You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
nvim_config/typings/matplotlib/path.pyi

168 lines
4.8 KiB

"""
This type stub file was generated by pyright.
"""
import numpy as np
from .bezier import BezierSegment
from .transforms import Affine2D, Bbox, Transform
from collections.abc import Generator, Iterable, Sequence
from numpy.typing import ArrayLike
from typing import Any, overload
class Path:
code_type: type[np.uint8]
STOP: np.uint8
MOVETO: np.uint8
LINETO: np.uint8
CURVE3: np.uint8
CURVE4: np.uint8
CLOSEPOLY: np.uint8
NUM_VERTICES_FOR_CODE: dict[np.uint8, int]
def __init__(self, vertices: ArrayLike, codes: ArrayLike | None = ..., _interpolation_steps: int = ..., closed: bool = ..., readonly: bool = ...) -> None:
...
@property
def vertices(self) -> ArrayLike:
...
@vertices.setter
def vertices(self, vertices: ArrayLike) -> None:
...
@property
def codes(self) -> ArrayLike:
...
@codes.setter
def codes(self, codes: ArrayLike) -> None:
...
@property
def simplify_threshold(self) -> float:
...
@simplify_threshold.setter
def simplify_threshold(self, threshold: float) -> None:
...
@property
def should_simplify(self) -> bool:
...
@should_simplify.setter
def should_simplify(self, should_simplify: bool) -> None:
...
@property
def readonly(self) -> bool:
...
def copy(self) -> Path:
...
def __deepcopy__(self, memo: dict[int, Any] | None = ...) -> Path:
...
deepcopy = ...
@classmethod
def make_compound_path_from_polys(cls, XY: ArrayLike) -> Path:
...
@classmethod
def make_compound_path(cls, *args: Path) -> Path:
...
def __len__(self) -> int:
...
def iter_segments(self, transform: Transform | None = ..., remove_nans: bool = ..., clip: tuple[float, float, float, float] | None = ..., snap: bool | None = ..., stroke_width: float = ..., simplify: bool | None = ..., curves: bool = ..., sketch: tuple[float, float, float] | None = ...) -> Generator[tuple[np.ndarray, np.uint8], None, None]:
...
def iter_bezier(self, **kwargs) -> Generator[BezierSegment, None, None]:
...
def cleaned(self, transform: Transform | None = ..., remove_nans: bool = ..., clip: tuple[float, float, float, float] | None = ..., *, simplify: bool | None = ..., curves: bool = ..., stroke_width: float = ..., snap: bool | None = ..., sketch: tuple[float, float, float] | None = ...) -> Path:
...
def transformed(self, transform: Transform) -> Path:
...
def contains_point(self, point: tuple[float, float], transform: Transform | None = ..., radius: float = ...) -> bool:
...
def contains_points(self, points: ArrayLike, transform: Transform | None = ..., radius: float = ...) -> np.ndarray:
...
def contains_path(self, path: Path, transform: Transform | None = ...) -> bool:
...
def get_extents(self, transform: Transform | None = ..., **kwargs) -> Bbox:
...
def intersects_path(self, other: Path, filled: bool = ...) -> bool:
...
def intersects_bbox(self, bbox: Bbox, filled: bool = ...) -> bool:
...
def interpolated(self, steps: int) -> Path:
...
def to_polygons(self, transform: Transform | None = ..., width: float = ..., height: float = ..., closed_only: bool = ...) -> list[ArrayLike]:
...
@classmethod
def unit_rectangle(cls) -> Path:
...
@classmethod
def unit_regular_polygon(cls, numVertices: int) -> Path:
...
@classmethod
def unit_regular_star(cls, numVertices: int, innerCircle: float = ...) -> Path:
...
@classmethod
def unit_regular_asterisk(cls, numVertices: int) -> Path:
...
@classmethod
def unit_circle(cls) -> Path:
...
@classmethod
def circle(cls, center: tuple[float, float] = ..., radius: float = ..., readonly: bool = ...) -> Path:
...
@classmethod
def unit_circle_righthalf(cls) -> Path:
...
@classmethod
def arc(cls, theta1: float, theta2: float, n: int | None = ..., is_wedge: bool = ...) -> Path:
...
@classmethod
def wedge(cls, theta1: float, theta2: float, n: int | None = ...) -> Path:
...
@overload
@staticmethod
def hatch(hatchpattern: str, density: float = ...) -> Path:
...
@overload
@staticmethod
def hatch(hatchpattern: None, density: float = ...) -> None:
...
def clip_to_bbox(self, bbox: Bbox, inside: bool = ...) -> Path:
...
def get_path_collection_extents(master_transform: Transform, paths: Sequence[Path], transforms: Iterable[Affine2D], offsets: ArrayLike, offset_transform: Affine2D) -> Bbox:
...