 rgb .1]//
                                                    [1 rgb 0 ]//
                                                    }
                                           }
                                         }
                                  /*
                                  media {
                   method 3
                   samples 2 intervals 1
                   scattering {4, color rgb < 0.25, 0.6, 0.9>*0.00075 
extinction 1}
                          }*/
                                #if(ShowClouds)
                                    media {
                   method 3 aa_threshold 0.1 aa_level 3
                   samples 10//6
                   //intervals 1
                   /*jitter .1*/
                   scattering {2, color rgb .9 extinction 1}
                   absorption 50
                   density {d_clouds2}
                   density {onion //warp{ turbulence .01 }

                    density_map {
                     [.89  rgb 0]
                     [.979  rgb 0]
                     [.98  rgb 1]
                     [.988  rgb .035]
                     //[.989  rgb .1]
                     //[.99  rgb 0.035]
                     [.99  rgb 0]
                    }

                   }

                   /*
                   }
                   media {
                   method 3 //aa_threshold 0.1 aa_level 3
                   //samples 4
                   intervals 1
                   //jitter .1
                   scattering {2, color rgb .01 extinction 1}
                   //absorption 30
                   density {d_clouds3}
                   density {onion warp{ turbulence .01 }

                    density_map {
                     //[.98  rgb 0]
                     [.9889  rgb 0]
                     [.989  rgb 1]
                     [.99  rgb 0]
                     //[1  rgb 0]
                    }

                   }
                   */
                                #end
                                } }
                       rotate y*0
                       scale 1.03
                       hollow
                       double_illuminate
                       }
        #end
        #if(ShowClouds*!ShowMedia )

        sphere{0,1.01 texture{t_clouds }
                       rotate y*0
                       hollow double_illuminate
                       }
         #end


         sphere{0,1.025 pigment {rgbft<.9,.8,.1,1,.9>}
                       //rotate y*45
                       hollow //double_illuminate
                       }
        }

// Planet
#declare PlanetHar=
union{
         object{Terrain
                texture{t_planet_Har
                scale .02}
                  scale y*1.002
                  }

       #if(ShowMedia)

               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]
                                   scattering {2, rgb 10 }
                                   absorption 10
                                   //method 3               //adaptive 
sampling
                                   density {onion
                                            color_map{
                                                    [.89 rgb .5]  // earth
                                                    [.9 rgb <.15,.2,.05>]//
                                                    [.93 rgb <.1,.05,.02>]//
                                                    [1 rgb 0 ]//
                                                    }
                                           }
                                         }
                                }
                       rotate y*90
                       scale 1.04
                       hollow
                       double_illuminate
                       }
        #end
        #if(ShowClouds)

                       sphere{0,1.01 texture{t_clouds }
                       //rotate y*45
                       hollow
                       double_illuminate
                       }
         #end




        }

union{
// placement  of Planet Bue
union{  #if(ShowRings)
         disc {<0, 0, 0>  y, 1.0, .7        // -O- RINGs -O-
         //torus{8.5,1.5 scale y*.00001
                         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 .7 roughness .9 brilliance .2 }
                         scale 2
                         hollow
                         //double_illuminate
                         //rotate <40,0,30>
                         }
          #end
         object{PlanetBue rotate y*4.9*0}
         scale .3
         //rotate -<40,0,30>
         translate <0,0,0>
         }

// placement  of planet Har
union{  #if(ShowRings)
         disc {<0, 0, 0>  y, 1.0, .7        // -O- RINGs -O-
         //torus{8.5,1.5
                         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 .7 roughness .9 brilliance .2 }
                         scale 2
                         hollow
                         //double_illuminate
                         //rotate <40,0,30>
                         }
          #end
         object{PlanetHar rotate z*0}
         scale .3
         //rotate -<40,0,30>
         translate <0,0,1.19>
         }

