Skip to main content

Some useful algorithms in pure Cython - no dependencies

Project description

Some useful algorithms in pure Cython - no dependencies

Tested against Windows 10 / Python 3.11 / Anaconda

pip install cythoncubicspline

Cython and a C compiler must be installed!

from cythoncubicspline import (
    calculate_missing_coords,
    get_rectangle_coordinates_surface,
    get_circle_coordinates_surface,
    get_ellipse_coordinates_surface,
    bresenham_line,
    get_polygon_coordinates_surface,
    convex_hull,
    calculate_missing_coords_and_fill_all_holes,
    get_coords_of_line,
    logsplit,
    logspace,
    linspace,
    get_circle_coordinates,
    groupcoords_asc_desc,
    cubic_interp1d,
    difflist,
)

circle_coords = get_circle_coordinates(x=20, y=20, r=10)
print(f"{circle_coords=}")

rect_coords = get_rectangle_coordinates_surface(10, 10, 5, 5)
print(f"{rect_coords=}")

circle_surface_coords = get_circle_coordinates_surface(
    x_center=20, y_center=20, radius=10
)
print(f"{circle_surface_coords=}")

ellipse_coords = get_ellipse_coordinates_surface(0, 0, 10, 5)
print(f"{ellipse_coords}")

line_coords = bresenham_line(0, 0, 25, 5)
print(f"{line_coords=}")

polygon_coords = get_polygon_coordinates_surface(
    [
        (350, 100),
        (450, 450),
        (150, 400),
        (100, 200),
        (350, 100),
        (200, 300),
        (350, 350),
        (300, 200),
        (200, 300),
    ]
)
print(f"{polygon_coords=}")

print(hull_coords)

    (12, 100),
    (9, 90),
    (10, 80),
    (9, 70),
    (7, 60),
    (5, 50),
    (6, 40),
    (5, 30),
    (4, 20),
    (4, 10),
    (3, 0),
    (3, 10),
    (5, 20),
    (3, 30),
    (7, 40),
    (7, 50),
    (7, 60),
    (9, 70),
    (11, 80),
    (12, 90),
    (11, 100),
    (7, 70),
    (7, 40),
    (4, 10),
]
result_groupcoords = groupcoords_asc_desc(coordlist, xtolerance=-2)
for x in result_groupcoords:
    print(x)
[(0, (12, 100))]
[(1, (9, 90)), (3, (9, 70))]
[(4, (7, 60))]
[(5, (5, 50)), (7, (5, 30))]
[(8, (4, 20)), (10, (3, 0)), (11, (3, 10)), (12, (5, 20))]
[
    (13, (3, 30)),
    (14, (7, 40)),
    (15, (7, 50)),
    (16, (7, 60)),
    (17, (9, 70)),
    (18, (11, 80)),
    (20, (11, 100)),
]
[(21, (7, 70)), (22, (7, 40))]

coords=[
    (160, 218),
    (133, 305),
    (109, 399),
    (128, 502),
    (120, 608),
    (107, 705),
    (106, 806),
    (174, 898),
    (325, 928),
    (399, 881),
    (444, 751),
    (474, 583),
    (479, 453),
    (496, 337),
    (545, 234),
    (670, 177),
    (796, 219),
    (910, 285),
    (951, 363),
    (972, 483),
    (991, 602),
    (1056, 744),
    (1137, 817),
    (1286, 877),
    (1419, 777),
    (1507, 603),
    (1504, 446),
    (1341, 282),
    (1218, 238),
    (1111, 233),
    (1010, 200),
    (888, 172),
    (715, 173),
    (595, 165),
    (487, 167),
    (367, 178),
    (283, 210),
    (216, 269),
    (172, 348),
    (151, 442),
    (171, 543),
    (224, 634),
    (254, 720),
    (323, 772),
    (443, 789),
    (562, 797),
    (680, 802),
    (802, 808),
    (929, 807),
    (1089, 826),
    (1220, 863),
    (1341, 902),
    (1300, 972),
    (1179, 981),
    (1019, 956),
    (845, 927),
    (694, 903),
    (514, 878),
    (361, 845),
    (269, 785),
    (203, 698),
    (170, 606),
    (197, 513),
    (272, 454),
    (366, 398),
    (475, 347),
    (661, 329),
    (863, 359),
    (1010, 358),
    (1211, 351),
    (1350, 308),
    (1449, 259),
    (1447, 178),
    (1302, 120),
    (1197, 114),
    (1062, 122),
    (908, 125),
    (797, 129),
    (699, 137),
]
calcalist = calculate_missing_coords(coordlist=coords, xtolerance=-2)
print(f"{calcalist=}")
calcalist = calculate_missing_coords_and_fill_all_holes(coordlist=coords, xtolerance=-2)
print(f"{calcalist=}")
# import matplotlib.pyplot as plt
# plt.plot(*zip(*calcalist))
# plt.show()

#import matplotlib.pyplot as plt
#plt.plot(*zip(*linecoords))
#plt.show()

    print(l)
[0]
[1, 2]
[3, 4, 5]
[6, 7, 8, 9]
[10, 11, 12, 13, 14]
[15, 16, 17, 18, 19, 20]
[21, 22, 23, 24, 25, 26, 27]
[28, 29, 30, 31, 32, 33, 34, 35]
[36, 37, 38, 39, 40, 41, 42, 43, 44]
[45, 46, 47, 48, 49]
    print(l)
10.0
11.14684748713282
11.46139906526985
11.86222427300331
12.372985808857322
13.023836457655403
13.853199158847453
14.910035303051664
16.25673516559804
17.97280111369074
20.159541025162195
22.946048994588956
26.49682639749191
31.021493221811085
36.787162974681834
44.13421171659021
53.49637214714573
65.4263389959423
80.62839733163142
100.0

for l in linspace(start=10, stop=100, number=7, endpoint=True):
    print(l)
10.0
25.0
40.0
55.0
70.0
85.0
100.0

for q in difflist(list(range(1,20,3))):
    print(q)
3
3
3
3
3
3

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

cythoncubicspline-0.11.tar.gz (15.3 kB view hashes)

Uploaded Source

Built Distribution

cythoncubicspline-0.11-py3-none-any.whl (16.3 kB view hashes)

Uploaded Python 3

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page