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Refactor sierpinski_triangle.py
(#8068)
* updating DIRECTORY.md * Update sierpinski_triangle.py header doc * Remove unused PROGNAME var in sierpinski_triangle.py The PROGNAME var was used to print an image description in the reference code that this implementation was taken from, but it's entirely unused here * Refactor triangle() function to not use list of vertices Since the number of vertices is always fixed at 3, there's no need to pass in the vertices as a list, and it's clearer to give the vertices distinct names rather than index them from the list * Refactor sierpinski_triangle.py to use tuples Tuples make more sense than lists for storing coordinate pairs * Flip if-statement condition in sierpinski_triangle.py to avoid nesting * Add type hints to sierpinski_triangle.py * Add doctests to sierpinski_triangle.py * Fix return types in doctests * Update fractals/sierpinski_triangle.py Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> Co-authored-by: Christian Clauss <cclauss@me.com>
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#!/usr/bin/python
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"""
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Author Anurag Kumar | anuragkumarak95@gmail.com | git/anuragkumarak95
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"""Author Anurag Kumar | anuragkumarak95@gmail.com | git/anuragkumarak95
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Simple example of fractal generation using recursion.
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Simple example of Fractal generation using recursive function.
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What is the Sierpiński Triangle?
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The Sierpiński triangle (sometimes spelled Sierpinski), also called the
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Sierpiński gasket or Sierpiński sieve, is a fractal attractive fixed set with
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the overall shape of an equilateral triangle, subdivided recursively into
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smaller equilateral triangles. Originally constructed as a curve, this is one of
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the basic examples of self-similar sets—that is, it is a mathematically
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generated pattern that is reproducible at any magnification or reduction. It is
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named after the Polish mathematician Wacław Sierpiński, but appeared as a
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decorative pattern many centuries before the work of Sierpiński.
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What is Sierpinski Triangle?
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>>The Sierpinski triangle (also with the original orthography Sierpinski), also called
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the Sierpinski gasket or the Sierpinski Sieve, is a fractal and attractive fixed set
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with the overall shape of an equilateral triangle, subdivided recursively into smaller
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equilateral triangles. Originally constructed as a curve, this is one of the basic
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examples of self-similar sets, i.e., it is a mathematically generated pattern that can
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be reproducible at any magnification or reduction. It is named after the Polish
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mathematician Wacław Sierpinski, but appeared as a decorative pattern many centuries
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prior to the work of Sierpinski.
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Requirements(pip):
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Usage: python sierpinski_triangle.py <int:depth_for_fractal>
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- turtle
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Python:
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- 2.6
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Usage:
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- $python sierpinski_triangle.py <int:depth_for_fractal>
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Credits: This code was written by editing the code from
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https://www.riannetrujillo.com/blog/python-fractal/
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Credits:
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The above description is taken from
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https://en.wikipedia.org/wiki/Sierpi%C5%84ski_triangle
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This code was written by editing the code from
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https://www.riannetrujillo.com/blog/python-fractal/
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"""
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"""
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import sys
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import sys
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import turtle
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import turtle
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PROGNAME = "Sierpinski Triangle"
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points = [[-175, -125], [0, 175], [175, -125]] # size of triangle
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def get_mid(p1: tuple[float, float], p2: tuple[float, float]) -> tuple[float, float]:
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"""
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Find the midpoint of two points
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>>> get_mid((0, 0), (2, 2))
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(1.0, 1.0)
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>>> get_mid((-3, -3), (3, 3))
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(0.0, 0.0)
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>>> get_mid((1, 0), (3, 2))
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(2.0, 1.0)
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>>> get_mid((0, 0), (1, 1))
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(0.5, 0.5)
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>>> get_mid((0, 0), (0, 0))
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(0.0, 0.0)
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"""
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return (p1[0] + p2[0]) / 2, (p1[1] + p2[1]) / 2
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def get_mid(p1, p2):
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def triangle(
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return ((p1[0] + p2[0]) / 2, (p1[1] + p2[1]) / 2) # find midpoint
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vertex1: tuple[float, float],
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vertex2: tuple[float, float],
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vertex3: tuple[float, float],
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def triangle(points, depth):
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depth: int,
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) -> None:
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"""
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Recursively draw the Sierpinski triangle given the vertices of the triangle
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and the recursion depth
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"""
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my_pen.up()
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my_pen.up()
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my_pen.goto(points[0][0], points[0][1])
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my_pen.goto(vertex1[0], vertex1[1])
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my_pen.down()
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my_pen.down()
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my_pen.goto(points[1][0], points[1][1])
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my_pen.goto(vertex2[0], vertex2[1])
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my_pen.goto(points[2][0], points[2][1])
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my_pen.goto(vertex3[0], vertex3[1])
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my_pen.goto(points[0][0], points[0][1])
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my_pen.goto(vertex1[0], vertex1[1])
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if depth > 0:
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if depth == 0:
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triangle(
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return
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[points[0], get_mid(points[0], points[1]), get_mid(points[0], points[2])],
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depth - 1,
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triangle(vertex1, get_mid(vertex1, vertex2), get_mid(vertex1, vertex3), depth - 1)
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)
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triangle(vertex2, get_mid(vertex1, vertex2), get_mid(vertex2, vertex3), depth - 1)
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triangle(
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triangle(vertex3, get_mid(vertex3, vertex2), get_mid(vertex1, vertex3), depth - 1)
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[points[1], get_mid(points[0], points[1]), get_mid(points[1], points[2])],
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depth - 1,
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)
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triangle(
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[points[2], get_mid(points[2], points[1]), get_mid(points[0], points[2])],
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depth - 1,
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)
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if __name__ == "__main__":
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if __name__ == "__main__":
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if len(sys.argv) != 2:
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if len(sys.argv) != 2:
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raise ValueError(
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raise ValueError(
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"right format for using this script: "
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"Correct format for using this script: "
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"$python fractals.py <int:depth_for_fractal>"
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"python fractals.py <int:depth_for_fractal>"
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)
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)
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my_pen = turtle.Turtle()
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my_pen = turtle.Turtle()
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my_pen.ht()
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my_pen.ht()
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my_pen.speed(5)
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my_pen.speed(5)
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my_pen.pencolor("red")
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my_pen.pencolor("red")
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triangle(points, int(sys.argv[1]))
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vertices = [(-175, -125), (0, 175), (175, -125)] # vertices of triangle
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triangle(vertices[0], vertices[1], vertices[2], int(sys.argv[1]))
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