fix multiple bugs in arc and ellipse
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113671e591
commit
ff76626e21
@ -38,7 +38,7 @@ class Arc(Shape):
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:return: [rx, ry]
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:return: [rx, ry]
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"""
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"""
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return self.radii
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return self._radii
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@radii.setter
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@radii.setter
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def radii(self, val: vector2):
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def radii(self, val: vector2):
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@ -47,27 +47,27 @@ class Arc(Shape):
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raise PatternError('Radii must have length 2')
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raise PatternError('Radii must have length 2')
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if not val.min() >= 0:
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if not val.min() >= 0:
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raise PatternError('Radii must be non-negative')
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raise PatternError('Radii must be non-negative')
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self.radii = val
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self._radii = val
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@property
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@property
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def radius_x(self) -> float:
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def radius_x(self) -> float:
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return self.radii[0]
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return self._radii[0]
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@radius_x.setter
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@radius_x.setter
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def radius_x(self, val: float):
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def radius_x(self, val: float):
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if not val >= 0:
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if not val >= 0:
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raise PatternError('Radius must be non-negative')
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raise PatternError('Radius must be non-negative')
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self.radii[0] = val
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self._radii[0] = val
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@property
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@property
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def radius_y(self) -> float:
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def radius_y(self) -> float:
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return self.radii[1]
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return self._radii[1]
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@radius_y.setter
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@radius_y.setter
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def radius_y(self, val: float):
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def radius_y(self, val: float):
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if not val >= 0:
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if not val >= 0:
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raise PatternError('Radius must be non-negative')
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raise PatternError('Radius must be non-negative')
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self.radii[1] = val
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self._radii[1] = val
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# arc start/stop angle properties
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# arc start/stop angle properties
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@property
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@property
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@ -85,11 +85,7 @@ class Arc(Shape):
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val = numpy.array(val, dtype=float).flatten()
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val = numpy.array(val, dtype=float).flatten()
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if not val.size == 2:
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if not val.size == 2:
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raise PatternError('Angles must have length 2')
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raise PatternError('Angles must have length 2')
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angles = val % (2 * pi)
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self._angles = val
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if angles[0] > pi:
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self.rotation += pi
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angles -= pi
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self._angles = angles
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@property
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@property
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def start_angle(self) -> float:
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def start_angle(self) -> float:
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@ -97,7 +93,7 @@ class Arc(Shape):
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@start_angle.setter
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@start_angle.setter
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def start_angle(self, val: float):
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def start_angle(self, val: float):
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self.angles[0] = val % (2 * pi)
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self.angles = (val, self.angles[1])
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@property
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@property
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def stop_angle(self) -> float:
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def stop_angle(self) -> float:
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@ -105,7 +101,7 @@ class Arc(Shape):
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@stop_angle.setter
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@stop_angle.setter
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def stop_angle(self, val: float):
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def stop_angle(self, val: float):
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self.angles[1] = val % (2 * pi)
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self.angles = (self.angles[0], val)
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# Rotation property
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# Rotation property
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@property
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@property
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@ -144,6 +140,7 @@ class Arc(Shape):
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def __init__(self,
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def __init__(self,
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radii: vector2,
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radii: vector2,
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angles: vector2,
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angles: vector2,
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width: float,
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rotation: float=0,
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rotation: float=0,
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poly_num_points: int=DEFAULT_POLY_NUM_POINTS,
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poly_num_points: int=DEFAULT_POLY_NUM_POINTS,
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poly_max_arclen: float=None,
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poly_max_arclen: float=None,
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@ -155,6 +152,7 @@ class Arc(Shape):
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self.dose = dose
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self.dose = dose
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self.radii = radii
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self.radii = radii
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self.angles = angles
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self.angles = angles
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self.width = width
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self.rotation = rotation
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self.rotation = rotation
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self.poly_num_points = poly_num_points
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self.poly_num_points = poly_num_points
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self.poly_max_arclen = poly_max_arclen
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self.poly_max_arclen = poly_max_arclen
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@ -169,30 +167,30 @@ class Arc(Shape):
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raise PatternError('Max number of points and arclength left unspecified' +
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raise PatternError('Max number of points and arclength left unspecified' +
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' (default was also overridden)')
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' (default was also overridden)')
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rxy = self.radii
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r0, r1 = self.radii
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ang = self.angles
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a0, a1 = self.angles
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# Approximate perimeter
