mirror of
https://github.com/PiBrewing/craftbeerpi4.git
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1078 lines
35 KiB
Python
1078 lines
35 KiB
Python
import contextlib
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import datetime as pydt
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from datetime import datetime, timedelta, tzinfo
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import functools
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from typing import Any, Dict, List, Optional, Tuple
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from dateutil.relativedelta import relativedelta
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import matplotlib.dates as dates
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from matplotlib.ticker import AutoLocator, Formatter, Locator
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from matplotlib.transforms import nonsingular
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import matplotlib.units as units
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import numpy as np
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from pandas._libs import lib
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from pandas._libs.tslibs import Timestamp, to_offset
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from pandas._libs.tslibs.dtypes import FreqGroup
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from pandas._libs.tslibs.offsets import BaseOffset
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from pandas.core.dtypes.common import (
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is_float,
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is_float_dtype,
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is_integer,
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is_integer_dtype,
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is_nested_list_like,
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)
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from pandas import Index, Series, get_option
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import pandas.core.common as com
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from pandas.core.indexes.datetimes import date_range
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from pandas.core.indexes.period import Period, PeriodIndex, period_range
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import pandas.core.tools.datetimes as tools
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# constants
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HOURS_PER_DAY = 24.0
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MIN_PER_HOUR = 60.0
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SEC_PER_MIN = 60.0
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SEC_PER_HOUR = SEC_PER_MIN * MIN_PER_HOUR
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SEC_PER_DAY = SEC_PER_HOUR * HOURS_PER_DAY
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MUSEC_PER_DAY = 1e6 * SEC_PER_DAY
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_mpl_units = {} # Cache for units overwritten by us
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def get_pairs():
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pairs = [
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(Timestamp, DatetimeConverter),
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(Period, PeriodConverter),
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(pydt.datetime, DatetimeConverter),
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(pydt.date, DatetimeConverter),
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(pydt.time, TimeConverter),
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(np.datetime64, DatetimeConverter),
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]
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return pairs
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def register_pandas_matplotlib_converters(func):
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"""
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Decorator applying pandas_converters.
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"""
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@functools.wraps(func)
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def wrapper(*args, **kwargs):
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with pandas_converters():
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return func(*args, **kwargs)
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return wrapper
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@contextlib.contextmanager
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def pandas_converters():
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"""
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Context manager registering pandas' converters for a plot.
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See Also
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--------
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register_pandas_matplotlib_converters : Decorator that applies this.
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"""
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value = get_option("plotting.matplotlib.register_converters")
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if value:
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# register for True or "auto"
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register()
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try:
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yield
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finally:
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if value == "auto":
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# only deregister for "auto"
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deregister()
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def register():
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pairs = get_pairs()
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for type_, cls in pairs:
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# Cache previous converter if present
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if type_ in units.registry and not isinstance(units.registry[type_], cls):
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previous = units.registry[type_]
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_mpl_units[type_] = previous
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# Replace with pandas converter
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units.registry[type_] = cls()
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def deregister():
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# Renamed in pandas.plotting.__init__
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for type_, cls in get_pairs():
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# We use type to catch our classes directly, no inheritance
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if type(units.registry.get(type_)) is cls:
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units.registry.pop(type_)
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# restore the old keys
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for unit, formatter in _mpl_units.items():
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if type(formatter) not in {DatetimeConverter, PeriodConverter, TimeConverter}:
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# make it idempotent by excluding ours.
