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import k3d
import k3d.platonic as platonic
import math
import numpy as np

def test(plot):
    colors = [0xff0000, 0x00ff00, 0x0000ff, 0xffff00, 0xff00ff]

    for j in range(5):
        meshes = [
            platonic.Dodecahedron().mesh,
            platonic.Cube().mesh,
            platonic.Icosahedron().mesh,
            platonic.Octahedron().mesh,
            platonic.Tetrahedron().mesh
        ]

        for i, obj in enumerate(meshes):
            rad = math.radians(i / len(meshes) * 360)
            radius = 3.5
            obj.transform.translation = [math.sin(rad) * radius, math.cos(rad) * radius, 2*j]
            obj.color = colors[i]
            plot += obj

    plot.render()
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plot = k3d.plot()
plot.display()
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plot.auto_rendering = True
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test(plot)
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while plot.objects:
    plot -= plot.objects[-1]

plot.render()
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test(plot)
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plot.auto_rendering = False
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while len(plot.objects) > 2:
    plot -= plot.objects[-1]
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plot.render()
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import numpy as np 
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for i in range(10):
    plot += k3d.points(np.random.randn(1,3).astype(np.float32))
    plot.camera = [-0.9639876204909027,
         -23.61169267956684,
         i,
         0,
         0.334220290184021,
         4,
         0.007512009764659415,
         0.3054834418666324,
         0.9521677564665881]
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plot.render()
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