39 lines
1.9 KiB
Python
39 lines
1.9 KiB
Python
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from sympy.core.numbers import Rational
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from sympy.core.singleton import S
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from sympy.geometry import Circle, Line, Point, Polygon, Segment
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from sympy.sets import FiniteSet, Union, Intersection, EmptySet
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def test_booleans():
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""" test basic unions and intersections """
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half = S.Half
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p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
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p5, p6, p7 = map(Point, [(3, 2), (1, -1), (0, 2)])
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l1 = Line(Point(0,0), Point(1,1))
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l2 = Line(Point(half, half), Point(5,5))
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l3 = Line(p2, p3)
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l4 = Line(p3, p4)
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poly1 = Polygon(p1, p2, p3, p4)
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poly2 = Polygon(p5, p6, p7)
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poly3 = Polygon(p1, p2, p5)
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assert Union(l1, l2).equals(l1)
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assert Intersection(l1, l2).equals(l1)
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assert Intersection(l1, l4) == FiniteSet(Point(1,1))
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assert Intersection(Union(l1, l4), l3) == FiniteSet(Point(Rational(-1, 3), Rational(-1, 3)), Point(5, 1))
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assert Intersection(l1, FiniteSet(Point(7,-7))) == EmptySet
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assert Intersection(Circle(Point(0,0), 3), Line(p1,p2)) == FiniteSet(Point(-3,0), Point(3,0))
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assert Intersection(l1, FiniteSet(p1)) == FiniteSet(p1)
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assert Union(l1, FiniteSet(p1)) == l1
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fs = FiniteSet(Point(Rational(1, 3), 1), Point(Rational(2, 3), 0), Point(Rational(9, 5), Rational(1, 5)), Point(Rational(7, 3), 1))
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# test the intersection of polygons
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assert Intersection(poly1, poly2) == fs
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# make sure if we union polygons with subsets, the subsets go away
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assert Union(poly1, poly2, fs) == Union(poly1, poly2)
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# make sure that if we union with a FiniteSet that isn't a subset,
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# that the points in the intersection stop being listed
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assert Union(poly1, FiniteSet(Point(0,0), Point(3,5))) == Union(poly1, FiniteSet(Point(3,5)))
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# intersect two polygons that share an edge
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assert Intersection(poly1, poly3) == Union(FiniteSet(Point(Rational(3, 2), 1), Point(2, 1)), Segment(Point(0, 0), Point(1, 0)))
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