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units.registry[unit] = formatter
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def _to_ordinalf(tm: pydt.time) -> float:
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tot_sec = tm.hour * 3600 + tm.minute * 60 + tm.second + float(tm.microsecond / 1e6)
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return tot_sec
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def time2num(d):
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if isinstance(d, str):
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parsed = tools.to_datetime(d)
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if not isinstance(parsed, datetime):
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raise ValueError(f"Could not parse time {d}")
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return _to_ordinalf(parsed.time())
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if isinstance(d, pydt.time):
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return _to_ordinalf(d)
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return d
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class TimeConverter(units.ConversionInterface):
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@staticmethod
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def convert(value, unit, axis):
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valid_types = (str, pydt.time)
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if isinstance(value, valid_types) or is_integer(value) or is_float(value):
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return time2num(value)
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if isinstance(value, Index):
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return value.map(time2num)
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if isinstance(value, (list, tuple, np.ndarray, Index)):
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return [time2num(x) for x in value]
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return value
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@staticmethod
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def axisinfo(unit, axis) -> Optional[units.AxisInfo]:
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if unit != "time":
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return None
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majloc = AutoLocator()
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majfmt = TimeFormatter(majloc)
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return units.AxisInfo(majloc=majloc, majfmt=majfmt, label="time")
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@staticmethod
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def default_units(x, axis) -> str:
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return "time"
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# time formatter
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class TimeFormatter(Formatter):
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def __init__(self, locs):
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self.locs = locs
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def __call__(self, x, pos=0) -> str:
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"""
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Return the time of day as a formatted string.
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Parameters
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----------
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x : float
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The time of day specified as seconds since 00:00 (midnight),
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with up to microsecond precision.
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pos
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Unused
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Returns
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-------
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str
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A string in HH:MM:SS.mmmuuu format. Microseconds,
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milliseconds and seconds are only displayed if non-zero.
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"""
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fmt = "%H:%M:%S.%f"
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s = int(x)
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msus = int(round((x - s) * 1e6))
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ms = msus // 1000
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us = msus % 1000
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m, s = divmod(s, 60)
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h, m = divmod(m, 60)
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_, h = divmod(h, 24)
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if us != 0:
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return pydt.time(h, m, s, msus).strftime(fmt)
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elif ms != 0:
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return pydt.time(h, m, s, msus).strftime(fmt)[:-3]
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elif s != 0:
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return pydt.time(h, m, s).strftime("%H:%M:%S")
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return pydt.time(h, m).strftime("%H:%M")
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# Period Conversion
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class PeriodConverter(dates.DateConverter):
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@staticmethod
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def convert(values, units, axis):
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if is_nested_list_like(values):
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values = [PeriodConverter._convert_1d(v, units, axis) for v in values]
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else:
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values = PeriodConverter._convert_1d(values, units, axis)
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return values
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@staticmethod
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def _convert_1d(values, units, axis):
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if not hasattr(axis, "freq"):
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raise TypeError("Axis must have `freq` set to convert to Periods")
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valid_types = (str, datetime, Period, pydt.date, pydt.time, np.datetime64)
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if isinstance(values, valid_types) or is_integer(values) or is_float(values):
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return get_datevalue(values, axis.freq)
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elif isinstance(values, PeriodIndex):
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return values.asfreq(axis.freq).asi8
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elif isinstance(values, Index):
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return values.map(lambda x: get_datevalue(x, axis.freq))
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elif lib.infer_dtype(values, skipna=False) == "period":
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# https://github.com/pandas-dev/pandas/issues/24304
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# convert ndarray[period] -> PeriodIndex
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return PeriodIndex(values, freq=axis.freq).asi8
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elif isinstance(values, (list, tuple, np.ndarray, Index)):
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return [get_datevalue(x, axis.freq) for x in values]
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return values
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def get_datevalue(date, freq):
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if isinstance(date, Period):
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return date.asfreq(freq).ordinal
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elif isinstance(date, (str, datetime, pydt.date, pydt.time, np.datetime64)):
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return Period(date, freq).ordinal
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elif (
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is_integer(date)
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or is_float(date)
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or (isinstance(date, (np.ndarray, Index)) and (date.size == 1))
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):
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return date
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elif date is None:
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return None
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raise ValueError(f"Unrecognizable date '{date}'")
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# Datetime Conversion
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class DatetimeConverter(dates.DateConverter):
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@staticmethod
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def convert(values, unit, axis):
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# values might be a 1-d array, or a list-like of arrays.
