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Summary

Description

Sphère de Riemann, démonstration de la projection

English: rendering of the graph of the Sphere of Rieman
Source Own work. Merci à Friedrich A. Lohmüller pour sa bibliothèque POV.
Author Jean-Christophe BENOIST


//------------------------------------------------------------------------
#version 3.6;
global_settings {  assumed_gamma 1 }
//------------------------------------------------------------------------
#include "colors.inc"
#include "textures.inc"
#include "glass.inc"
#include "metals.inc"
#include "golds.inc"
#include "stones.inc"
#include "woods.inc"
#include "shapes.inc"
#include "shapes2.inc"
#include "functions.inc"
#include "math.inc"          
#include "transforms.inc"
//------------------------------------------------------------------------
#declare Camera_0 = camera {                                 // xy-view
                             angle 20
                             location  <8.0 , 8.0 ,-24.0>
                             right     x*image_width/image_height
                             look_at   <1 , 0 , 0>
                           }

#declare Camera_1 = camera {                                // diagonal view
                             angle 9
                             location  <15.0 ,15 ,-60.0>
                             right     x*image_width/image_height
                             look_at   <1 , 0 , 0>
                           }
#declare Camera_2 = camera {                               // yz-view
                             angle 20          
                             location  <31.0 , 7.0 ,1.0>
                             right     x*image_width/image_height
                             look_at   <0 , 0 , 0>
                           }
#declare Camera_3 = camera { 
                             angle 20
                             location  < 0.0 , 37.5 ,-0.0001>
                             right     x*image_width/image_height
                             look_at   <0 , 0 , 0>
                           }

camera{Camera_0}

//------------------------------------------------------------------------
// sun -------------------------------------------------------------------
light_source{<3000,5500,-1000> color White }
// sky -------------------------------------------------------------------
sky_sphere{ pigment{ gradient <0,1,0>
                     color_map{ [0   color rgb<1,1,1>         ]//White
                                [0.4 color rgb<1,1,1>]  //~Navy
                                [0.6 color rgb<1,1,1>]  //<0.14,0.14,0.56>]//~Navy
                                [1.0 color rgb<1,1,1>         ]//White
                              }
                     scale 2 }
           } // end of sky_sphere 
//------------------------------------------------------------------------
                                                                    
                                                                    
                                                                    
                                                                    
                                                                    
                                                                    
//------------------------------ the Axes --------------------------------
//------------------------------------------------------------------------
#macro Axis_( AxisLen, Dark_Texture,Light_Texture) 
 union{
    cylinder { <0,-AxisLen-3,0>,<0,AxisLen,0>,0.017
               texture{checker texture{Dark_Texture } 
                               texture{Light_Texture}
                       translate<0.1,0,0.1>}
             }
    cone{<0,AxisLen,0>,0.1,<0,AxisLen+0.3,0>,0
          texture{Dark_Texture}
         }
     } // end of union                   
#end // of macro "Axis()"
//------------------------------------------------------------------------
#macro AxisXYZ( AxisLenX, AxisLenY, AxisLenZ, Tex_Dark, Tex_Light)
//--------------------- drawing of 3 Axes --------------------------------
union{
#if (AxisLenX != 0)
 object { Axis_(AxisLenX, Tex_Dark, Tex_Light)   rotate< 0,0,-90>}// x-Axis
 text   { ttf "arial.ttf",  " ",  0.15,  0  texture{Tex_Dark} 
          scale 0.5 translate <AxisLenX+0.05,0.4,-0.10>}
#end // of #if 
#if (AxisLenY != 0)
 object { Axis_(AxisLenY, Tex_Dark, Tex_Light)   rotate< 0,0,  0>}// y-Axis
 text   { ttf "arial.ttf",  "z",  0.15,  0  texture{Tex_Dark}    
           scale 0.5 translate <-0.55,AxisLenY+0.20,-0.10>}
#end // of #if 
#if (AxisLenZ != 0)
 object { Axis_(AxisLenZ, Tex_Dark, Tex_Light)   rotate<90,0,  0>}// z-Axis
 text   { ttf "arial.ttf",  " ",  0.15,  0  texture{Tex_Dark}
               scale 0.5 translate <-0.55,0.1,AxisLenZ+0.10>}
#end // of #if 
} // end of union
#end// of macro "AxisXYZ( ... )"
//------------------------------------------------------------------------

#declare Texture_A_Dark  = texture {
                               pigment{color rgb<0.5,0.5,0.5>}
                               finish {ambient 0.15 diffuse 0.85 phong 1}
                             }
#declare Texture_A_Light = texture { 
                               pigment{color rgb<1,1,1>}
                               finish {ambient 0.15 diffuse 0.85 phong 1}
                             }
                                                                                                              
                                                                    
                                                                    
                                                                    
                                                                    
                                                                    
                                                                    
                                                                                                              
                                                                                                              
object{ AxisXYZ( 25.0, 0, 25.0, Texture_A_Dark, Texture_A_Dark)} // <<<<<<<<<<<<<<<<< adapt the axes here !!!


