Пример #1
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def test_polygon_centroid_1():
    assert polygon_centroid(polygon1) == Point(
        2.5, 2.5), f"Centroid function calculates the centroid not correctly."
Пример #2
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from exercises.Ex_3 import *
from exercises.helper_classes import Point

p1 = Point(0, 0)
p2 = Point(6, 0)
p3 = Point(3, 5)
p4 = Point(3, 1)
p5 = Point(4, 2.5)
p6 = Point(2, 2.5)
arrayOfPoints = [p4, p5, p6]
bbTriangle = Polygon(arrayOfPoints=[p1, p2, p3, p1])


# test delaunay triangulation
def test_delaunay_triangulation_1():
    assert delaunay_triangulation(arrayOfPoints, bbTriangle) == {
        Polygon(arrayOfPoints=[p1, p6, p3, p1]),
        Polygon(arrayOfPoints=[p6, p5, p3, p6]),
        Polygon(arrayOfPoints=[p5, p2, p3, p5]),
        Polygon(arrayOfPoints=[p4, p2, p5, p4]),
        Polygon(arrayOfPoints=[p1, p2, p4, p1]),
        Polygon(arrayOfPoints=[p1, p4, p6, p1]),
        Polygon(arrayOfPoints=[p6, p4, p5, p6])
    }, f"DT was calculated wrongly"
Пример #3
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from exercises.Ex_2 import *
from exercises.helper_classes import Point, Polygon

p1 = Point(0, 0)
p2 = Point(5, 0)
p3 = Point(5, 5)
p4 = Point(0, 5)
polygon1 = Polygon(arrayOfPoints=[p1, p2, p3, p4, p1])


# Centroid Test.
def test_polygon_centroid_1():
    assert polygon_centroid(polygon1) == Point(
        2.5, 2.5), f"Centroid function calculates the centroid not correctly."
Пример #4
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from exercises.Sheet_1 import *
from exercises.helper_classes import Point, Polygon

p1 = Point(0, 0)
p2 = Point(5, 0)
p3 = Point(5, 5)
p4 = Point(0, 5)
polygon1 = Polygon(arrayOfPoints=[p1, p2, p3, p4, p1])

p5 = Point(1, 1)
p6 = Point(4, 1)
p7 = Point(4, 4)
p8 = Point(1, 4)
polygon2 = Polygon(arrayOfPoints=[p5, p6, p7, p8, p5])

print(non_overlapping_area(polygon1, polygon2))

h1 = Point(2, 2)
h2 = Point(3, 2)
h3 = Point(3, 3)
h4 = Point(2, 3)
hole_p1 = Hole([h1, h2, h3, h4, h1])
polygon1.holes.append(hole_p1)
polygonh2 = Polygon([h1, h2, h3, h4, h1])

p9 = Point(10, 10)
p10 = Point(10, 15)
p11 = Point(15, 15)
p12 = Point(15, 10)
polygon3 = Polygon([p9, p10, p11, p12, p9])
Пример #5
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from exercises.Sheet_1 import *
from exercises.helper_classes import Point, Polygon

p1 = Point(0, 0)
p2 = Point(5, 0)
p3 = Point(5, 5)
p4 = Point(0, 5)
polygon1 = Polygon(arrayOfPoints=[p1, p2, p3, p4, p1])

p5 = Point(4.5, 4.5)
p6 = Point(5.5, 4.5)
p7 = Point(5.5, 5.5)
p8 = Point(4.5, 5.5)
polygon2 = Polygon(arrayOfPoints=[p5, p6, p7, p8, p5])

p9 = Point(-1, 0)
p10 = Point(0.5, 2.6)
p11 = Point(-1, 5.2)
p12 = Point(-4, 5.2)
p13 = Point(-5.5, 2.6)
p14 = Point(-4, 0)
polygon3 = Polygon([p9, p10, p11, p12, p13, p14, p9])

p15 = Point(0, 0)
p16 = Point(-4, 2)
p17 = Point(-7.73, -0.46)
p18 = Point(-7.46, -4.93)
p19 = Point(-3.46, -6.93)
p20 = Point(0.27, -4.46)
polygon4 = Polygon([p15, p16, p17, p18, p19, p20, p15])
Пример #6
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from exercises.Ex_2 import *
from exercises.helper_classes import Point, Polygon

p1 = Point(0, 0)
p2 = Point(1.05, 0.5)
p3 = Point(1, 1)
p4 = Point(2, 0)
arrayOfPoints = [p1, p2, p3, p4]


