To product a video about Space-filling curve, a make a code based on Lindenmayer system, with objective animate with python
It can be used to teach about recursive functions, to product video and teach childrens about the turtle power.
To construct the curve faster, use https://github.com/PrincetonLIPS/numpy-hilbert-curve
Corrigir:
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The 3d curves have a error at constants. At both
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The Gosper_Flowsnake_curve have a little erro that make the iteraction >3 colapse in some lines Plus
- Add proprietis to change colors with make the iteractions
- Add the options which Letter start
How to use
- Install the package
pip install L-SpaceCurves
from L_SpaceCurves import L_SpaceCurves as ls
l = ls.L_SpaceCurves(leng=10, speed=0, iter=2, origin=(0, 0))
# leng is the size of each line to construct the curve
# speed is the speed to contruct the curve. 0 fast, 10 sloow
# iter is the total of iteractions that you wish (more iteractions is more time)
$ origin is a tuple that set the origin of curve ( nor always the center od curve is the center od figure)
- to plot in 2D, only select the start letter. Choose one below
Function | Starts letters | |||
---|---|---|---|---|
sierspinski_curve | S | R | Z | P |
hilbert_curve | C | H | A | B |
peano_curve | P | Q | R | S |
gosper_Flowsnake_curve | G | R | ||
pablo_curve | A | B | C | D |
- to plot in 3D, select the start letter and call the function "plot()"
function | Letters | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
hilbert_3D | A | B | C | D | E | F | G | H | I | J | K | L |
peano_3D | S | P | R | Q |
At 2D, was used the Turtle
2D Curves
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sierspinski_curve
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dragon curve
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Pablo curve, that a create to a friend
At 3d, was used the aplications matplotlib
3D Curves