Added new median calculation. Should fix last issues
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05f0aa5551
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27
h2/mbc.py
27
h2/mbc.py
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@ -6,7 +6,7 @@ from scipy.optimize import linprog
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import scipy
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import random
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from util import Side, Point, gen_point, display, display_line_only, gen_circular_point, gen_weird_point
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from util import Side, Point, gen_point, display, display_line_only, gen_circular_point, gen_weird_point, gen_triangular_point
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def sidedness(slope: float, intersection: float, p3: Point, flipper: callable, eps=0.0000001) -> Side:
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@ -54,13 +54,13 @@ assert solve_1dlp(1, [(-1, 3), (-1, 2)]) == -2
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def new_solve_1dlp(c, constraints, idx):
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c1, c2 = c
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((a1, a2), b) = constraints[idx]
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((a1, a2), b) = constraints[-1]
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q, p = b / a2, a1 /a2
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interval = [-9999999, 9999999]
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for new_idx, ((lel_a1, lel_a2), lel_b) in enumerate(constraints):
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if not new_idx == idx:
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bj, aj = (lel_b - lel_a2 * q), (lel_a1 - lel_a2 * p)
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if aj < 0 and bj / aj > interval[0]:
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interval[0] = bj / aj
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@ -154,7 +154,7 @@ def mbc_ch(points: Set[Point], flipper: callable) -> Set[Point]:
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# Find the point with median x-coordinate, and partition the points on this point
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med_x = find_median(points)
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med_x = statistics.median(p.x for p in points)
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#med_x = statistics.median(p.x for p in points)
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#print(med_x)
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# Find left and right points in regards to median
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@ -190,16 +190,15 @@ def mbc_ch(points: Set[Point], flipper: callable) -> Set[Point]:
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#left_point = min(on)
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#right_point = max(on)
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#dist_to_line = lambda p: abs(intercept + slope * p.x - p.y)/sqrt(1 + slope**2)
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#left_point = min(pl, key = dist_to_line)
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#right_point = min(pr, key=dist_to_line)
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dist_to_line = lambda p: abs(intercept + slope * p.x - p.y)/sqrt(1 + slope**2)
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left_point = min(pl, key = dist_to_line)
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right_point = min(pr, key=dist_to_line)
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#display_line_only(points, slope, intercept, [left_point, right_point])
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left_point = next(p for p in pl if sidedness(slope, intercept, p, flipper) == Side.ON)
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right_point = next(p for p in pr if sidedness(slope, intercept, p, flipper) == Side.ON)
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#left_point = next(p for p in pl if sidedness(slope, intercept, p, flipper) == Side.ON)
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#right_point = next(p for p in pr if sidedness(slope, intercept, p, flipper) == Side.ON)
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@ -226,12 +225,14 @@ def mbc(points: Set[Point]) -> Set[Point]:
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if __name__ == '__main__':
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# points = {gen_circular_point(1, 100, 50) for _ in range(200)}
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points = {gen_weird_point(1, 100) for _ in range(200)}
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random.seed(1337_420)
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points = {gen_point(0, 20) for _ in range(20)}
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#points = {gen_circular_point(1, 100, 50) for _ in range(200)}
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#points = {gen_triangular_point(Point(1,1), Point(51,1), Point(26, 30)) for _ in range(200)}
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#points = {Point(x=-33.11091053638924, y=38.88967778961347), Point(x=61.20269947424177, y=-78.96305419217254), Point(x=99.44053842147957, y=-89.11579172297581), Point(x=-92.40380889537532, y=84.33904351991652), Point(x=-90.63139185545595, y=-91.13793846505985)}
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points = {Point(x=5.2, y=9.7), Point(x=5.3, y=4.9), Point(x=3.3, y=3.6), Point(x=9.2, y=4.8), Point(x=9.7, y=5.7), Point(x=5.6, y=8.7)}
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#points = {Point(x=5.2, y=9.7), Point(x=5.3, y=4.9), Point(x=3.3, y=3.6), Point(x=9.2, y=4.8), Point(x=9.7, y=5.7), Point(x=5.6, y=8.7)}
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upper_hull_points = mbc_ch(points, lambda x: x)
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lower_hull_points = mbc_ch(points, lambda x: -x)
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