File:Octeract Petrie polygon.svg
Original file (SVG file, nominally 2,100 × 2,100 pixels, file size: 171 KB)
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Summary
DescriptionOcteract Petrie polygon.svg |
Petrie polygon graph of the 8-dimensional cube, the Hasse diagram of an 8 element set's power set Compare the Petrie polygon graph of the 4-dimensional cube: The colors represent the Walsh equivalence classes of 3-ary Boolean functions. Simpler Python code is shown in this file. It makes use of code created with the Python code below. |
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Source | Own work | ||
Author |
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Other versions |
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Source code
Python and SVG source |
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from sympy import cos, pi
from math import log
from my.own.stuff import number_to_reverse_binary_list, hypercube_edges
import psycopg2
con = psycopg2.connect(host='lukulhuft', database='hupu', user='tupu', password='lupu')
cur = con.cursor()
bg_colors = ['fd0', 'e60000', 'bbb', '666', 'ffb4b4']
angle = pi / 16
a = cos(angle)
b = cos(3*angle)
c = cos(5*angle)
d = cos(7*angle)
directions = [
[-a, d], [-b, c], [-c, b], [-d, a], [d, a], [c, b], [b, c], [a, d]
] # directions of the 8 edges leaving the lowest vertex (as sympy objects)
big_factor = 1000 / (a + b + c + d) # diameter of the whole diagram shall be 2000
tiny_factor = 0.029 # the tiny dots in the vertices must be slightly off center
################################## vertices ##################################
sym_coordinates = [] # sympy objects
svg_coordinates = [] # rounded and converted to strings
svg_vertices = ''
svg_numbers = ''
for i in range(256):
cur.execute("""select wec from boolf3 where numval = %s""" % (i))
bg_color_index = cur.fetchone()[0] + 1 # from the DB comes a value between -1 and 3
bg_color = bg_colors[bg_color_index]
binary_vector = number_to_reverse_binary_list(i, 8)
x_sym = 0
y_sym = 0
for j in range(8):
if binary_vector[j]:
x_sym += directions[j][0]
y_sym += directions[j][1]
x_svg = str(round(big_factor * x_sym, 3))
y_svg = str(round(-big_factor * y_sym + 1000, 3))
sym_coordinates.append({'x': x_sym, 'y': y_sym})
svg_coordinates.append({'x': x_svg, 'y': y_svg})
svg_vertices += '<circle cx="%s" cy="%s" r="14.5" fill="#%s"/>' % (x_svg, y_svg, bg_color)
svg_numbers += '<text x="%s" y="%s">%s</text>' % (x_svg, y_svg, i)
################################## edges ##################################
svg_edges = ''
svg_tiny_dots = ''
edges = hypercube_edges(8)
for edge in edges: # ``edge`` is a pair of integers between 0 and 255
bottom = edge[0]
top = edge[1]
bottom_x_svg = svg_coordinates[bottom]['x']
bottom_y_svg = svg_coordinates[bottom]['y']
top_x_svg = svg_coordinates[top]['x']
top_y_svg = svg_coordinates[top]['y']
svg_edges += '<line x1="%s" y1="%s" x2="%s" y2="%s"/>' % (bottom_x_svg, bottom_y_svg, top_x_svg, top_y_svg)
edge_direction = directions[int(log(bottom ^ top, 2))]
tiny_edge_direction_x = tiny_factor * edge_direction[0]
tiny_edge_direction_y = tiny_factor * edge_direction[1]
bottom_x_sym = sym_coordinates[bottom]['x']
bottom_y_sym = sym_coordinates[bottom]['y']
top_x_sym = sym_coordinates[top]['x']
top_y_sym = sym_coordinates[top]['y']
bottom_tiny_x_sym = bottom_x_sym + tiny_edge_direction_x
bottom_tiny_y_sym = bottom_y_sym + tiny_edge_direction_y
top_tiny_x_sym = top_x_sym - tiny_edge_direction_x
top_tiny_y_sym = top_y_sym - tiny_edge_direction_y
bottom_tiny_x_svg = str(round(big_factor * bottom_tiny_x_sym, 3))
bottom_tiny_y_svg = str(round(-big_factor * bottom_tiny_y_sym + 1000, 3))
top_tiny_x_svg = str(round(big_factor * top_tiny_x_sym, 3))
top_tiny_y_svg = str(round(-big_factor * top_tiny_y_sym + 1000, 3))
svg_tiny_dots += '<circle cx="%s" cy="%s" r="1.8"/><circle cx="%s" cy="%s" r="1.8"/> ' % \
(bottom_tiny_x_svg, bottom_tiny_y_svg, top_tiny_x_svg, top_tiny_y_svg)
################################## file ##################################
svg_string = """<?xml version="1.0" encoding="UTF-8"?>
<svg xmlns="http://www.w3.org/2000/svg" width="2100" height="2100" viewBox="-1050 -1050 2100 2100">
<!-- edges -->
<g style="stroke:#000; stroke-width:1.5; stroke-opacity:0.5;">
%s
</g>
<!-- vertices -->
<g style="stroke:#000; stroke-width:1.5px;">
%s
</g>
<!-- tiny dots -->
%s
<!-- numbers -->
<g style="text-anchor: middle; letter-spacing: -1;" font-size="10px" font-family="sans-serif" transform="translate(0, 3.7)" fill-opacity="0.5">
%s
</g>
</svg>
""" % (svg_edges, svg_vertices, svg_tiny_dots, svg_numbers)
svg_file = open('Octeract Petrie polygon.svg', 'w')
svg_file.write(svg_string)
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Licensing
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License.http://www.gnu.org/copyleft/fdl.htmlGFDLGNU Free Documentation Licensetruetrue |
- You are free:
- to share – to copy, distribute and transmit the work
- to remix – to adapt the work
- Under the following conditions:
- attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 22:21, 22 June 2016 | 2,100 × 2,100 (171 KB) | wikimediacommons>Watchduck | pointlessly tiny change |
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