Difference between revisions of "RENDER 3D EXAMPLES"
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[[More_RENDER_Examples| <<Additional Examples ]] | [[More_RENDER_Examples| <<Additional Examples ]] | ||
− | [[ | + | [[Users/Swapna | << User's Wiki page: Swapna]] |
[[ Z3 | << Z3 home ]] | [[ Z3 | << Z3 home ]] | ||
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ZCubes RENDER 3D feature allows users to make fascinatingly complex drawings and animations by simply using the spreadsheet, array or table features. Various editing options (such as environment, material, camera etc.) allow the user to view the created drawing in different angles and effects. | ZCubes RENDER 3D feature allows users to make fascinatingly complex drawings and animations by simply using the spreadsheet, array or table features. Various editing options (such as environment, material, camera etc.) allow the user to view the created drawing in different angles and effects. | ||
− | |||
+ | ==Dini's surface== | ||
+ | <syntaxhighlight lang="javascript"> | ||
RENDER3D( | RENDER3D( | ||
[ | [ | ||
Line 37: | Line 38: | ||
); | ); | ||
"" | "" | ||
+ | </syntaxhighlight> | ||
[[File: Dinis_surface.png]] | [[File: Dinis_surface.png]] | ||
− | =Cone= | + | ==Cone== |
+ | <syntaxhighlight lang="javascript"> | ||
RENDER3D( | RENDER3D( | ||
[ | [ | ||
− | ["type" | + | ["type","fill","material"], |
− | ["cone", "red"] | + | ["cone", "red","normal"] |
] | ] | ||
) | ) | ||
"" | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: cone_3d.png]] | ||
− | =6-sided-cone= | + | ==6-sided-cone== |
+ | <syntaxhighlight lang="javascript"> | ||
RENDER3D( | RENDER3D( | ||
[ | [ | ||
− | ["type" ,"fill", "size"], | + | ["type" ,"fill", "size","material"], |
− | ["cone", "red",[5,10,6]] | + | ["cone", "red",[5,10,6],"normal"] |
] | ] | ||
); | ); | ||
Line 64: | Line 70: | ||
//radius-5, height-10, sides-6 | //radius-5, height-10, sides-6 | ||
+ | </syntaxhighlight> | ||
+ | [[File: 6-sided-cone.png]] | ||
− | =octahedron= | + | ==octahedron== |
+ | <syntaxhighlight lang="javascript"> | ||
RENDER3D( | RENDER3D( | ||
Line 74: | Line 83: | ||
); | ); | ||
"" | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: octahedron.png]] | ||
− | + | ==Extruder== | |
− | =Extruder= | + | <syntaxhighlight lang="javascript"> |
RENDER3D( | RENDER3D( | ||
Line 90: | Line 101: | ||
); | ); | ||
"" | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: extrude_1.png]] | ||
+ | |||
+ | ==Sheet== | ||
+ | <syntaxhighlight lang="javascript"> | ||
− | |||
RENDER3D( | RENDER3D( | ||
[ | [ | ||
Line 113: | Line 128: | ||
"" | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: sheet_1.png]] | ||
+ | ==Trefoil Knot== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" , "settings" , "size" , "stroke" , "fill", "helper", "material"], | ||
+ | |||
+ | ["knot" ,"trefoil", [30,5,5] , ["yellow","green","red"] , "none" ,false , "normal"] | ||
+ | ] | ||
+ | ); | ||
+ | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: trefoil_knot.png]] | ||
+ | ==Helical cubes== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | pts=HELICALPOINTS(20,10); | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"fill", "size", "coordinates","material","lookat","count"], | ||
+ | ["cube", "random",[[12,5,10]], pts, "phong",pts.rayslookat() ,pts.length ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: helical_cubes.png]] | ||
+ | ==Torus ring== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | pts=HELICALPOINTS(20,25,20,0); | ||
+ | angles=deg360by20; | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"fill", "size", "coordinates","material","lookat","count","rotation"], | ||