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if is_nested_list_like(values):
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values = [DatetimeConverter._convert_1d(v, unit, axis) for v in values]
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else:
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values = DatetimeConverter._convert_1d(values, unit, axis)
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return values
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@staticmethod
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def _convert_1d(values, unit, axis):
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def try_parse(values):
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try:
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return dates.date2num(tools.to_datetime(values))
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except Exception:
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return values
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if isinstance(values, (datetime, pydt.date, np.datetime64, pydt.time)):
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return dates.date2num(values)
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elif is_integer(values) or is_float(values):
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return values
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elif isinstance(values, str):
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return try_parse(values)
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elif isinstance(values, (list, tuple, np.ndarray, Index, Series)):
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if isinstance(values, Series):
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# https://github.com/matplotlib/matplotlib/issues/11391
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# Series was skipped. Convert to DatetimeIndex to get asi8
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values = Index(values)
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if isinstance(values, Index):
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values = values.values
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if not isinstance(values, np.ndarray):
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values = com.asarray_tuplesafe(values)
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if is_integer_dtype(values) or is_float_dtype(values):
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return values
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try:
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values = tools.to_datetime(values)
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except Exception:
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pass
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values = dates.date2num(values)
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return values
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@staticmethod
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def axisinfo(unit: Optional[tzinfo], axis) -> units.AxisInfo:
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"""
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Return the :class:`~matplotlib.units.AxisInfo` for *unit*.
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*unit* is a tzinfo instance or None.
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The *axis* argument is required but not used.
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"""
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tz = unit
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majloc = PandasAutoDateLocator(tz=tz)
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majfmt = PandasAutoDateFormatter(majloc, tz=tz)
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datemin = pydt.date(2000, 1, 1)
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datemax = pydt.date(2010, 1, 1)
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return units.AxisInfo(
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majloc=majloc, majfmt=majfmt, label="", default_limits=(datemin, datemax)
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)
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class PandasAutoDateFormatter(dates.AutoDateFormatter):
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def __init__(self, locator, tz=None, defaultfmt="%Y-%m-%d"):
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dates.AutoDateFormatter.__init__(self, locator, tz, defaultfmt)
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class PandasAutoDateLocator(dates.AutoDateLocator):
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def get_locator(self, dmin, dmax):
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"""Pick the best locator based on a distance."""
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delta = relativedelta(dmax, dmin)
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num_days = (delta.years * 12.0 + delta.months) * 31.0 + delta.days
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num_sec = (delta.hours * 60.0 + delta.minutes) * 60.0 + delta.seconds
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tot_sec = num_days * 86400.0 + num_sec
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if abs(tot_sec) < self.minticks:
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self._freq = -1
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locator = MilliSecondLocator(self.tz)
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locator.set_axis(self.axis)
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locator.set_view_interval(*self.axis.get_view_interval())
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locator.set_data_interval(*self.axis.get_data_interval())
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return locator
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return dates.AutoDateLocator.get_locator(self, dmin, dmax)
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def _get_unit(self):
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return MilliSecondLocator.get_unit_generic(self._freq)
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class MilliSecondLocator(dates.DateLocator):
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UNIT = 1.0 / (24 * 3600 * 1000)
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def __init__(self, tz):
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dates.DateLocator.__init__(self, tz)
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self._interval = 1.0
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def _get_unit(self):
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return self.get_unit_generic(-1)
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@staticmethod
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def get_unit_generic(freq):
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unit = dates.RRuleLocator.get_unit_generic(freq)
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if unit < 0:
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return MilliSecondLocator.UNIT
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return unit
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def __call__(self):
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# if no data have been set, this will tank with a ValueError
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try:
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dmin, dmax = self.viewlim_to_dt()
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except ValueError:
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return []
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# We need to cap at the endpoints of valid datetime
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nmax, nmin = dates.date2num((dmax, dmin))
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num = (nmax - nmin) * 86400 * 1000
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max_millis_ticks = 6
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for interval in [1, 10, 50, 100, 200, 500]:
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if num <= interval * (max_millis_ticks - 1):
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self._interval = interval
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break
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else:
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# We went through the whole loop without breaking, default to 1
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self._interval = 1000.0
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estimate = (nmax - nmin) / (self._get_unit() * self._get_interval())
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if estimate > self.MAXTICKS * 2:
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raise RuntimeError(
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"MillisecondLocator estimated to generate "
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f"{estimate:d} ticks from {dmin} to {dmax}: exceeds Locator.MAXTICKS"
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f"* 2 ({self.MAXTICKS * 2:d}) "
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)
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interval = self._get_interval()
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freq = f"{interval}L"
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tz = self.tz.tzname(None)
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st = dmin.replace(tzinfo=None)
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ed = dmin.replace(tzinfo=None)
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all_dates = date_range(start=st, end=ed, freq=freq, tz=tz).astype(object)
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try:
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if len(all_dates) > 0:
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locs = self.raise_if_exceeds(dates.date2num(all_dates))
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return locs
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except Exception: # pragma: no cover
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pass
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lims = dates.date2num([dmin, dmax])
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return lims
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def _get_interval(self):
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return self._interval
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def autoscale(self):
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"""
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Set the view limits to include the data range.
