Move vertex-cleanup functions to utils and generalize for non-closed paths
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@ -6,6 +6,7 @@ from numpy import pi
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from . import Shape, normalized_shape_tuple
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from .. import PatternError
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from ..utils import is_scalar, rotation_matrix_2d, vector2
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from ..utils import remove_colinear_vertices, remove_duplicate_vertices
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__author__ = 'Jan Petykiewicz'
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@ -267,8 +268,7 @@ class Polygon(Shape):
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:returns: self
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'''
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duplicates = (self.vertices == numpy.roll(self.vertices, 1, axis=0)).all(axis=1)
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self.vertices = self.vertices[~duplicates]
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self.vertices = remove_duplicate_vertices(self.vertices, closed_path=True)
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return self
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def remove_colinear_vertices(self) -> 'Polygon':
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@ -277,19 +277,5 @@ class Polygon(Shape):
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:returns: self
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'''
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dv0 = numpy.roll(self.vertices, 1, axis=0) - self.vertices
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dv1 = numpy.roll(dv0, -1, axis=0)
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# find cases where at least one coordinate is 0 in successive dv's
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eq = dv1 == dv0
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aa_colinear = numpy.logical_and(eq, dv0 == 0).any(axis=1)
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# find cases where slope is equal
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with numpy.errstate(divide='ignore', invalid='ignore'): # don't care about zeroes
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slope_quotient = (dv0[:, 0] * dv1[:, 1]) / (dv1[:, 0] * dv0[:, 1])
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slopes_equal = numpy.abs(slope_quotient - 1) < 1e-14
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colinear = numpy.logical_or(aa_colinear, slopes_equal)
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self.vertices = self.vertices[~colinear]
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self.vertices = remove_colinear_vertices(self.vertices, closed_path=True)
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return self
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@ -55,3 +55,35 @@ def rotation_matrix_2d(theta: float) -> numpy.ndarray:
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"""
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return numpy.array([[numpy.cos(theta), -numpy.sin(theta)],
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[numpy.sin(theta), +numpy.cos(theta)]])
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def remove_duplicate_vertices(vertices: numpy.ndarray, closed_path: bool = True) -> numpy.ndarray:
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duplicates = (vertices == numpy.roll(vertices, 1, axis=0)).all(axis=1)
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if not closed_path:
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duplicates[0] = False
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return vertices[~duplicates]
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def remove_colinear_vertices(vertices: numpy.ndarray, closed_path: bool = True) -> numpy.ndarray:
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'''
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Given a list of vertices, remove any superflous vertices (i.e.
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those which lie along the line formed by their neighbors)
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:param vertices: Nx2 ndarray of vertices
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:param closed_path: If True, the vertices are assumed to represent an implicitly
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closed path. If False, the path is assumed to be open. Default True.
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:return:
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'''
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# Check for dx0/dy0 == dx1/dy1
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dv = numpy.roll(vertices, 1, axis=0) - vertices #[y0 - yn1, y1-y0, ...]
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dxdy = dv * numpy.roll(dv, 1, axis=0)[:, ::-1] # [[dx1*dy0, dx1*dy0], ...]
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dxdy_diff = numpy.abs(numpy.diff(dxdy, axis=1))[:, 0]
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err_mult = 2 * numpy.abs(dxdy).sum(axis=1) + 1e-40
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slopes_equal = (dxdy_diff / err_mult) < 1e-15
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if not closed_path:
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slopes_equal[[0, -1]] = False
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return vertices[~slopes_equal]
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