HowTo:Build a basic scene
Sometimes it's helpful to have a sort of "ruler" to gauge how far things are apart and if you're close to the "floor" and have a checker pattern you can scale the checkers as '10' on a square but if you're up in the air and don't have the floor for a reference you can use an object you build yourself to gauge the distance. Here's how to build a simple ruler:
// ruller.inc as of 07Feb2009 // yeah, I know I've misspelled ruler. It's a way to prevent name collision.
#ifndef( Ruller_Inc_Temp)
#declare Ruller_Inc_Temp = version;
#include "colors.inc" // comment this out when you're through with it
#declare DisplayFont = "arial.ttf"
#declare MyRuller = text {
ttf // font type (only TrueType format for now)
DisplayFont,
"0.....|....20....|......40.....|....60.....|.....80.....|.....100", // the string to create
1, // the extrusion depth
0 // inter-character spacing
//rotate 90*y
scale <5,5,1>
translate <0,2,0>
texture{pigment{Light_Purple}}
}
#end
Your ruler will display aligned along the x-axis and you can rotate / translate it to where you need it.
You can calibrate the ruler by comparing it to the checkered floor and adjust by adding or removing '.'s between the numbers. I use it when I'm building a scene.
Alternately, you might need a quick reference to which axis is where and I've built an axis indicator to use myself. Here it is:
// origin axis display this file is axis.inc as of 07Feb2009
#ifndef( ORIGIN_Inc_Temp)
#declare ORIGIN_Inc_Temp = version;
#include "colors.inc"
#declare DisplayFont = "arial.ttf"
// let's label the origin of the scene with a black sphere
#declare MyOrigin = object {
sphere {
<0, 0, 0> // center of sphere <X Y Z>
1.0 // radius of sphere
texture{
pigment{Black}
}
}
}
//---------------------------------------------
// X-axis pointer:
#declare MyXPointer = union {
cylinder {
0*x, 10*x, 1
open
texture{
pigment{ Red }
}
}
cone {
10*x, 1.0,
11*x, 0.0
texture{pigment{ Red}}
}
text {
ttf // font type (only TrueType format for now)
DisplayFont,
"X", // the string to create
1, // the extrusion depth
0 // inter-character spacing
//rotate 90*y
scale <5,5,1>
translate <11,2,0>
texture{pigment{Red}}
}
}
//------------------------------------------------
// y-axis pointer:
#declare MyYPointer =
union {
cylinder {
0*y, 10*y, 1
open
texture{
pigment{ White }
}
}
cone {
10*y, 1.0,
11*y, 0.0
texture{pigment{ White}}
}
text {
ttf // font type (only TrueType format for now)
DisplayFont,
"Y", // the string to create
1, // the extrusion depth
0 // inter-character spacing
//rotate 90*y
scale <5,5,1>
translate <5,9,5>
texture{pigment{White}}
}
}
//------------------------------------------------
// z-axis pointer:
#declare MyZPointer =
union {
cylinder {
0*z, 10*z, 1
open
texture{
pigment{ Blue }
}
}
cone {
10*z, 1.0,
11*z, 0.0
texture{pigment{ Blue}}
}
text {
ttf // font type (only TrueType format for now)
DisplayFont,
"Z", // the string to create
1, // the extrusion depth
0 // inter-character spacing
//rotate 90*y
scale <5,5,1>
translate <2,5,11>
texture{pigment{Blue}}
}
}
#declare MyAxisDisplay =
union {
object {MyOrigin }
object {MyXPointer}
object {MyYPointer}
object {MyZPointer}
}
#end
You build an axis display by declaring : object { MyAxisDisplay [modifiers go here] }
Also helpful is a blueprint or 3-views to guide your work. You can put an image_map on a simple box to show you where the various components go like this:
object {
box{
<0,0,0>,<1,1,1>
pigment{
image_map{ gif "side view.gif"
}
}
scale<940,300,0.1>
no_shadow
}
}