remove per-shape polygonization state
This commit is contained in:
parent
7befe89af3
commit
9d42df831e
@ -9,7 +9,7 @@ from numpy.typing import ArrayLike
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from ..pattern import Pattern, NamedPattern
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from ..pattern import Pattern, NamedPattern
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from ..ref import Ref
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from ..ref import Ref
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from ..library import MutableLibrary
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from ..library import MutableLibrary, Tree
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from ..error import PortError, BuildError
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from ..error import PortError, BuildError
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from ..ports import PortList, Port
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from ..ports import PortList, Port
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from ..abstract import Abstract
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from ..abstract import Abstract
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@ -492,7 +492,6 @@ class Builder(PortList):
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return s
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return s
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class Pather(Builder):
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class Pather(Builder):
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"""
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"""
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TODO DOCUMENT Builder
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TODO DOCUMENT Builder
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@ -657,7 +656,8 @@ class Pather(Builder):
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if tools is None and hasattr(source, 'tools') and isinstance(source.tools, dict):
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if tools is None and hasattr(source, 'tools') and isinstance(source.tools, dict):
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tools = source.tools
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tools = source.tools
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new = Pather.from_builder(Builder.interface(
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new = Pather.from_builder(
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Builder.interface(
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source=source,
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source=source,
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library=library,
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library=library,
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in_prefix=in_prefix,
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in_prefix=in_prefix,
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@ -214,18 +214,18 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
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def polygonize(
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def polygonize(
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self: P,
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self: P,
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poly_num_points: Optional[int] = None,
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num_points: Optional[int] = None,
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poly_max_arclen: Optional[float] = None,
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max_arclen: Optional[float] = None,
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) -> P:
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) -> P:
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"""
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"""
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Calls `.to_polygons(...)` on all the shapes in this Pattern, replacing them with the returned polygons.
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Calls `.to_polygons(...)` on all the shapes in this Pattern, replacing them with the returned polygons.
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Arguments are passed directly to `shape.to_polygons(...)`.
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Arguments are passed directly to `shape.to_polygons(...)`.
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Args:
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Args:
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poly_num_points: Number of points to use for each polygon. Can be overridden by
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num_points: Number of points to use for each polygon. Can be overridden by
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`poly_max_arclen` if that results in more points. Optional, defaults to shapes'
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`max_arclen` if that results in more points. Optional, defaults to shapes'
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internal defaults.
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internal defaults.
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poly_max_arclen: Maximum arclength which can be approximated by a single line
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max_arclen: Maximum arclength which can be approximated by a single line
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segment. Optional, defaults to shapes' internal defaults.
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segment. Optional, defaults to shapes' internal defaults.
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Returns:
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Returns:
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@ -233,7 +233,7 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
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"""
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"""
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old_shapes = self.shapes
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old_shapes = self.shapes
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self.shapes = list(chain.from_iterable((
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self.shapes = list(chain.from_iterable((
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shape.to_polygons(poly_num_points, poly_max_arclen)
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shape.to_polygons(num_points, max_arclen)
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for shape in old_shapes)))
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for shape in old_shapes)))
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return self
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return self
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@ -713,7 +713,7 @@ class NamedPattern(Pattern):
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def __deepcopy__(self, memo: Optional[Dict] = None) -> Pattern:
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def __deepcopy__(self, memo: Optional[Dict] = None) -> Pattern:
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return Pattern.__deepcopy__(self, memo)
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return Pattern.__deepcopy__(self, memo)
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def as_pattern(self) -> Pattern:
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def as_pattern(self) -> Pattern:
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return Pattern(
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return Pattern(
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shapes=self.shapes,
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shapes=self.shapes,
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labels=self.labels,
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labels=self.labels,
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@ -3,7 +3,7 @@ Shapes for use with the Pattern class, as well as the Shape abstract class from
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which they are derived.
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which they are derived.
