POV-Ray : Newsgroups : povray.text.scene-files : Cylinder heightfield macro using eval_pigment Server Time
23 Dec 2024 21:58:15 EST (-0500)
  Cylinder heightfield macro using eval_pigment (Message 1 to 4 of 4)  
From: SamuelT
Subject: Cylinder heightfield macro using eval_pigment
Date: 9 Jun 2000 21:18:37
Message: <3941980C.DC99A493@aol.com>
For images of what this macro does, see message 'Cylinder Heightfield
Uploaded' in povray.binaries.images.

This macro has four fields describing the intended result:

Cy_Hf( Cy_Pgmnt, Cy_Rad, Cy_Num, Cy_High )

* Cy_Pgmnt - This is where you tell the macro what pigment you want to
use. You MUST add a color_map to the pigment, or else POV_Ray will throw
an error. See the bug report in povray.unofficial.patches  for details.
* Cy_Rad - This is the radius of the cylinders. Normal values range from
0 (0% of hf segment) to 1 (100% of hf segment).
* Cy_Num - This is how many grid squares x & z you want the heightfield
to have. Cylinders will scale accordingly.
* Cy_High - This is how high the heightfield will be.


The size of the heightfield is 10 units by 10 units. Encase in a union
to change it.

Here's an example of the invoked macro:

Cy_Hf(
 pigment{granite scale 12
  color_map{[0 rgb<0,0,.1>][.25 rgb<0 .35 0>][.5 rgb<1 1 .6>][1 rgb 1]}
 }
 .3, 31, 2
)


//************************Here's the Code

#macro Cy_Hf( Cy_Pgmnt, Cy_Rad, Cy_Num, Cy_High )

 #$ X = 0; #$ Z = 0; #$ Tv = 10/Cy_Num; #$ Hv = Cy_High;
 #$ Tex = pigment{Cy_Pgmnt}

 union{
  #while(Z<10+Tv)
   #while(X<10+Tv)
    #% Cv1 = eval_pigment(Tex , <X,0,Z>); #% Cf1 = vlength(Cv1);
    #% Cv2 = eval_pigment(Tex , <X+Tv,0,Z>); #% Cf2 = vlength(Cv2);
    #% Cv3 = eval_pigment(Tex , <X,0,Z+Tv>); #% Cf3 = vlength(Cv3);
    #if(X<10)
     cylinder{<X,Cf1*Hv,Z>, <X+Tv,Cf2*Hv,Z>, Tv*(Cy_Rad/2)
      pigment{gradient x scale Tv*2 translate x*X-(Tv/2)
       color_map{[.35 rgb Cv1][.65 rgb Cv2]}
      }
      finish{diffuse 1}
     }
    #end
    #if(Z<10)
     cylinder{<X,Cf1*Hv,Z>, <X,Cf3*Hv,Z+Tv>, Tv*(Cy_Rad/2)
      pigment{gradient z scale Tv*2 translate z*Z-(Tv/2)
       color_map{[.35 rgb Cv1][.65 rgb Cv3]}
      }
      finish{diffuse 1}
     }
    #end
    sphere{<X,Cf1*Hv,Z>, Tv*(Cy_Rad/2)
     pigment{rgb Cv1}finish{diffuse 1
    }
    #$ X = X+Tv;
   #end
   #$ X = 0; #$ Z = Z+Tv;
  #end
  translate<-5,0,-5>
 }
#end

//**************************End of the Line, Buddy

--
Samuel Benge

E-Mail: STB### [at] aolcom

Visit my isosurface tutorial at http://members.aol.com/stbenge


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From: Christoph Hormann
Subject: Re: Cylinder heightfield macro using eval_pigment
Date: 10 Jun 2000 04:05:54
Message: <3941F6E2.4FA816F3@gmx.de>
Thanks for sharing this with us.

There is a bracket missing in the sphere's finish statement:

    sphere{<X,Cf1*Hv,Z>, Tv*(Cy_Rad/2)
     pigment{rgb Cv1}finish{diffuse 1
    }                                 ^

don't know how you lost that, but it keeps the code from running.