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"""
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# We need to cap at the endpoints of valid datetime
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dmin, dmax = self.datalim_to_dt()
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vmin = dates.date2num(dmin)
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vmax = dates.date2num(dmax)
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return self.nonsingular(vmin, vmax)
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def _from_ordinal(x, tz: Optional[tzinfo] = None) -> datetime:
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ix = int(x)
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dt = datetime.fromordinal(ix)
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remainder = float(x) - ix
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hour, remainder = divmod(24 * remainder, 1)
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minute, remainder = divmod(60 * remainder, 1)
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second, remainder = divmod(60 * remainder, 1)
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microsecond = int(1e6 * remainder)
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if microsecond < 10:
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microsecond = 0 # compensate for rounding errors
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dt = datetime(
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dt.year, dt.month, dt.day, int(hour), int(minute), int(second), microsecond
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)
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if tz is not None:
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dt = dt.astimezone(tz)
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if microsecond > 999990: # compensate for rounding errors
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dt += timedelta(microseconds=1e6 - microsecond)
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return dt
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# Fixed frequency dynamic tick locators and formatters
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# -------------------------------------------------------------------------
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# --- Locators ---
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# -------------------------------------------------------------------------
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def _get_default_annual_spacing(nyears) -> Tuple[int, int]:
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"""
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Returns a default spacing between consecutive ticks for annual data.
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"""
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if nyears < 11:
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(min_spacing, maj_spacing) = (1, 1)
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elif nyears < 20:
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(min_spacing, maj_spacing) = (1, 2)
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elif nyears < 50:
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(min_spacing, maj_spacing) = (1, 5)
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elif nyears < 100:
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(min_spacing, maj_spacing) = (5, 10)
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elif nyears < 200:
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(min_spacing, maj_spacing) = (5, 25)
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elif nyears < 600:
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(min_spacing, maj_spacing) = (10, 50)
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else:
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factor = nyears // 1000 + 1
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(min_spacing, maj_spacing) = (factor * 20, factor * 100)
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return (min_spacing, maj_spacing)
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def period_break(dates: PeriodIndex, period: str) -> np.ndarray:
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"""
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Returns the indices where the given period changes.
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Parameters
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----------
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dates : PeriodIndex
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Array of intervals to monitor.
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period : string
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Name of the period to monitor.
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"""
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current = getattr(dates, period)
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previous = getattr(dates - 1 * dates.freq, period)
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return np.nonzero(current - previous)[0]
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|
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def has_level_label(label_flags: np.ndarray, vmin: float) -> bool:
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"""
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|
Returns true if the ``label_flags`` indicate there is at least one label
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for this level.
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if the minimum view limit is not an exact integer, then the first tick
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label won't be shown, so we must adjust for that.