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"""
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"""
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from .shape import Shape, normalized_shape_tuple, DEFAULT_POLY_NUM_POINTS
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from .shape import Shape, normalized_shape_tuple, DEFAULT_POLY_NUM_VERTICES
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from .polygon import Polygon
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from .polygon import Polygon
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from .circle import Circle
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from .circle import Circle
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@ -6,7 +6,7 @@ import numpy
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from numpy import pi
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from numpy import pi
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from numpy.typing import NDArray, ArrayLike
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from numpy.typing import NDArray, ArrayLike
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from . import Shape, Polygon, normalized_shape_tuple, DEFAULT_POLY_NUM_POINTS
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from . import Shape, Polygon, normalized_shape_tuple, DEFAULT_POLY_NUM_VERTICES
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from ..error import PatternError
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from ..error import PatternError
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from ..repetition import Repetition
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from ..repetition import Repetition
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from ..utils import is_scalar, layer_t, annotations_t
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from ..utils import is_scalar, layer_t, annotations_t
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@ -23,7 +23,6 @@ class Arc(Shape):
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"""
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"""
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__slots__ = (
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__slots__ = (
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'_radii', '_angles', '_width', '_rotation',
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'_radii', '_angles', '_width', '_rotation',
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'poly_num_points', 'poly_max_arclen',
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# Inherited
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# Inherited
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'_offset', '_layer', '_repetition', '_annotations',
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'_offset', '_layer', '_repetition', '_annotations',
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)
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)
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@ -40,12 +39,6 @@ class Arc(Shape):
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_width: float
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_width: float
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""" Width of the arc """
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""" Width of the arc """
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poly_num_points: Optional[int]
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""" Sets the default number of points for `.polygonize()` """
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poly_max_arclen: Optional[float]
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""" Sets the default max segement length for `.polygonize()` """
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# radius properties
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# radius properties
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@property
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@property
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def radii(self) -> Any: # TODO mypy#3004 NDArray[numpy.float64]:
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def radii(self) -> Any: # TODO mypy#3004 NDArray[numpy.float64]:
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@ -160,8 +153,6 @@ class Arc(Shape):
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angles: ArrayLike,
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angles: ArrayLike,
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width: float,
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width: float,
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*,
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*,
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poly_num_points: Optional[int] = DEFAULT_POLY_NUM_POINTS,
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poly_max_arclen: Optional[float] = None,
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offset: ArrayLike = (0.0, 0.0),
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offset: ArrayLike = (0.0, 0.0),
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rotation: float = 0,
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rotation: float = 0,
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mirrored: Sequence[bool] = (False, False),
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mirrored: Sequence[bool] = (False, False),
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@ -191,8 +182,6 @@ class Arc(Shape):
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self.repetition = repetition
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self.repetition = repetition
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self.annotations = annotations if annotations is not None else {}
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self.annotations = annotations if annotations is not None else {}
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self.layer = layer
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self.layer = layer
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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.mirror(a) for a, do in enumerate(mirrored) if do]
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[self.mirror(a) for a, do in enumerate(mirrored) if do]
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def __deepcopy__(self, memo: Optional[Dict] = None) -> 'Arc':
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def __deepcopy__(self, memo: Optional[Dict] = None) -> 'Arc':
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@ -206,15 +195,10 @@ class Arc(Shape):
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def to_polygons(
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def to_polygons(
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self,
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self,
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poly_num_points: Optional[int] = None,
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num_vertices: Optional[int] = DEFAULT_POLY_NUM_VERTICES,
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poly_max_arclen: Optional[float] = None,
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max_arclen: Optional[float] = None,
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) -> List[Polygon]:
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) -> List[Polygon]:
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if poly_num_points is None:
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if (num_vertices is None) and (max_arclen is None):
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poly_num_points = self.poly_num_points
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if poly_max_arclen is None:
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poly_max_arclen = self.poly_max_arclen
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if (poly_num_points is None) and (poly_max_arclen is None):
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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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@ -232,18 +216,18 @@ class Arc(Shape):
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perimeter = abs(a0 - a1) / (2 * pi) * ellipse_perimeter # TODO: make this more accurate
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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 num_vertices is not None:
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n += [poly_num_points]
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n += [num_vertices]
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if poly_max_arclen is not None:
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if max_arclen is not None:
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n += [perimeter / poly_max_arclen]
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n += [perimeter / max_arclen]
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num_points = int(round(max(n)))
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num_vertices = int(round(max(n)))
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wh = self.width / 2.0
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wh = self.width / 2.0
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if wh == r0 or wh == r1:
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if wh == r0 or wh == r1:
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thetas_inner = numpy.zeros(1) # Don't generate multiple vertices if we're at the origin
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thetas_inner = numpy.zeros(1) # Don't generate multiple vertices if we're at the origin
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else:
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else:
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thetas_inner = numpy.linspace(a_ranges[0][1], a_ranges[0][0], num_points, endpoint=True)
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thetas_inner = numpy.linspace(a_ranges[0][1], a_ranges[0][0], num_vertices, endpoint=True)
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thetas_outer = numpy.linspace(a_ranges[1][0], a_ranges[1][1], num_points, endpoint=True)
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thetas_outer = numpy.linspace(a_ranges[1][0], a_ranges[1][1], num_vertices, endpoint=True)
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sin_th_i, cos_th_i = (numpy.sin(thetas_inner), numpy.cos(thetas_inner))
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sin_th_i, cos_th_i = (numpy.sin(thetas_inner), numpy.cos(thetas_inner))
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sin_th_o, cos_th_o = (numpy.sin(thetas_outer), numpy.cos(thetas_outer))
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sin_th_o, cos_th_o = (numpy.sin(thetas_outer), numpy.cos(thetas_outer))
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@ -370,7 +354,12 @@ class Arc(Shape):
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return ((type(self), radii, angles, width / norm_value, self.layer),
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return ((type(self), radii, angles, width / norm_value, self.layer),
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(self.offset, scale / norm_value, rotation, False),
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(self.offset, scale / norm_value, rotation, False),
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lambda: Arc(radii=radii * norm_value, angles=angles, width=width * norm_value, layer=self.layer))
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lambda: Arc(
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radii=radii * norm_value,
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angles=angles,
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width=width * norm_value,
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layer=self.layer,
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))
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def get_cap_edges(self) -> NDArray[numpy.float64]:
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def get_cap_edges(self) -> NDArray[numpy.float64]:
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'''
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'''
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@ -5,7 +5,7 @@ import numpy
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from numpy import pi
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from numpy import pi
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from numpy.typing import NDArray, ArrayLike
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from numpy.typing import NDArray, ArrayLike
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from . import Shape, Polygon, normalized_shape_tuple, DEFAULT_POLY_NUM_POINTS
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from . import Shape, Polygon, normalized_shape_tuple, DEFAULT_POLY_NUM_VERTICES
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from ..error import PatternError
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from ..error import PatternError
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from ..repetition import Repetition
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from ..repetition import Repetition
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from ..utils import is_scalar, layer_t, annotations_t
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from ..utils import is_scalar, layer_t, annotations_t
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@ -16,7 +16,7 @@ class Circle(Shape):
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A circle, which has a position and radius.
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A circle, which has a position and radius.
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"""
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"""
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__slots__ = (
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__slots__ = (
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'_radius', 'poly_num_points', 'poly_max_arclen',
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'_radius',
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# Inherited
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# Inherited
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'_offset', '_layer', '_repetition', '_annotations',
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'_offset', '_layer', '_repetition', '_annotations',
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)
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)
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@ -24,12 +24,6 @@ class Circle(Shape):
