from functools import partial from typing import Any, Callable, Literal, Sequence from ._typing import * from .axis import Axis from .scale import SymmetricalLogTransform __all__ = ( "TickHelper", "Formatter", "FixedFormatter", "NullFormatter", "FuncFormatter", "FormatStrFormatter", "StrMethodFormatter", "ScalarFormatter", "LogFormatter", "LogFormatterExponent", "LogFormatterMathtext", "LogFormatterSciNotation", "LogitFormatter", "EngFormatter", "PercentFormatter", "Locator", "IndexLocator", "FixedLocator", "NullLocator", "LinearLocator", "LogLocator", "AutoLocator", "MultipleLocator", "MaxNLocator", "AutoMinorLocator", "SymmetricalLogLocator", "AsinhLocator", "LogitLocator", ) class _DummyAxis: dataLim = ... viewLim = ... def __init__(self, minpos: int = ...) -> None: ... def get_view_interval(self): ... def set_view_interval(self, vmin: float, vmax: float): ... def get_minpos(self): ... def get_data_interval(self): ... def set_data_interval(self, vmin: float, vmax: float): ... def get_tick_space(self): ... class TickHelper: axis = ... def set_axis(self, axis: Axis) -> None: ... def create_dummy_axis(self, **kwargs) -> None: ... def set_view_interval(self, vmin: float, vmax: float): ... def set_data_interval(self, vmin: float, vmax: float): ... def set_bounds(self, vmin: float, vmax: float): ... class Formatter(TickHelper): locs = ... def __call__(self, x, pos=...): ... def format_ticks(self, values: Sequence[float]) -> list[str]: ... def format_data(self, value) -> str: ... def format_data_short(self, value) -> str: ... def get_offset(self) -> str: ... def set_locs(self, locs: ArrayLike) -> None: ... @staticmethod def fix_minus(s: str) -> str: ... class NullFormatter(Formatter): def __call__(self, x: float, pos: int = ...): ... class FixedFormatter(Formatter): def __init__(self, seq: Sequence[str]) -> None: ... def __call__(self, x: float, pos: int = ...): ... def get_offset(self) -> str: ... def set_offset_string(self, ofs: str): ... class FuncFormatter(Formatter): def __init__(self, func: Callable | partial) -> None: ... def __call__(self, x: float, pos: int = ...): ... def get_offset(self) -> str: ... def set_offset_string(self, ofs: str): ... class FormatStrFormatter(Formatter): def __init__(self, fmt: str) -> None: ... def __call__(self, x: float, pos: int = ...): ... class StrMethodFormatter(Formatter): def __init__(self, fmt: str) -> None: ... def __call__(self, x: float, pos: int = ...): ... class ScalarFormatter(Formatter): def __init__( self, useOffset: bool | float = ..., useMathText: bool | None = ..., useLocale: bool | None = ..., ) -> None: ... def get_useOffset(self): ... def set_useOffset(self, val: bool | float) -> None: ... useOffset = ... def get_useLocale(self) -> bool | None: ... def set_useLocale(self, val: bool | None): ... useLocale = ... def get_useMathText(self) -> bool | None: ... def set_useMathText(self, val: bool | None) -> None: ... useMathText = ... def __call__(self, x: float, pos: int = ...) -> str: ... def set_scientific(self, bool) -> None: ... def set_powerlimits(self, lims: Sequence[int]): ... def format_data_short(self, value) -> str: ... def format_data(self, value) -> str: ... def get_offset(self) -> str: ... def set_locs(self, locs: Sequence[float]) -> None: ... class LogFormatter(Formatter): def __init__( self, base: Sequence[float] = ..., labelOnlyBase: bool = False, minor_thresholds: Sequence[float] = ..., linthresh: None | float = None, ) -> None: ... def base(self, base): ... def label_minor(self, labelOnlyBase: bool): ... def set_locs(self, locs=...): ... def __call__(self, x: float, pos: int = ...): ... def format_data(self, value) -> str: ... def format_data_short(self, value) -> str: ... class LogFormatterExponent(LogFormatter): ... class LogFormatterMathtext(LogFormatter): def __call__(self, x: float, pos: int = ...): ... class LogFormatterSciNotation(LogFormatterMathtext): ... class LogitFormatter(Formatter): def __init__( self, *, use_overline: bool = False, one_half: str = "\\frac{1}{2}", minor: bool = False, minor_threshold: int = 25, minor_number: int = 6, ) -> None: ... def use_overline(self, use_overline: bool = False): ... def set_one_half(self, one_half: str = "\\frac{1}{2}"): ... def set_minor_threshold(self, minor_threshold: int): ... def set_minor_number(self, minor_number: int): ... def set_locs(self, locs): ... def __call__(self, x: float, pos: int = ...): ... def format_data_short(self, value) -> str: ... class EngFormatter(Formatter): ENG_PREFIXES = ... def __init__( self, unit: str = "", places: int | None = None, sep: str = " ", *, usetex: bool = ..., useMathText: bool = ... ) -> None: ... def get_usetex(self) -> bool: ... def set_usetex(self, val: bool) -> None: ... usetex = ... def get_useMathText(self) -> bool: ... def set_useMathText(self, val: bool) -> None: ... useMathText = ... def __call__(self, x: float, pos: int = ...): ... def format_eng(self, num) -> str: ... class PercentFormatter(Formatter): def __init__( self, xmax: float = ..., decimals: None | int = ..., symbol: str | None = ..., is_latex: bool = ..., ) -> None: ... def __call__(self, x: float, pos: int = ...): ... def format_pct(self, x, display_range) -> str: ... def convert_to_pct(self, x): ... @property def symbol(self) -> str: ... @symbol.setter def symbol(self, symbol: str): ... class Locator(TickHelper): MAXTICKS = ... def tick_values(self, vmin: float, vmax: float): ... def set_params(self, **kwargs): ... def __call__(self): ... def raise_if_exceeds(self, locs): ... def nonsingular(self, v0: float, v1: float) -> tuple[float, float]: ... def view_limits(self, vmin: float, vmax: float): ... class IndexLocator(Locator): def __init__(self, base: float, offset: float) -> None: ... def set_params(self, base: float = ..., offset: float = ...): ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... class FixedLocator(Locator): def __init__(self, locs, nbins: int | None = ...) -> None: ... def set_params(self, nbins: int | None = ...): ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... class NullLocator(Locator): def __call__(self) -> list: ... def tick_values(self, vmin: float, vmax: float) -> list: ... class LinearLocator(Locator): def __init__(self, numticks: int = ..., presets: dict = ...) -> None: ... @property def numticks(self): ... @numticks.setter def numticks(self, numticks: int): ... def set_params(self, numticks: int = ..., presets: dict = ...): ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... def view_limits(self, vmin: float, vmax: float): ... class MultipleLocator(Locator): def __init__(self, base: float = ...) -> None: ... def set_params(self, base: float): ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... def view_limits(self, dmin: float, dmax: float): ... def scale_range(vmin: float, vmax: float, n: int = ..., threshold: int = ...) -> tuple[float, int]: ... class _Edge_integer: def __init__(self, step: float, offset: float) -> None: ... def closeto(self, ms, edge): ... def le(self, x: float) -> float: ... def ge(self, x: float) -> float: ... class MaxNLocator(Locator): default_params = ... def __init__(self, nbins: int | Literal["auto"] = 10, **kwargs) -> None: ... def set_params(self, **kwargs) -> None: ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... def view_limits(self, dmin: float, dmax: float) -> tuple[float, float]: ... def is_decade(x, base=..., *, rtol=...): ... def is_close_to_int(x, *, atol=...): ... class LogLocator(Locator): def __init__( self, base: float = ..., subs: None | str | Sequence[float] = ..., numdecs: int = ..., numticks: None | int = ..., ) -> None: ... def set_params( self, base: float = ..., subs: None | str | Sequence[float] = ..., numdecs: int = ..., numtick: None | int = ..., ): ... def base(self, base: float) -> None: ... def subs(self, subs: None | str | Sequence[float]) -> None: ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... def view_limits(self, vmin: float, vmax: float): ... def nonsingular(self, vmin: float, vmax: float) -> tuple[float, float]: ... class SymmetricalLogLocator(Locator): def __init__( self, transform: SymmetricalLogTransform = ..., subs: Sequence[float] = ..., linthresh: float = ..., base: float = ..., ) -> None: ... def set_params(self, subs: Sequence[float] = ..., numticks: int | None = ...): ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... def view_limits(self, vmin: float, vmax: float): ... class AsinhLocator(Locator): def __init__( self, linear_width: float, numticks: int = 11, symthresh: float = 0.2, base: int = 10, subs: Sequence[int] = ..., ) -> None: ... def set_params( self, numticks: int = ..., symthresh: float = ..., base: int = ..., subs: Sequence[int] = ..., ): ... def __call__(self): ... def tick_values(self, vmin: float, vmax: float): ... class LogitLocator(MaxNLocator): def __init__(self, minor: bool = ..., *, nbins: int | Literal["auto"] = ...) -> None: ... def set_params(self, minor: None = ..., **kwargs) -> None: ... @property def minor(self): ... @minor.setter def minor(self, value): ... def tick_values(self, vmin: float, vmax: float): ... def nonsingular(self, vmin: float, vmax: float) -> tuple[float, float]: ... class AutoLocator(MaxNLocator): def __init__(self) -> None: ... class AutoMinorLocator(Locator): def __init__(self, n: int | None = ...) -> None: ... def __call__(self) -> list: ... def tick_values(self, vmin: float, vmax: float): ...