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# Approximate perimeter
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# Ramanujan, S., "Modular Equations and Approximations to ,"
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# Ramanujan, S., "Modular Equations and Approximations to ,"
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# Quart. J. Pure. Appl. Math., vol. 45 (1913-1914), pp. 350-372
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# Quart. J. Pure. Appl. Math., vol. 45 (1913-1914), pp. 350-372
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h = ((rxy[1] - rxy[0]) / rxy.sum()) ** 2
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h = ((r1 - r0) / (r1 + r0)) ** 2
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ellipse_perimeter = pi * rxy.sum() * (1 + 3 * h / (10 + math.sqrt(4 - 3 * h)))
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ellipse_perimeter = pi * (r1 + r0) * (1 + 3 * h / (10 + math.sqrt(4 - 3 * h)))
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perimeter = abs(ang[0] - ang[1]) / (2 * pi) * ellipse_perimeter
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perimeter = abs(a0 - a1) / (2 * pi) * ellipse_perimeter # TODO: make this more accurate
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n = []
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n = []
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if poly_num_points is not None:
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if poly_num_points is not None:
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n += [poly_num_points]
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n += [poly_num_points]
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if poly_max_arclen is not None:
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if poly_max_arclen is not None:
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n += [perimeter / poly_max_arclen]
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n += [perimeter / poly_max_arclen]
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thetas = numpy.linspace(2 * pi, 0, max(n), endpoint=False)
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thetas = numpy.linspace(a1, a0, max(n), endpoint=True)
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sin_th, cos_th = (numpy.sin(thetas), numpy.cos(thetas))
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sin_th, cos_th = (numpy.sin(thetas), numpy.cos(thetas))
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wh = self.width / 2.0
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wh = self.width / 2.0
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xs1 = (rxy[0] + wh) * cos_th - (rxy[1] + wh) * sin_th
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xs1 = (r0 + wh) * cos_th
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ys1 = (rxy[0] + wh) * cos_th - (rxy[1] + wh) * sin_th
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ys1 = (r1 + wh) * sin_th
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xs2 = (rxy[0] - wh) * cos_th - (rxy[1] - wh) * sin_th
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xs2 = (r0 - wh) * cos_th
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ys2 = (rxy[0] - wh) * cos_th - (rxy[1] - wh) * sin_th
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ys2 = (r1 - wh) * sin_th
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xs = numpy.hstack((xs1, xs2[::-1]))
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xs = numpy.hstack((xs1, xs2[::-1]))
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ys = numpy.hstack((ys1, ys2[::-1]))
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ys = numpy.hstack((ys1, ys2[::-1]))
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@ -266,6 +264,15 @@ class Arc(Shape):
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scale = self.radius_y
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scale = self.radius_y
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rotation = self.rotation + pi / 2
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rotation = self.rotation + pi / 2
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angles = self.angles - pi / 2
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angles = self.angles - pi / 2
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return (type(self), radii, angles, self.layer), \
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if angles[0] >= pi:
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angles -= pi
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rotation += pi
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angles %= 2 * pi
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rotation %= 2 * pi
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width = self.width
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return (type(self), radii, angles, width, self.layer), \
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(self.offset, scale/norm_value, rotation, self.dose), \
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(self.offset, scale/norm_value, rotation, self.dose), \
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lambda: Arc(radii=radii*norm_value, angles=angles, layer=self.layer)
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lambda: Arc(radii=radii*norm_value, angles=angles, width=width, layer=self.layer)
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@ -32,7 +32,7 @@ class Ellipse(Shape):
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:return: [rx, ry]
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:return: [rx, ry]
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"""
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"""
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return self.radii
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return self._radii
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@radii.setter
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@radii.setter
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def radii(self, val: vector2):
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def radii(self, val: vector2):
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@ -41,7 +41,7 @@ class Ellipse(Shape):
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raise PatternError('Radii must have length 2')
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raise PatternError('Radii must have length 2')
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if not val.min() >= 0:
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if not val.min() >= 0:
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raise PatternError('Radii must be non-negative')
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raise PatternError('Radii must be non-negative')
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self.radii = val
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self._radii = val
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@property
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@property
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def radius_x(self) -> float:
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def radius_x(self) -> float:
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@ -109,13 +109,13 @@ class Ellipse(Shape):
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raise PatternError('Number of points and arclength left unspecified'
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raise PatternError('Number of points and arclength left unspecified'
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' (default was also overridden)')
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' (default was also overridden)')
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rxy = self.radii
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r0, r1 = self.radii
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# Approximate perimeter
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# Approximate perimeter
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# Ramanujan, S., "Modular Equations and Approximations to ,"
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# Ramanujan, S., "Modular Equations and Approximations to ,"
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# Quart. J. Pure. Appl. Math., vol. 45 (1913-1914), pp. 350-372
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# Quart. J. Pure. Appl. Math., vol. 45 (1913-1914), pp. 350-372
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h = ((rxy[1] - rxy[0]) / rxy.sum()) ** 2
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h = ((r1 - r0) / (r1 + r0)) ** 2
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perimeter = pi * rxy.sum() * (1 + 3 * h / (10 + math.sqrt(4 - 3 * h)))
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perimeter = pi * (r1 + r0) * (1 + 3 * h / (10 + math.sqrt(4 - 3 * h)))
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n = []
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n = []
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if poly_num_points is not None:
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if poly_num_points is not None:
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@ -125,8 +125,8 @@ class Ellipse(Shape):
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thetas = numpy.linspace(2 * pi, 0, max(n), endpoint=False)
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thetas = numpy.linspace(2 * pi, 0, max(n), endpoint=False)
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sin_th, cos_th = (numpy.sin(thetas), numpy.cos(thetas))
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sin_th, cos_th = (numpy.sin(thetas), numpy.cos(thetas))
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xs = rxy[0] * cos_th - rxy[1] * sin_th
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xs = r0 * cos_th
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ys = rxy[0] * sin_th - rxy[1] * cos_th
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ys = r1 * sin_th
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xys = numpy.vstack((xs, ys)).T
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xys = numpy.vstack((xs, ys)).T
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poly = Polygon(xys, dose=self.dose, layer=self.layer, offset=self.offset)
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poly = Polygon(xys, dose=self.dose, layer=self.layer, offset=self.offset)
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