+ | ["torus", "random",[[10,5,5]], pts, "phong",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: torus_ring.png]] | ||
+ | ==Heart curve== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | pts=HELICALPOINTS(30,25,30,0); | ||
+ | angles=deg360by30; | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"settings","fill", "size", "coordinates","material","lookat","count","rotation"], | ||
+ | ["knot", "HeartCurve", "random",[[10,10,10]], pts, "phong",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: heart_curve.png]] | ||
+ | ==Helicalpoints and Trefoil Knot== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | pts=HELICALPOINTS(30,25,30,0); | ||
+ | angles=deg360by30; | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"settings","size","stroke", "coordinates","material","lookat","count","rotation"], | ||
+ | ["knot", "trefoil",[[30,5,5]], ["yellow","green","red"], pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | </syntaxhighlight> | ||
+ | [[File: trefoil_knot_1.png]] | ||
+ | ==Helicalpoints and VivianiCurve== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | pts=HELICALPOINTS(30,100); | ||
+ | angles=deg360by10; | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"settings","size","stroke","coordinates","material","lookat","count","rotation"], | ||
+ | ["knot", "VivianiCurve",[[30,2,5]], "green",pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | |||
+ | </syntaxhighlight> | ||
+ | [[File: Helicalpoints_vivianicurve.png]] | ||
+ | |||
+ | ==Helicalpoints and Helixcurve knot== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | pts=HELICALPOINTS(30,100); | ||
+ | angles=deg360by10; | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"settings","size","stroke","coordinates","material","lookat","count","rotation"], | ||
+ | ["knot", "HelixCurve",[[30,2,5]], "green",pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | |||
+ | </syntaxhighlight> | ||
+ | [[File: knot-helixCurve.png]] | ||
+ | |||
+ | ==Helical Points and torus knot== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | |||
+ | pts=HELICALPOINTS(30,25,20,0); | ||
+ | angles=deg360by10; | ||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" ,"settings","fill", "size", "coordinates","material","lookat","count","rotation"], | ||
+ | ["knot","torus", "random",[[50,2,2]], pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ] | ||
+ | ] | ||
+ | ) | ||
+ | "" | ||
+ | |||
+ | </syntaxhighlight> | ||
+ | [[File: knot-torus.png]] | ||
+ | |||
+ | ==Moving Decorated Torus Knot== | ||
+ | <syntaxhighlight lang="javascript"> | ||
+ | |||
+ | RENDER3D( | ||
+ | [ | ||
+ | ["type" , "settings" , "coordinates", "size" , "stroke" , "fill", "helper", "material", "animation" ], | ||
+ | ["knot" , "DecoratedTorusKnot4a" , [10,1,1] ,[10,10,10] , 0x00ff00 , "yellow" ,false , "normal", | ||
+ | [ | ||
+ | ["opm" ,"r" ], | ||
+ | [10 ,10 ] | ||
+ | ] | ||
+ | ] | ||
+ | |||
+ | ] | ||
+ | );"" | ||
+ | </syntaxhighlight> | ||
+ | [[File: knot-decoratedtorus4a.png]] | ||
Line 137: | Line 280: | ||
[[More_RENDER_Examples| <<Additional Examples ]] | [[More_RENDER_Examples| <<Additional Examples ]] | ||
− | [[ | + | [[Users/Swapna| << User's Wiki page: Swapna]] |
[[ Z3 | << Z3 home ]] | [[ Z3 | << Z3 home ]] |
Latest revision as of 10:58, 8 March 2022
ZCubes RENDER 3D Examples
ZCubes RENDER 3D feature allows users to make fascinatingly complex drawings and animations by simply using the spreadsheet, array or table features. Various editing options (such as environment, material, camera etc.) allow the user to view the created drawing in different angles and effects.