#declare        TextScale=0.5;

//-------------------------------------------------- end of coordinate axes


// ground -----------------------------------------------------------------
//---------------------------------<<< settings of squered plane dimensions
#declare RasterScale = 2.0/2;
#declare RasterHalfLine  = 0.03/4;  
#declare RasterHalfLineZ = 0.03/2; 
//-------------------------------------------------------------------------
#macro Raster(RScale, HLine) 
       pigment{ gradient x scale RScale
                color_map{[0.000   color rgbt<1,1,1,1>*0.2]
                          [0+HLine color rgbt<1,1,1,1>*0.2]
                          [0+HLine color rgbt<1,1,1,1>]
                          [1-HLine color rgbt<1,1,1,1>]
                          [1-HLine color rgbt<1,1,1,1>*0.2]
                          [1.000   color rgbt<1,1,1,1>*0.2]} }
       finish { ambient 0.15 diffuse 0.85}
 #end// of Raster(RScale, HLine)-macro    
//-------------------------------------------------------------------------
    

plane { <0,1,0>, 0    // plane with layered textures
        texture { pigment{color rgbt<1,1,1,0.7>*1.1}
                  finish {ambient 0.45 diffuse 0.85}}
        texture { Raster(RasterScale,RasterHalfLine ) rotate<0,0,0> }
        texture { Raster(RasterScale,RasterHalfLineZ) rotate<0,90,0>}
        rotate<0,0,0>
        no_shadow
      }
//------------------------------------------------ end of squered plane XZ   



// 
//------------------------------------------------------------------------------------
#include "analytical_g.inc" 





//--------------------------------------------------------------------------
//---------------------------- objects in scene ----------------------------
//--------------------------------------------------------------------------
#default{ finish {ambient 0.15 diffuse 0.85} } // 



//-----------------------------------------------------------------------------------
#declare Rl  = 0.035; // radius of lines  - Radius der Strecken 
#declare Rp  = 0.06; // radius of points - Radius der Punkte 


//------------------------------------------------------------------------------------
// ----------------------------------------------------------------------------------- 

// ----------------------------------------------------------------------------------- 
// ---------------------  Punti e Vettori  - Punkte und Vektoren -  Points and Vectors
//------------------------------------------------------------------------------------

#declare M1 = < 0, 0.0,0.0>;  
#declare R1  = 3;   

#declare M2  = < 0.0,0.0, 0.0>;
#declare Rx  = 3.00;
#declare Ry  = 1.00;
#declare Rz  = 2.00;

#declare P1   = < 3, 0, 0>;
#declare Pi   = < 0, 0, 3>;
#declare PPinf = < 0, 3, 0>;        
#declare PP0   = < 0, -3, 0>;  
#declare P0   = <0,0,0>;

sphere{ P1, Rp  pigment{color YellowGreen}}
text { ttf "arial.ttf", "1",0.1,0 
       scale TextScale rotate<0,0,0> translate P1+<0.2,0.1,-0.2> pigment{ color Red } no_shadow}


sphere{ Pi, Rp  pigment{color YellowGreen}}
text { ttf "arial.ttf", "i",0.1,0 
       scale TextScale rotate<0,0,0> translate Pi+<-0.1,0.1,0.2> pigment{ color Red } no_shadow}
       
       
sphere{ PPinf, Rp  pigment{color YellowGreen}}
text { ttf "Mathematica1.ttf", concat("R(",chr(165),")"),0.1,0 
       scale TextScale rotate<0,0,0> translate PPinf+<-0.1,0.1,0> pigment{ color Red } no_shadow}             
       
       
sphere{ PP0, Rp  pigment{color YellowGreen}}
text { ttf "Mathematica1.ttf", "R(0)",-0.1,0 
       scale TextScale rotate<0,0,0> translate PP0+<-0.1,0.1,0> pigment{ color Red } no_shadow}         
       
sphere{ P0, Rp  pigment{color YellowGreen}}
text { ttf "Mathematica1.ttf", "0",-0.1,0 
       scale TextScale rotate<0,0,0> translate P0+<-0.1,0.1,0> pigment{ color Red } no_shadow}           
 