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_radius: float
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_radius: float
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""" Circle radius """
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""" Circle radius """
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poly_num_points: Optional[int]
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""" Sets the default number of points for `.polygonize()` """
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poly_max_arclen: Optional[float]
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""" Sets the default max segement length for `.polygonize()` """
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# radius property
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# radius property
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@property
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@property
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def radius(self) -> float:
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def radius(self) -> float:
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@ -50,8 +44,6 @@ class Circle(Shape):
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self,
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self,
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radius: float,
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radius: float,
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*,
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*,
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poly_num_points: Optional[int] = DEFAULT_POLY_NUM_POINTS,
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poly_max_arclen: Optional[float] = None,
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offset: ArrayLike = (0.0, 0.0),
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offset: ArrayLike = (0.0, 0.0),
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layer: layer_t = 0,
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layer: layer_t = 0,
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repetition: Optional[Repetition] = None,
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repetition: Optional[Repetition] = None,
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@ -71,8 +63,6 @@ class Circle(Shape):
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self.repetition = repetition
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self.repetition = repetition
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self.annotations = annotations if annotations is not None else {}
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self.annotations = annotations if annotations is not None else {}
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self.layer = layer
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self.layer = layer
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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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def __deepcopy__(self, memo: Optional[Dict] = None) -> 'Circle':
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def __deepcopy__(self, memo: Optional[Dict] = None) -> 'Circle':
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memo = {} if memo is None else memo
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memo = {} if memo is None else memo
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@ -83,25 +73,20 @@ class Circle(Shape):
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def to_polygons(
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def to_polygons(
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self,
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self,
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poly_num_points: Optional[int] = None,
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num_vertices: Optional[int] = DEFAULT_POLY_NUM_VERTICES,
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poly_max_arclen: Optional[float] = None,
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max_arclen: Optional[float] = None,
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) -> List[Polygon]:
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) -> List[Polygon]:
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if poly_num_points is None:
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if (num_vertices is None) and (max_arclen is None):
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poly_num_points = self.poly_num_points
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if poly_max_arclen is None:
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poly_max_arclen = self.poly_max_arclen
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if (poly_num_points is None) and (poly_max_arclen is None):
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raise PatternError('Number of points and arclength left '
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raise PatternError('Number of points and arclength left '
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'unspecified (default was also overridden)')
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'unspecified (default was also overridden)')
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n: List[float] = []
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n: List[float] = []
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if poly_num_points is not None:
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if num_vertices is not None:
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n += [poly_num_points]
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n += [num_vertices]
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if poly_max_arclen is not None:
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if max_arclen is not None:
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n += [2 * pi * self.radius / poly_max_arclen]
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n += [2 * pi * self.radius / max_arclen]
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num_points = int(round(max(n)))
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num_vertices = int(round(max(n)))
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thetas = numpy.linspace(2 * pi, 0, num_points, endpoint=False)
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thetas = numpy.linspace(2 * pi, 0, num_vertices, endpoint=False)
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xs = numpy.cos(thetas) * self.radius
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xs = numpy.cos(thetas) * self.radius
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ys = numpy.sin(thetas) * self.radius
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ys = numpy.sin(thetas) * self.radius
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xys = numpy.vstack((xs, ys)).T
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xys = numpy.vstack((xs, ys)).T
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@ -6,7 +6,7 @@ import numpy
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from numpy import pi
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from numpy import pi
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from numpy.typing import ArrayLike, NDArray