//scale (1/.3)*.2 translate <.6,0,-.6>
}
///////////////////////////////////////////////////
// moon

object{Terrain scale .4 rotate <-90,-90,-90> rotate <0,35,0> pigment{rgb .2} 
translate <0,1.5,3>}

/////////////// New Addition by Nekar Xenos //////


isosurface{  // moon

function{(x*x+y*y+z*z-1)+f_granite(x*2,y*2,z*2)*f_agate(x,y,z)*.05 
+f_agate(x*100,y*100,z*100)*.001 -f_agate(x*1000,y*1000,z*1000)*.0001}
                  //max_gradient 3.199
                  accuracy 1/100000
                  contained_by{sphere{0,1}}

                scale .2 rotate <-90,-90,-90> rotate <0,35,0> pigment{rgb 
.2} translate <.48,.1,-.707>}

//


/////////////////////////////////////////////////

/*
light_source{0,4
          //fade_power 2
          translate <2,.1,3>*100
          }*/
light_source {<2,.1,3>*1000000, color <2.1,2,1.9>*2 media_attenuation on}
sphere {<2,.1,3>*100, 7.5
 texture {
  pigment {color <2.1,2,1.9>/2}
  finish {ambient 10 diffuse 0}
 }
 no_shadow
}


///////////////////////////////////////////////////////////////
////////////// Camera ////////////////////////////////////////

#declare Clock=clock/3;


#declare Clock1=clock*(clock<=1);
#declare Clock2=(clock-1)*(clock>1)*(clock<=2);
#declare Clock3=(clock-2)*(clock>2);

//#declare ClockRot=(clock-1)*(clock>1)*(clock<=2)+(clock>2);
#declare ClockRot=(clock-1)*(clock>1);

#if (ClockRot>1)
 #declare ClockRot=1;
#end


#declare ClockCount=int(clock);


#declare CamStart=<.6,.23,-.6>;
#declare CamEnd=<0,.299,0>;
//#declare CamMid1= (CamStart*.1) + (CamEnd*.9);
#declare CamMid1= CamStart;
#declare CamStart=CamStart+<.4,0,-.4>;
#declare CamMid2= (CamEnd*<.99,.99,.8>) + (CamMid1*<.01,.01,.2>);


#declare CamPos = (CamMid1*clock) + ( CamStart*(1-clock));

#if (clock>1)
     #declare CamPos = (CamMid2*Clock2) + ( CamMid1*(1-Clock2));
#end

#if(clock>2)
   #declare CamPos = (CamEnd*Clock3) + ( CamMid2*(1-Clock3)) ;
#end


camera{
          location CamPos // 
(CamEnd*(2-(2/(EndClock+1))))+(CamStart*(1-StartClock))   //-.4 // 
<2,.1,3>/15//<0,0,.3>//<0,0.2989, 0>//<0,.30055,0>//<0,.5,0>    // 
<.5,0,-1.2>
          rotate <16,0,-65>*ClockRot

          sky <1-ClockRot,1,0>
          right x*image_width/image_height
          look_at (<0,.4,1.19>*ClockRot)+(<0,-.2,.5> *(1-Clock)) //0 // 
<2,.1,3>*1000000//<0,1,0>//0//<0,-.3,1> //<0,-.4,1> //

        }


// still cam
/*
camera{
  location <0,.299,0>//<0,.299,0>//<0,0,.3>//<2,.1,3>/15//<0,0.2989, 
0>//<0,.30055,0>//<0,.5,0>    // <.5,0,-1.2>
  rotate <16,0,-65>
  //up y
  sky <0,1,0>
  right x*image_width/image_height
  look_at <0,.4,1.19> // 0//<2,.1,3>*1000000//<0,1,0>//<0,-.3,1> //<0,-.4,1> 
//

}
      */
// End of file


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Attachments:
Download 'Planet Anim 3b.mov' (541 KB)

From: Jan Dvorak
Subject: Re: Binary Planet Zoom
Date: 30 May 2008 07:07:48
Message: <483fe004@news.povray.org>
Nekar Xenos napsal(a):
> Something strange happens when entering the atmosphere. Any ideas on how to 
> fix it?
> 
Try increasing the max_trace_level or the ray dies after 5 surfaces (2 
surfaces for each object).