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"""
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if label_flags.size == 0 or (
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label_flags.size == 1 and label_flags[0] == 0 and vmin % 1 > 0.0
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):
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return False
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else:
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return True
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def _daily_finder(vmin, vmax, freq: BaseOffset):
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dtype_code = freq._period_dtype_code
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periodsperday = -1
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|
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if dtype_code >= FreqGroup.FR_HR:
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if dtype_code == FreqGroup.FR_NS:
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periodsperday = 24 * 60 * 60 * 1000000000
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elif dtype_code == FreqGroup.FR_US:
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periodsperday = 24 * 60 * 60 * 1000000
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elif dtype_code == FreqGroup.FR_MS:
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periodsperday = 24 * 60 * 60 * 1000
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elif dtype_code == FreqGroup.FR_SEC:
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periodsperday = 24 * 60 * 60
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elif dtype_code == FreqGroup.FR_MIN:
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periodsperday = 24 * 60
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elif dtype_code == FreqGroup.FR_HR:
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periodsperday = 24
|
|
else: # pragma: no cover
|
|
raise ValueError(f"unexpected frequency: {dtype_code}")
|
|
periodsperyear = 365 * periodsperday
|
|
periodspermonth = 28 * periodsperday
|
|
|
|
elif dtype_code == FreqGroup.FR_BUS:
|
|
periodsperyear = 261
|
|
periodspermonth = 19
|
|
elif dtype_code == FreqGroup.FR_DAY:
|
|
periodsperyear = 365
|
|
periodspermonth = 28
|
|
elif FreqGroup.get_freq_group(dtype_code) == FreqGroup.FR_WK:
|
|
periodsperyear = 52
|
|
periodspermonth = 3
|
|
else: # pragma: no cover
|
|
raise ValueError("unexpected frequency")
|
|
|
|
# save this for later usage
|
|
vmin_orig = vmin
|
|
|
|
(vmin, vmax) = (
|
|
Period(ordinal=int(vmin), freq=freq),
|
|
Period(ordinal=int(vmax), freq=freq),
|
|
)
|
|
span = vmax.ordinal - vmin.ordinal + 1
|
|
dates_ = period_range(start=vmin, end=vmax, freq=freq)
|
|
# Initialize the output
|
|
info = np.zeros(
|
|
span, dtype=[("val", np.int64), ("maj", bool), ("min", bool), ("fmt", "|S20")]
|
|
)
|
|
info["val"][:] = dates_.asi8
|
|
info["fmt"][:] = ""
|
|
info["maj"][[0, -1]] = True
|
|
# .. and set some shortcuts
|
|
info_maj = info["maj"]
|
|
info_min = info["min"]
|
|
info_fmt = info["fmt"]
|
|
|
|
def first_label(label_flags):
|
|
if (label_flags[0] == 0) and (label_flags.size > 1) and ((vmin_orig % 1) > 0.0):
|
|
return label_flags[1]
|
|
else:
|
|
return label_flags[0]
|
|
|
|
# Case 1. Less than a month
|
|
if span <= periodspermonth:
|
|
day_start = period_break(dates_, "day")
|
|
month_start = period_break(dates_, "month")
|
|
|
|
def _hour_finder(label_interval, force_year_start):
|
|
_hour = dates_.hour
|
|
_prev_hour = (dates_ - 1 * dates_.freq).hour
|
|
hour_start = (_hour - _prev_hour) != 0
|
|
info_maj[day_start] = True
|
|
