import matplotlib.spines as mspines from matplotlib import cm, collections, colors, contour from matplotlib.axes import Axes from matplotlib.backend_bases import RendererBase from matplotlib.patches import Patch from matplotlib.ticker import Locator, Formatter from matplotlib.transforms import Bbox import numpy as np from numpy.typing import ArrayLike from collections.abc import Sequence from typing import Any, Literal, overload from .typing import ColorType class _ColorbarSpine(mspines.Spines): def __init__(self, axes: Axes): ... def get_window_extent(self, renderer: RendererBase | None = ...) -> Bbox:... def set_xy(self, xy: ArrayLike) -> None: ... def draw(self, renderer: RendererBase | None) -> None:... class Colorbar: n_rasterize: int mappable: cm.ScalarMappable ax: Axes alpha: float | None cmap: colors.Colormap norm: colors.Normalize values: Sequence[float] | None boundaries: Sequence[float] | None extend: Literal["neither", "both", "min", "max"] spacing: Literal["uniform", "proportional"] orientation: Literal["vertical", "horizontal"] drawedges: bool extendfrac: Literal["auto"] | float | Sequence[float] | None extendrect: bool solids: None | collections.QuadMesh solids_patches: list[Patch] lines: list[collections.LineCollection] outline: _ColorbarSpine dividers: collections.LineCollection ticklocation: Literal["left", "right", "top", "bottom"] def __init__( self, ax: Axes, mappable: cm.ScalarMappable | None = ..., *, cmap: str | colors.Colormap | None = ..., norm: colors.Normalize | None = ..., alpha: float | None = ..., values: Sequence[float] | None = ..., boundaries: Sequence[float] | None = ..., orientation: Literal["vertical", "horizontal"] | None = ..., ticklocation: Literal["auto", "left", "right", "top", "bottom"] = ..., extend: Literal["neither", "both", "min", "max"] | None = ..., spacing: Literal["uniform", "proportional"] = ..., ticks: Sequence[float] | Locator | None = ..., format: str | Formatter | None = ..., drawedges: bool = ..., extendfrac: Literal["auto"] | float | Sequence[float] | None = ..., extendrect: bool = ..., label: str = ..., location: Literal["left", "right", "top", "bottom"] | None = ... ) -> None: ... @property def locator(self) -> Locator: ... @locator.setter def locator(self, loc: Locator) -> None: ... @property def minorlocator(self) -> Locator: ... @minorlocator.setter def minorlocator(self, loc: Locator) -> None: ... @property def formatter(self) -> Formatter: ... @formatter.setter def formatter(self, fmt: Formatter) -> None: ... @property def minorformatter(self) -> Formatter: ... @minorformatter.setter def minorformatter(self, fmt: Formatter) -> None: ... def update_normal(self, mappable: cm.ScalarMappable) -> None: ... @overload def add_lines(self, CS: contour.ContourSet, erase: bool = ...) -> None: ... @overload def add_lines( self, levels: ArrayLike, colors: ColorType | Sequence[ColorType], linewidths: float | ArrayLike, erase: bool = ..., ) -> None: ... def update_ticks(self) -> None: ... def set_ticks( self, ticks: Sequence[float] | Locator, *, labels: Sequence[str] | None = ..., minor: bool = ..., **kwargs ) -> None: ... def get_ticks(self, minor: bool = ...) -> np.ndarray: ... def set_ticklabels( self, ticklabels: Sequence[str], *, minor: bool = ..., **kwargs ) -> None: ... def minorticks_on(self) -> None: ... def minorticks_off(self) -> None: ... def set_label(self, label: str, *, loc: str | None = ..., **kwargs) -> None: ... def set_alpha(self, alpha: float | np.ndarray) -> None: ... def remove(self) -> None: ... def drag_pan(self, button: Any, key: Any, x: float, y: float) -> None: ... ColorbarBase = Colorbar def make_axes( parents: Axes | list[Axes] | np.ndarray, location: Literal["left", "right", "top", "bottom"] | None = ..., orientation: Literal["vertical", "horizontal"] | None = ..., fraction: float = ..., shrink: float = ..., aspect: float = ..., **kwargs ) -> tuple[Axes, dict[str, Any]]: ... def make_axes_gridspec( parent: Axes, *, location: Literal["left", "right", "top", "bottom"] | None = ..., orientation: Literal["vertical", "horizontal"] | None = ..., fraction: float = ..., shrink: float = ..., aspect: float = ..., **kwargs ) -> tuple[Axes, dict[str, Any]]: ...