Dini's surface
RENDER3D(
[
["type" , "settings" , "coordinates", "size" , "stroke" , "fill", "helper", "material" ],
["parametricgeometry" ,
function mf(u,v,target)
{
var a=1;
var b=0.2;
u=u*4*(Math.PI)
v=v*2;
x = a*COS(u)*SIN(v)
y = a*SIN(u)*SIN(v)
z = MIN(MAX(a*(COS(v)+LN(TAN(1/2*v)))+b*u,-100),100);
target.set(x,y,z);
}
, [1,3,3] ,[5,5,50,50] , 0x00ff00 , "zrange" ,false , "phong"]
]
);
""
Cone
RENDER3D(
[
["type","fill","material"],
["cone", "red","normal"]
]
)
""
6-sided-cone
RENDER3D(
[
["type" ,"fill", "size","material"],
["cone", "red",[5,10,6],"normal"]
]
);
""
//radius-5, height-10, sides-6
octahedron
RENDER3D(
[
["type" ,"fill", "size"],
["octahedron", "red",]
]
);
""
Extruder
RENDER3D(
[
["type" , "settings" , "coordinates", "size" , "stroke" , "fill", "helper", "material","extrude" ],
["extruder" ,[[1,3,3],[2,3,3],[3,2,1]], ,[1,1,1] , 0x00ff00 , "yellow" ,false , "phong",
[
["extrudePath"],
[[[1,2,0],[2,2,2],[3,3,0]]]
]
]
]
);
""
Sheet
RENDER3D(
[
["type" , "settings" , "coordinates", "size" , "stroke" , "fill", "helper", "material" ],
["parametricgeometry" ,
function mf(u,v,target)
{
a=4;
b=1;
var x=cos(v)*((cos(u)/4)+1)
var y=sin(v)*((cos(u)/4)+1)
var z=sin(u)/4
target.set(x,y,z);
}
, [1,3,3] ,[5,5,20,20] , 0x00ff00 , "yellow" ,false , "normal"]
]
);
""
Trefoil Knot
RENDER3D(
[
["type" , "settings" , "size" , "stroke" , "fill", "helper", "material"],
["knot" ,"trefoil", [30,5,5] , ["yellow","green","red"] , "none" ,false , "normal"]
]
);
""
Helical cubes
pts=HELICALPOINTS(20,10);
RENDER3D(
[
["type" ,"fill", "size", "coordinates","material","lookat","count"],
["cube", "random",[[12,5,10]], pts, "phong",pts.rayslookat() ,pts.length ]
]
)
""
Torus ring
pts=HELICALPOINTS(20,25,20,0);
angles=deg360by20;
RENDER3D(
[
["type" ,"fill", "size", "coordinates","material","lookat","count","rotation"],
["torus", "random",[[10,5,5]], pts, "phong",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ]
]
)
""
Heart curve
pts=HELICALPOINTS(30,25,30,0);
angles=deg360by30;
RENDER3D(
[
["type" ,"settings","fill", "size", "coordinates","material","lookat","count","rotation"],
["knot", "HeartCurve", "random",[[10,10,10]], pts, "phong",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ]
]
)
""
Helicalpoints and Trefoil Knot
pts=HELICALPOINTS(30,25,30,0);
angles=deg360by30;
RENDER3D(
[
["type" ,"settings","size","stroke", "coordinates","material","lookat","count","rotation"],
["knot", "trefoil",[[30,5,5]], ["yellow","green","red"], pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ]
]
)
""
Helicalpoints and VivianiCurve
pts=HELICALPOINTS(30,100);
angles=deg360by10;
RENDER3D(
[
["type" ,"settings","size","stroke","coordinates","material","lookat","count","rotation"],
["knot", "VivianiCurve",[[30,2,5]], "green",pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ]
]
)
""
Helicalpoints and Helixcurve knot
pts=HELICALPOINTS(30,100);
angles=deg360by10;
RENDER3D(
[
["type" ,"settings","size","stroke","coordinates","material","lookat","count","rotation"],
["knot", "HelixCurve",[[30,2,5]], "green",pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ]
]
)
""
Helical Points and torus knot
pts=HELICALPOINTS(30,25,20,0);
angles=deg360by10;
RENDER3D(
[
["type" ,"settings","fill", "size", "coordinates","material","lookat","count","rotation"],
["knot","torus", "random",[[50,2,2]], pts, "normal",pts.rayslookat() ,pts.length,i=>[0,angles[i],0] ]
]
)
""
Moving Decorated Torus Knot
RENDER3D(
[
["type" , "settings" , "coordinates", "size" , "stroke" , "fill", "helper", "material", "animation" ],
["knot" , "DecoratedTorusKnot4a" , [10,1,1] ,[10,10,10] , 0x00ff00 , "yellow" ,false , "normal",
[
["opm" ,"r" ],
[10 ,10 ]
]
]
]
);""