BTW, how about a possibility to use other forms than cylinders 
(boxes, prisms, ...) :-)

Christoph  

--
Christoph Hormann <chr### [at] gmxde>
Homepage: http://www.schunter.etc.tu-bs.de/~chris/


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From: SamuelT
Subject: Re: Cylinder heightfield macro using eval_pigment
Date: 10 Jun 2000 14:53:35
Message: <39428F50.D38BA3A6@aol.com>
Hmm, darn cut and paste.... you lose stuff going from application to
another sometimes....
I've already modified the code to accept spheres, I'm sure boxes wouls
be very easy. Prisms, I don't know. I suppose I could make a 5 or
6-sided prism with random points, something like <
sin(rand(NewSeed)*360)*Tv, cos(rand(NewSeed)*360)*Tv > for each point,
but I haven't tried it yet to see if it will work.


Christoph Hormann wrote:

> Thanks for sharing this with us.
>
> There is a bracket missing in the sphere's finish statement:
>
>     sphere{<X,Cf1*Hv,Z>, Tv*(Cy_Rad/2)
>      pigment{rgb Cv1}finish{diffuse 1
>     }                                 ^
>
> don't know how you lost that, but it keeps the code from running.
>
> BTW, how about a possibility to use other forms than cylinders
> (boxes, prisms, ...) :-)
>
> Christoph
>
> --
> Christoph Hormann <chr### [at] gmxde>
> Homepage: http://www.schunter.etc.tu-bs.de/~chris/

--
Samuel Benge

E-Mail: STB### [at] aolcom

Visit my isosurface tutorial at http://members.aol.com/stbenge


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From: SamuelT
Subject: Re: Cylinder heightfield macro using eval_pigment
Date: 10 Jun 2000 15:38:34
Message: <394299DF.6F94CB92@aol.com>
Okay, this code places columns with 6 random sides (see image at
povray.binaries.images) :

#macro Cy_Hf( Cy_Pgmnt, Cy_Rad, Cy_Num, Cy_High )

 #$ X = 0; #$ Z = 0; #$ Tv = 10/Cy_Num; #$ Hv = Cy_High; #$ R=seed(58728);
#$ Rv=0;
 #$ Tex = pigment{Cy_Pgmnt}

 union{
  #while(Z<10+Tv)
   #while(X<10+Tv)
    #% Cv = eval_pigment(Tex , <X,0,Z>); #% Cf = vlength(Cv);
    prism{linear_spline 0,Cf 7,
     <sin((pi*2/6*1))*Tv*Cy_Rad,cos(pi*2/6*1)*Tv*Cy_Rad>

<sin((pi*2/6*2+rand(R)*(pi/3)-(pi/6)))*Tv*Cy_Rad,cos(pi*2/6*2+rand(R)*(pi/3)-(pi/6))*Tv*Cy_Rad>


<sin((pi*2/6*3+rand(R)*(pi/3)-(pi/6)))*Tv*Cy_Rad,cos(pi*2/6*3+rand(R)*(pi/3)-(pi/6))*Tv*Cy_Rad>


<sin((pi*2/6*4+rand(R)*(pi/3)-(pi/6)))*Tv*Cy_Rad,cos(pi*2/6*4+rand(R)*(pi/3)-(pi/6))*Tv*Cy_Rad>


<sin((pi*2/6*5+rand(R)*(pi/3)-(pi/6)))*Tv*Cy_Rad,cos(pi*2/6*5+rand(R)*(pi/3)-(pi/6))*Tv*Cy_Rad>


<sin((pi*2/6*6+rand(R)*(pi/3)-(pi/6)))*Tv*Cy_Rad,cos(pi*2/6*6+rand(R)*(pi/3)-(pi/6))*Tv*Cy_Rad>

     <sin((pi*2/6*7))*Tv*Cy_Rad,cos(pi*2/6*1)*Tv*Cy_Rad>
     rotate y*rand(R)*360
     pigment{rgb Cv}
     finish{diffuse 1} translate<X,0,Z>
    }
    #$ X = X+Tv;
   #end
   #$ X = 0; #$ Z = Z+Tv;
  #end
  translate<-5,0,-5>
 }
#end

--
Samuel Benge

E-Mail: STB### [at] aolcom

Visit my isosurface tutorial at http://members.aol.com/stbenge


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