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from numpy.typing import ArrayLike, NDArray
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from . import Shape, Polygon, normalized_shape_tuple, DEFAULT_POLY_NUM_POINTS
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from . import Shape, Polygon, normalized_shape_tuple, DEFAULT_POLY_NUM_VERTICES
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from ..error import PatternError
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from ..error import PatternError
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from ..repetition import Repetition
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from ..repetition import Repetition
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from ..utils import is_scalar, rotation_matrix_2d, layer_t, annotations_t
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from ..utils import is_scalar, rotation_matrix_2d, layer_t, annotations_t
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@ -19,7 +19,6 @@ class Ellipse(Shape):
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"""
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"""
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__slots__ = (
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__slots__ = (
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'_radii', '_rotation',
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'_radii', '_rotation',
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'poly_num_points', 'poly_max_arclen',
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# Inherited
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# Inherited
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'_offset', '_layer', '_repetition', '_annotations',
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'_offset', '_layer', '_repetition', '_annotations',
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)
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)
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@ -30,12 +29,6 @@ class Ellipse(Shape):
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_rotation: float
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_rotation: float
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""" Angle from x-axis to first radius (ccw, radians) """
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""" Angle from x-axis to first radius (ccw, radians) """
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poly_num_points: Optional[int]
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""" Sets the default number of points for `.polygonize()` """
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poly_max_arclen: Optional[float]
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""" Sets the default max segement length for `.polygonize()` """
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# radius properties
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# radius properties
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@property
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@property
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def radii(self) -> Any: # TODO mypy#3004 NDArray[numpy.float64]:
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def radii(self) -> Any: # TODO mypy#3004 NDArray[numpy.float64]:
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@ -95,8 +88,6 @@ class Ellipse(Shape):
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self,
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self,
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radii: ArrayLike,
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radii: ArrayLike,
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*,
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*,
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poly_num_points: Optional[int] = DEFAULT_POLY_NUM_POINTS,
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poly_max_arclen: Optional[float] = None,
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offset: ArrayLike = (0.0, 0.0),
|
offset: ArrayLike = (0.0, 0.0),
|
||||||
rotation: float = 0,
|
rotation: float = 0,
|
||||||
mirrored: Sequence[bool] = (False, False),
|
mirrored: Sequence[bool] = (False, False),
|
||||||
@ -122,8 +113,6 @@ class Ellipse(Shape):
|
|||||||
self.annotations = annotations if annotations is not None else {}
|
self.annotations = annotations if annotations is not None else {}
|
||||||
self.layer = layer
|
self.layer = layer
|
||||||
[self.mirror(a) for a, do in enumerate(mirrored) if do]
|
[self.mirror(a) for a, do in enumerate(mirrored) if do]
|
||||||
self.poly_num_points = poly_num_points
|
|
||||||
self.poly_max_arclen = poly_max_arclen
|
|
||||||
|
|
||||||
def __deepcopy__(self, memo: Optional[Dict] = None) -> 'Ellipse':
|
def __deepcopy__(self, memo: Optional[Dict] = None) -> 'Ellipse':
|
||||||
memo = {} if memo is None else memo
|
memo = {} if memo is None else memo
|
||||||
@ -135,15 +124,10 @@ class Ellipse(Shape):
|
|||||||
|
|
||||||
def to_polygons(
|
def to_polygons(
|
||||||
self,
|
self,
|
||||||
poly_num_points: Optional[int] = None,
|
num_vertices: Optional[int] = DEFAULT_POLY_NUM_VERTICES,
|
||||||
poly_max_arclen: Optional[float] = None,
|
max_arclen: Optional[float] = None,
|
||||||
) -> List[Polygon]:
|
) -> List[Polygon]:
|
||||||
if poly_num_points is None:
|
if (num_vertices is None) and (max_arclen is None):
|
||||||
poly_num_points = self.poly_num_points
|
|
||||||
if poly_max_arclen is None:
|
|
||||||
poly_max_arclen = self.poly_max_arclen
|
|
||||||
|
|
||||||
if (poly_num_points is None) and (poly_max_arclen is None):
|
|
||||||
raise PatternError('Number of points and arclength left unspecified'
|
raise PatternError('Number of points and arclength left unspecified'
|
||||||
' (default was also overridden)')
|
' (default was also overridden)')
|
||||||
|
|
||||||
@ -156,12 +140,12 @@ class Ellipse(Shape):
|
|||||||
perimeter = pi * (r1 + r0) * (1 + 3 * h / (10 + math.sqrt(4 - 3 * h)))
|
perimeter = pi * (r1 + r0) * (1 + 3 * h / (10 + math.sqrt(4 - 3 * h)))
|
||||||
|
|
||||||
n = []
|
n = []
|
||||||
if poly_num_points is not None:
|
if num_vertices is not None:
|
||||||
n += [poly_num_points]
|
n += [num_vertices]
|
||||||
if poly_max_arclen is not None:
|
if max_arclen is not None:
|
||||||
n += [perimeter / poly_max_arclen]
|
n += [perimeter / max_arclen]
|
||||||
num_points = int(round(max(n)))
|
num_vertices = int(round(max(n)))
|
||||||
thetas = numpy.linspace(2 * pi, 0, num_points, endpoint=False)
|
thetas = numpy.linspace(2 * pi, 0, num_vertices, endpoint=False)
|
||||||
|
|
||||||
sin_th, cos_th = (numpy.sin(thetas), numpy.cos(thetas))
|
sin_th, cos_th = (numpy.sin(thetas), numpy.cos(thetas))
|
||||||
xs = r0 * cos_th
|
xs = r0 * cos_th
|
||||||
|
@ -243,8 +243,8 @@ class Path(Shape):
|
|||||||
|
|
||||||
def to_polygons(
|
def to_polygons(
|
||||||
self,
|
self,
|
||||||
poly_num_points: Optional[int] = None,
|
num_vertices: Optional[int] = None,
|
||||||
poly_max_arclen: Optional[float] = None,
|
max_arclen: Optional[float] = None,
|
||||||
) -> List['Polygon']:
|
) -> List['Polygon']:
|
||||||
extensions = self._calculate_cap_extensions()
|
extensions = self._calculate_cap_extensions()
|
||||||
|
|
||||||
@ -311,7 +311,7 @@ class Path(Shape):
|
|||||||
#for vert in v: # not sure if every vertex, or just ends?
|
#for vert in v: # not sure if every vertex, or just ends?