info_min[hour_start & (_hour % label_interval == 0)] = True
|
|
year_start = period_break(dates_, "year")
|
|
info_fmt[hour_start & (_hour % label_interval == 0)] = "%H:%M"
|
|
info_fmt[day_start] = "%H:%M\n%d-%b"
|
|
info_fmt[year_start] = "%H:%M\n%d-%b\n%Y"
|
|
if force_year_start and not has_level_label(year_start, vmin_orig):
|
|
info_fmt[first_label(day_start)] = "%H:%M\n%d-%b\n%Y"
|
|
|
|
def _minute_finder(label_interval):
|
|
hour_start = period_break(dates_, "hour")
|
|
_minute = dates_.minute
|
|
_prev_minute = (dates_ - 1 * dates_.freq).minute
|
|
minute_start = (_minute - _prev_minute) != 0
|
|
info_maj[hour_start] = True
|
|
info_min[minute_start & (_minute % label_interval == 0)] = True
|
|
year_start = period_break(dates_, "year")
|
|
info_fmt = info["fmt"]
|
|
info_fmt[minute_start & (_minute % label_interval == 0)] = "%H:%M"
|
|
info_fmt[day_start] = "%H:%M\n%d-%b"
|
|
info_fmt[year_start] = "%H:%M\n%d-%b\n%Y"
|
|
|
|
def _second_finder(label_interval):
|
|
minute_start = period_break(dates_, "minute")
|
|
_second = dates_.second
|
|
_prev_second = (dates_ - 1 * dates_.freq).second
|
|
second_start = (_second - _prev_second) != 0
|
|
info["maj"][minute_start] = True
|
|
info["min"][second_start & (_second % label_interval == 0)] = True
|
|
year_start = period_break(dates_, "year")
|
|
info_fmt = info["fmt"]
|
|
info_fmt[second_start & (_second % label_interval == 0)] = "%H:%M:%S"
|
|
info_fmt[day_start] = "%H:%M:%S\n%d-%b"
|
|
info_fmt[year_start] = "%H:%M:%S\n%d-%b\n%Y"
|
|
|
|
if span < periodsperday / 12000.0:
|
|
_second_finder(1)
|
|
elif span < periodsperday / 6000.0:
|
|
_second_finder(2)
|
|
elif span < periodsperday / 2400.0:
|
|
_second_finder(5)
|
|
elif span < periodsperday / 1200.0:
|
|
_second_finder(10)
|
|
elif span < periodsperday / 800.0:
|
|
_second_finder(15)
|
|
elif span < periodsperday / 400.0:
|
|
_second_finder(30)
|
|
elif span < periodsperday / 150.0:
|
|
_minute_finder(1)
|
|
elif span < periodsperday / 70.0:
|
|
_minute_finder(2)
|
|
elif span < periodsperday / 24.0:
|
|
_minute_finder(5)
|
|
elif span < periodsperday / 12.0:
|
|
_minute_finder(15)
|
|
elif span < periodsperday / 6.0:
|
|
_minute_finder(30)
|
|
elif span < periodsperday / 2.5:
|
|
_hour_finder(1, False)
|
|
elif span < periodsperday / 1.5:
|
|
_hour_finder(2, False)
|
|
elif span < periodsperday * 1.25:
|
|
_hour_finder(3, False)
|
|
elif span < periodsperday * 2.5:
|
|
_hour_finder(6, True)
|
|
elif span < periodsperday * 4:
|
|
_hour_finder(12, True)
|
|
else:
|
|
info_maj[month_start] = True
|
|
info_min[day_start] = True
|
|
year_start = period_break(dates_, "year")
|
|
info_fmt = info["fmt"]
|
|
info_fmt[day_start] = "%d"
|
|
info_fmt[month_start] = "%d\n%b"
|
|
info_fmt[year_start] = "%d\n%b\n%Y"
|
|
if not has_level_label(year_start, vmin_orig):
|
|
if not has_level_label(month_start, vmin_orig):
|
|
info_fmt[first_label(day_start)] = "%d\n%b\n%Y"
|
|
else:
|
|
info_fmt[first_label(month_start)] = "%d\n%b\n%Y"
|
|
|
|
# Case 2. Less than three months
|
|
elif span <= periodsperyear // 4:
|
|
month_start = period_break(dates_, "month")
|
|
info_maj[month_start] = True
|
|
if dtype_code < FreqGroup.FR_HR:
|
|
info["min"] = True
|
|
else:
|
|
day_start = period_break(dates_, "day")
|
|
info["min"][day_start] = True
|
|
week_start = period_break(dates_, "week")
|
|
year_start = period_break(dates_, "year")
|
|
info_fmt[week_start] = "%d"
|
|
info_fmt[month_start] = "\n\n%b"
|
|
info_fmt[year_start] = "\n\n%b\n%Y"
|
|
if not has_level_label(year_start, vmin_orig):
|
|
if not has_level_label(month_start, vmin_orig):
|
|
info_fmt[first_label(week_start)] = "\n\n%b\n%Y"
|
|
else:
|
|
info_fmt[first_label(month_start)] = "\n\n%b\n%Y"
