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You want to use the CSG (Constructive Solid Geometry) functions union or
merge, as in:
union { cylinder { <-2,0,0> <0,0,0> 1 }
sphere { <0,0,0> 1 }
cone { <0,0,0> 1 <0,2,0> 2 }
pigment { red 1 }
}
this is, of course, merely an example. You can replace union with merge,
but this example wouldn't show the difference. It is more noticable with
semi transparent color.
Also be sure to check the docs. The first tutorial will take you through
the basics in a very well written manner.
Happy Tracing
Josh English
eng### [at] spiritone com
Fishflake wrote:
> How can u connect a cone,sphere, and cylinder (spelling bad) to where
> they look like the same thing.
> CrazyFish
> --------------------
> opi### [at] flashnet
> cra### [at] junocom
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Josh English wrote:
>
> You want to use the CSG (Constructive Solid Geometry) functions union or
> merge, as in:
>
> union { cylinder { <-2,0,0> <0,0,0> 1 }
> sphere { <0,0,0> 1 }
> cone { <0,0,0> 1 <0,2,0> 2 }
> pigment { red 1 }
> }
>
> this is, of course, merely an example. You can replace union with merge,
> but this example wouldn't show the difference. It is more noticable with
> semi transparent color.
>
> Also be sure to check the docs. The first tutorial will take you through
> the basics in a very well written manner.
>
> Fishflake wrote:
>
> > How can u connect a cone,sphere, and cylinder (spelling bad) to where
> > they look like the same thing.
If you mean that you want the connection to be smooth, it is a bit trickier.
The best bet is a macro. Try this example:
// Begin POV code
// Linkage.pov - demonstrate Linkage macro
#version 3.1;
global_settings { assumed_gamma 1.0 ambient_light <.846, 1.041, 1.041> }
camera { up <0, 1, 0> right <4 / 3, 0, 0>
location <0, 0, -20> look_at <0, 0, 0> }
light_source { <20, 50, -100> color rgb <1.103, .993, .772> }
#include "colors.inc"
sky_sphere { pigment { color rgb <.846, 1.041, 1.041> } }
#macro Linkage(Cyllen, Conemajrad, Conelen, Coneminrad)
#local Conetan = ((Conelen = 0) ? 0 : (Conemajrad - Coneminrad)
/ Conelen);
#local Majoff = Conemajrad * Conetan;
#local Minoff = Coneminrad * Conetan;
#local Cylrad = ((Conetan = 0) ? Conemajrad : sqrt((Conemajrad
* Conemajrad) + (Majoff * Majoff)));
#local Litsphrad = ((Conetan = 0) ? Conemajrad : sqrt((Coneminrad *
Coneminrad) + (Minoff * Minoff)));
#local Len = Cylrad + Cyllen + Majoff + Conelen - Minoff + Litsphrad;
#local Cylbot = Cylrad - Len / 2;
#local Cyltop = Cylbot + Cyllen;
#local Conebot = Cyltop + Majoff;
#local Conetop = Conebot + Conelen;
#local Litsphloc = Conetop - Minoff;
union
{
sphere { <0, Cylbot, 0>, Cylrad }
cylinder { <0, Cylbot, 0>, <0, Cyltop, 0>, Cylrad }
sphere { <0, Cyltop, 0>, Cylrad }
cone { <0, Conebot, 0>, Conemajrad, <0, Conetop, 0>, Coneminrad }
sphere { <0, Litsphloc, 0>, Litsphrad }
}
#end
object
{
Linkage(3, 4, 5, 1)
texture
{
pigment
{
gradient y
color_map
{
[ 0 color Red ]
[ .2 color Yellow ]
[ .4 color Green ]
[ .6 color Cyan ]
[ .8 color Blue ]
[ 1 color Magenta ]
}
scale <1, 15, 1>
translate <0, -7, 0>
}
finish { specular 1 roughness .001 crand .1 }
}
}
// End POV code
If you want to attach a cylinder to the *small* end of the cone, it is a bit
more complicated to do it smoothly. If you need it, let me know and I will try
to cobble something together.
Jerry Anning
cle### [at] dholcom
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