# MergeHull test
def test_jarvis_march_1():
    assert jarvis_march(arrayOfPoints) == [
        p1, p4, p3
    ], f"Convex Hull was calculated wrongly"


if __name__ == "__main__":
    test_jarvis_march_1()
Пример #7
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from exercises.Ex_2 import *
from exercises.helper_classes import Point, Polygon

p1 = Point(4, 5)
p2 = Point(7, 3)
p3 = Point(1, 2)
p4 = Point(3, 3)
p5 = Point(5, 0)
p6 = Point(4, 2)
p7 = Point(5, 3)
arrayOfPoints = [p1, p2, p3, p4, p5, p6, p7]


# Spiral polyline computation with Graham’s scan
def test_spiral_1():
    result = spiral(arrayOfPoints)
    assert result == [p3, p5, p2, p1, p4, p6,
                      p7], f"Spiral polyline was calculated wrongly"
Пример #8
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def test_point_intersection_plane_sweep_1():
    intersections_detected = point_intersection_plane_sweep(list_of_lines)
    intersections_detected == [Point(3.00, 2.00)]
    assert is_polygon_convex(
        polygon1), f"Line intersections were detected wrongly."
Пример #9
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from exercises.Ex_3 import *
from exercises.helper_classes import Point, Line

l1 = Line(Point(2, 0), Point(4, 4))
l2 = Line(Point(0, 4), Point(6, 0))
l3 = Line(Point(7, 0), Point(7, 5))
list_of_lines = [l1, l2, l3]


# Test if plane sweep finds all intersections
def test_point_intersection_plane_sweep_1():
    intersections_detected = point_intersection_plane_sweep(list_of_lines)
    intersections_detected == [Point(3.00, 2.00)]
    assert is_polygon_convex(
        polygon1), f"Line intersections were detected wrongly."
Пример #10
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from exercises.Sheet_1 import *
from exercises.helper_classes import Point, Polygon, Line, Polyline

p1 = Point(1, 3)
p2 = Point(5, 3)
p3 = Point(5, 6)
p4 = Point(1, 6)
polygon1 = Polygon(arrayOfPoints=[p1, p2, p3, p4, p1])

p5 = Point(3, 2)
p6 = Point(7, 2)
p7 = Point(7, 4)
p8 = Point(3, 4)
polygon2 = Polygon(arrayOfPoints=[p5, p6, p7, p8, p5])

l1 = Line(Point(4, 5), Point(6, 5))
l2 = Line(Point(6, 5), Point(9, 5))
polyline1 = Polyline([l1, l2])

l3 = Line(Point(3.5, 5), Point(3.5, 3))
l4 = Line(Point(3.5, 3), Point(3.5, 0))
polyline2 = Polyline([l3, l4])


# polyline lies completely inside the polygon
def test_percentage_polylines_in_polygons_50():
    result = percentage_polylines_in_polygons([polyline1, polyline2],
                                              [polygon1, polygon2])
    assert result == [
        polyline2
    ], f"Polyline(s) with less than 50% of their length are selected as to be inside."
Пример #11
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def test_bisector_1():
    bis_calculated = bisector(p1, p2)
    assert bis_calculated == Line(Point(-0.5, 0.5), Point(
        0.5, 0.5)), f"Bisector was calculated wrongly."
Пример #12
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from exercises.Ex_3 import *
from exercises.helper_classes import Point, Line

p1 = Point(0, 0)
p2 = Point(0, 1)


# Test if bisector was calculated correctly
def test_bisector_1():
    bis_calculated = bisector(p1, p2)
    assert bis_calculated == Line(Point(-0.5, 0.5), Point(
        0.5, 0.5)), f"Bisector was calculated wrongly."