|
|
# Case 3. Less than 14 months ...............
|
|
elif span <= 1.15 * periodsperyear:
|
|
year_start = period_break(dates_, "year")
|
|
month_start = period_break(dates_, "month")
|
|
week_start = period_break(dates_, "week")
|
|
info_maj[month_start] = True
|
|
info_min[week_start] = True
|
|
info_min[year_start] = False
|
|
info_min[month_start] = False
|
|
info_fmt[month_start] = "%b"
|
|
info_fmt[year_start] = "%b\n%Y"
|
|
if not has_level_label(year_start, vmin_orig):
|
|
info_fmt[first_label(month_start)] = "%b\n%Y"
|
|
# Case 4. Less than 2.5 years ...............
|
|
elif span <= 2.5 * periodsperyear:
|
|
year_start = period_break(dates_, "year")
|
|
quarter_start = period_break(dates_, "quarter")
|
|
month_start = period_break(dates_, "month")
|
|
info_maj[quarter_start] = True
|
|
info_min[month_start] = True
|
|
info_fmt[quarter_start] = "%b"
|
|
info_fmt[year_start] = "%b\n%Y"
|
|
# Case 4. Less than 4 years .................
|
|
elif span <= 4 * periodsperyear:
|
|
year_start = period_break(dates_, "year")
|
|
month_start = period_break(dates_, "month")
|
|
info_maj[year_start] = True
|
|
info_min[month_start] = True
|
|
info_min[year_start] = False
|
|
|
|
month_break = dates_[month_start].month
|
|
jan_or_jul = month_start[(month_break == 1) | (month_break == 7)]
|
|
info_fmt[jan_or_jul] = "%b"
|
|
info_fmt[year_start] = "%b\n%Y"
|
|
# Case 5. Less than 11 years ................
|
|
elif span <= 11 * periodsperyear:
|
|
year_start = period_break(dates_, "year")
|
|
quarter_start = period_break(dates_, "quarter")
|
|
info_maj[year_start] = True
|
|
info_min[quarter_start] = True
|
|
info_min[year_start] = False
|
|
info_fmt[year_start] = "%Y"
|
|
# Case 6. More than 12 years ................
|
|
else:
|
|
year_start = period_break(dates_, "year")
|
|
year_break = dates_[year_start].year
|
|
nyears = span / periodsperyear
|
|
(min_anndef, maj_anndef) = _get_default_annual_spacing(nyears)
|
|
major_idx = year_start[(year_break % maj_anndef == 0)]
|
|
info_maj[major_idx] = True
|
|
minor_idx = year_start[(year_break % min_anndef == 0)]
|
|
info_min[minor_idx] = True
|
|
info_fmt[major_idx] = "%Y"
|
|
|
|
return info
|
|
|
|
|
|
def _monthly_finder(vmin, vmax, freq):
|
|
periodsperyear = 12
|
|
|
|
vmin_orig = vmin
|
|
(vmin, vmax) = (int(vmin), int(vmax))
|
|
span = vmax - vmin + 1
|
|
|
|
# Initialize the output
|
|
info = np.zeros(
|
|
span, dtype=[("val", int), ("maj", bool), ("min", bool), ("fmt", "|S8")]
|
|
)
|
|
info["val"] = np.arange(vmin, vmax + 1)
|
|
dates_ = info["val"]
|
|
info["fmt"] = ""
|
|
year_start = (dates_ % 12 == 0).nonzero()[0]
|
|
info_maj = info["maj"]
|
|
info_fmt = info["fmt"]
|
|
|
|
if span <= 1.15 * periodsperyear:
|
|
info_maj[year_start] = True
|
|
info["min"] = True
|
|
|
|
info_fmt[:] = "%b"
|
|
info_fmt[year_start] = "%b\n%Y"
|
|
|
|
if not has_level_label(year_start, vmin_orig):
|
|
if dates_.size > 1:
|
|
idx = 1
|
|
else:
|
|
idx = 0
|
|
info_fmt[idx] = "%b\n%Y"
|
|
|
|
elif span <= 2.5 * periodsperyear:
|
|
quarter_start = (dates_ % 3 == 0).nonzero()
