RENDER 3D EXAMPLES

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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", "VivianiCurve",[[30,2,5]], "green",pts,	"normal",pts.rayslookat()  ,pts.length,i=>[0,angles[i],0]	]
	]
)
""

 



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