 
//object{ Show_Yxz( M1, Rl/2) pigment{ color Yellow }}
//object{ Show_Yxz( M2, Rl/2) pigment{ color Yellow }}
//------------------------------------------------------------------------------------
// --------------------------------------------------------------- Zeichnen ---------- 
// ---------------------------------------------------------------- Drawing ---------- 

                               
#declare RSphere=
object {
        sphere{ M1, R1                          pigment{ color Yellow transmit 0.6 } finish {phong 0.3}}
}                               
                               
                               
#declare PPlan1 = <4.5,0,0>;     
               
object{ Vector (PPinf, PPlan1, Rl)
         pigment{color Red}}  

sphere{ PPlan1, Rp  pigment{color Green}}          
object{ Show_Yxz( PPlan1, Rl/2)
        pigment{ color Orange }}
text { ttf "arial.ttf", "A",0.1,0 
       scale TextScale rotate<0,0,0> translate PPlan1+<0.1,0.0,-0.4> pigment{ color Red } no_shadow}        

// point of intersection 
#declare Hit_the_Object =  trace ( RSphere, PPinf, PPlan1 - PPinf );                      

sphere{ Hit_the_Object, Rp  pigment{color Green}}
text { ttf "Mathematica1.ttf", "a=R(A)",0.1,0 
       scale TextScale rotate<0,0,0> translate Hit_the_Object+<0.2,0.0,-0.2> pigment{ color Red } no_shadow}  
                 






#declare PPlan2 = <-1.5,0,0>;     
               


sphere{ PPlan2, Rp  pigment{color Green}}          
object{ Show_Yxz( PPlan2, Rl/2)
        pigment{ color Orange }}
text { ttf "arial.ttf", "B",0.1,0 
       scale TextScale rotate<0,0,0> translate PPlan2+<0.3,0.0,-0.4> pigment{ color Red } no_shadow}        

// point of intersection 
#declare Hit_the_Object =  trace ( RSphere, PPinf, PPlan2 - PPinf );   

object{ Vector (PPinf, Hit_the_Object, Rl)
         pigment{color Red}}                     

sphere{ Hit_the_Object, Rp  pigment{color Green}}
text { ttf "Mathematica1.ttf", "b=R(B)",0.1,0 
       scale TextScale rotate<0,0,0> translate Hit_the_Object+<0.2,0.0,-0.2> pigment{ color Red } no_shadow}  



                 
                 
                 
object {RSphere}

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I, the copyright holder of this work, hereby publish it under the following licenses:
GNU head Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License.
w:en:Creative Commons
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This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
  • share alike – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.
This licensing tag was added to this file as part of the GFDL licensing update.
w:en:Creative Commons
attribution share alike
This file is licensed under the Creative Commons Attribution-Share Alike 2.5 Generic, 2.0 Generic and 1.0 Generic license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
  • share alike – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.
You may select the license of your choice.

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Date/TimeThumbnailDimensionsUserComment
current16:11, 4 June 2007Thumbnail for version as of 16:11, 4 June 20071,280 × 1,024 (215 KB)Jean-Christophe BENOIST== Description == {{Information |Description=Sphère de Riemann, démonstration de la projection |Source=Oeuvre personnelle. Merci à Friedrich A. Lohmüller pour sa bibliothèque POV. |Date= |Author=[[:fr:User:Jean-Christophe BENOIST|Jean-Christophe BENO
15:39, 4 June 2007Thumbnail for version as of 15:39, 4 June 20071,280 × 1,024 (215 KB)Jean-Christophe BENOIST== Description == {{Information |Description=Sphère de Riemann, démonstration de la projection |Source=Oeuvre personnelle. Merci à Friedrich A. Lohmüller pour sa bibliothèque POV. |Date= |Author=[[:fr:User:Jean-Christophe BENOIST|Jean-Christophe BENO
06:08, 4 June 2007Thumbnail for version as of 06:08, 4 June 20071,280 × 1,024 (179 KB)Jean-Christophe BENOIST== Description == {{Information |Description=Sphère de Riemann, démonstration de la projection |Source=Oeuvre personnelle. Merci à Friedrich A. Lohmüller pour sa bibliothèque POV. |Date= |Author=[[:fr:User:Jean-Christophe BENOIST|Jean-Christophe BENO
23:47, 3 June 2007Thumbnail for version as of 23:47, 3 June 20071,280 × 1,024 (175 KB)Jean-Christophe BENOIST== Description == {{Information |Description=Sphère de Riemann, démonstration de la projection |Source=Oeuvre personnelle. Merci à Friedrich A. Lohmüller pour sa bibliothèque POV. |Date= |Author=[[:fr:User:Jean-Christophe BENOIST|Jean-Christophe BENO

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