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From: Nekar Xenos
Subject: Re: Binary Planet Zoom
Date: 30 May 2008 09:34:31
Message: <48400267@news.povray.org>
"Jan Dvorak" <jan### [at] centrumcz> wrote in message 
news:483fe004@news.povray.org...
> Nekar Xenos napsal(a):
>> Something strange happens when entering the atmosphere. Any ideas on how 
>> to fix it?
>>
> Try increasing the max_trace_level or the ray dies after 5 surfaces (2 
> surfaces for each object).

At the moment it is:
max_trace_level 100

How much do you think I must increase it by?


-- 
-Nekar Xenos-


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From: Nekar Xenos
Subject: Re: Binary Planet Zoom
Date: 2 Jun 2008 04:09:47
Message: <4843aacb@news.povray.org>
I see now it was the ior on the atmosphere. It looked ten times worse on the 
3.6 rendering than this beta.

Currently e-rendering without ior. Draming of having a machine that can cope 
with real variable ior....


-- 
-Nekar Xenos-


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From: Jan Dvorak
Subject: Re: Binary Planet Zoom
Date: 2 Jun 2008 05:50:20
Message: <4843c25c@news.povray.org>
Nekar Xenos napsal(a):
> I see now it was the ior on the atmosphere. It looked ten times worse on the 
> 3.6 rendering than this beta.
> 
> Currently e-rendering without ior. Draming of having a machine that can cope 
> with real variable ior....
> 
> 
well, if you want a variable IOR, you'll have to put 100s of objects 
inside of each other, which is already possible and very slow. I've been 
doing a study and 100 spheres over a moderately sized sphere still 
produce visible artifacts.
The best you can do to speed it up is to say: objects 1..n are conturs 
of a varior object so that the raytracer automatically bounds each 
between the two that surround it (up to n times speedup). This is 
currently not possible in Pov-ray but I plan to add it to my raytracer 
API in the future (if I ever release an alpha).

-- 
You know you've been raytracing too long when...
you start thinking up your own "You know you've been raytracing too long 
when..." sigs (I did).
		-Johnny D
Johnny D


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From: Nekar Xenos
Subject: Re: Binary Planet Zoom
Date: 6 Jun 2008 06:14:38
Message: <48490e0e@news.povray.org>
This render took about 2 days on a 1.6 Core 2 Duo on ver26 beta. PC crashed 
before it could be completed. So this is what I have for now. There's still 
1 frame with strange colours and a couple of frames with black near the edge 
of the atmosphere. I'm adding intervals 3 to the clouds - maybe that will 
help.



Looking forward to your raytracer.


-- 
-Nekar Xenos-


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Attachments:
Download 'Planet Anim 4.mov' (500 KB)

From: Chambers
Subject: Re: Binary Planet Zoom
Date: 30 Jun 2008 10:09:21
Message: <4868e911$1@news.povray.org>
Nekar Xenos wrote:
> This render took about 2 days on a 1.6 Core 2 Duo on ver26 beta. PC crashed 
> before it could be completed. So this is what I have for now. There's still 
> 1 frame with strange colours and a couple of frames with black near the edge 
> of the atmosphere. I'm adding intervals 3 to the clouds - maybe that will 
> help.
> 
> 
> 
> Looking forward to your raytracer.
> 
> 

Very cool!  Do you use separate geometry for the planet for the near and 
far shots?  I can't identify it, but something in the planet jumps in 
the middle... that might be the 1 frame you mention above, but it makes 
me think that something is being switched there (like an LOD switch).

...Chambers


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