|
||||||
for vert in [v[0], v[-1]]:
|
for vert in [v[0], v[-1]]:
|
||||||
circ = Circle(offset=vert, radius=self.width / 2, layer=self.layer)
|
circ = Circle(offset=vert, radius=self.width / 2, layer=self.layer)
|
||||||
polys += circ.to_polygons(poly_num_points=poly_num_points, poly_max_arclen=poly_max_arclen)
|
polys += circ.to_polygons(num_vertices=num_vertices, max_arclen=max_arclen)
|
||||||
|
|
||||||
return polys
|
return polys
|
||||||
|
|
||||||
@ -372,8 +372,12 @@ class Path(Shape):
|
|||||||
|
|
||||||
return ((type(self), reordered_vertices.data.tobytes(), width0, self.cap, self.layer),
|
return ((type(self), reordered_vertices.data.tobytes(), width0, self.cap, self.layer),
|
||||||
(offset, scale / norm_value, rotation, False),
|
(offset, scale / norm_value, rotation, False),
|
||||||
lambda: Path(reordered_vertices * norm_value, width=self.width * norm_value,
|
lambda: Path(
|
||||||
cap=self.cap, layer=self.layer))
|
reordered_vertices * norm_value,
|
||||||
|
width=self.width * norm_value,
|
||||||
|
cap=self.cap,
|
||||||
|
layer=self.layer,
|
||||||
|
))
|
||||||
|
|
||||||
def clean_vertices(self) -> 'Path':
|
def clean_vertices(self) -> 'Path':
|
||||||
"""
|
"""
|
||||||
|
@ -333,8 +333,8 @@ class Polygon(Shape):
|
|||||||
|
|
||||||
def to_polygons(
|
def to_polygons(
|
||||||
self,
|
self,
|
||||||
poly_num_points: Optional[int] = None, # unused
|
num_vertices: Optional[int] = None, # unused
|
||||||
poly_max_arclen: Optional[float] = None, # unused
|
max_arclen: Optional[float] = None, # unused
|
||||||
) -> List['Polygon']:
|
) -> List['Polygon']:
|
||||||
return [copy.deepcopy(self)]
|
return [copy.deepcopy(self)]
|
||||||
|
|
||||||
|
@ -23,7 +23,7 @@ normalized_shape_tuple = Tuple[
|
|||||||
|
|
||||||
# ## Module-wide defaults
|
# ## Module-wide defaults
|
||||||
# Default number of points per polygon for shapes
|
# Default number of points per polygon for shapes
|
||||||
DEFAULT_POLY_NUM_POINTS = 24
|
DEFAULT_POLY_NUM_VERTICES = 24
|
||||||
|
|
||||||
|
|
||||||
T = TypeVar('T', bound='Shape')
|
T = TypeVar('T', bound='Shape')
|
||||||
|
@ -110,8 +110,8 @@ class Text(RotatableImpl, Shape):
|
|||||||
|
|
||||||
def to_polygons(
|
def to_polygons(
|
||||||
self,
|
self,
|
||||||
poly_num_points: Optional[int] = None, # unused
|
num_vertices: Optional[int] = None, # unused
|
||||||
poly_max_arclen: Optional[float] = None, # unused
|
max_arclen: Optional[float] = None, # unused
|
||||||
) -> List[Polygon]:
|
) -> List[Polygon]:
|
||||||
all_polygons = []
|
all_polygons = []
|
||||||
total_advance = 0.0
|
total_advance = 0.0
|
||||||
@ -146,12 +146,14 @@ class Text(RotatableImpl, Shape):
|
|||||||
rotation %= 2 * pi
|
rotation %= 2 * pi
|
||||||
return ((type(self), self.string, self.font_path, self.layer),
|
return ((type(self), self.string, self.font_path, self.layer),
|
||||||
(self.offset, self.height / norm_value, rotation, mirror_x),
|
(self.offset, self.height / norm_value, rotation, mirror_x),
|
||||||
lambda: Text(string=self.string,
|
lambda: Text(
|
||||||
height=self.height * norm_value,
|
string=self.string,
|
||||||
font_path=self.font_path,
|
height=self.height * norm_value,
|
||||||
rotation=rotation,
|
font_path=self.font_path,
|
||||||
mirrored=(mirror_x, False),
|
rotation=rotation,
|
||||||
layer=self.layer))
|
mirrored=(mirror_x, False),
|
||||||
|
layer=self.layer,
|
||||||
|
))
|
||||||
|
|
||||||
def get_bounds(self) -> NDArray[numpy.float64]:
|
def get_bounds(self) -> NDArray[numpy.float64]:
|
||||||
# rotation makes this a huge pain when using slot.advance and glyph.bbox(), so
|
# rotation makes this a huge pain when using slot.advance and glyph.bbox(), so
|
||||||
|
Loading…
Reference in New Issue
Block a user