|
|
info_maj[year_start] = True
|
|
# TODO: Check the following : is it really info['fmt'] ?
|
|
info["fmt"][quarter_start] = True
|
|
info["min"] = True
|
|
|
|
info_fmt[quarter_start] = "%b"
|
|
info_fmt[year_start] = "%b\n%Y"
|
|
|
|
elif span <= 4 * periodsperyear:
|
|
info_maj[year_start] = True
|
|
info["min"] = True
|
|
|
|
jan_or_jul = (dates_ % 12 == 0) | (dates_ % 12 == 6)
|
|
info_fmt[jan_or_jul] = "%b"
|
|
info_fmt[year_start] = "%b\n%Y"
|
|
|
|
elif span <= 11 * periodsperyear:
|
|
quarter_start = (dates_ % 3 == 0).nonzero()
|
|
info_maj[year_start] = True
|
|
info["min"][quarter_start] = True
|
|
|
|
info_fmt[year_start] = "%Y"
|
|
|
|
else:
|
|
nyears = span / periodsperyear
|
|
(min_anndef, maj_anndef) = _get_default_annual_spacing(nyears)
|
|
years = dates_[year_start] // 12 + 1
|
|
major_idx = year_start[(years % maj_anndef == 0)]
|
|
info_maj[major_idx] = True
|
|
info["min"][year_start[(years % min_anndef == 0)]] = True
|
|
|
|
info_fmt[major_idx] = "%Y"
|
|
|
|
return info
|
|
|
|
|
|
def _quarterly_finder(vmin, vmax, freq):
|
|
periodsperyear = 4
|
|
vmin_orig = vmin
|
|
(vmin, vmax) = (int(vmin), int(vmax))
|
|
span = vmax - vmin + 1
|
|
|
|
info = np.zeros(
|
|
span, dtype=[("val", int), ("maj", bool), ("min", bool), ("fmt", "|S8")]
|
|
)
|
|
info["val"] = np.arange(vmin, vmax + 1)
|
|
info["fmt"] = ""
|
|
dates_ = info["val"]
|
|
info_maj = info["maj"]
|
|
info_fmt = info["fmt"]
|
|
year_start = (dates_ % 4 == 0).nonzero()[0]
|
|
|
|
if span <= 3.5 * periodsperyear:
|
|
info_maj[year_start] = True
|
|
info["min"] = True
|
|
|
|
info_fmt[:] = "Q%q"
|
|
info_fmt[year_start] = "Q%q\n%F"
|
|
if not has_level_label(year_start, vmin_orig):
|
|
if dates_.size > 1:
|
|
idx = 1
|
|
else:
|
|
idx = 0
|
|
info_fmt[idx] = "Q%q\n%F"
|
|
|
|
elif span <= 11 * periodsperyear:
|
|
info_maj[year_start] = True
|
|
info["min"] = True
|
|
info_fmt[year_start] = "%F"
|
|
|
|
else:
|
|
years = dates_[year_start] // 4 + 1
|
|
nyears = span / periodsperyear
|
|
(min_anndef, maj_anndef) = _get_default_annual_spacing(nyears)
|
|
major_idx = year_start[(years % maj_anndef == 0)]
|
|
info_maj[major_idx] = True
|
|
info["min"][year_start[(years % min_anndef == 0)]] = True
|
|
info_fmt[major_idx] = "%F"
|
|
|
|
return info
|
|
|
|
|
|
def _annual_finder(vmin, vmax, freq):
|
|
(vmin, vmax) = (int(vmin), int(vmax + 1))
|
|
span = vmax - vmin + 1
|
|
|
|
info = np.zeros(
|
|
span, dtype=[("val", int), ("maj", bool), ("min", bool), ("fmt", "|S8")]
|
|
)
|
|
info["val"] = np.arange(vmin, vmax + 1)
|
|
info["fmt"] = ""
|
|
dates_ = info["val"]
|
|
|
|
(min_anndef, maj_anndef) = _get_default_annual_spacing(span)
|
|
major_idx = dates_ % maj_anndef == 0
|
|
info["maj"][major_idx] = True
|
|
info["min"][(dates_ % min_anndef == 0)] = True
|
|
info["fmt"][major_idx] = "%Y"
|
|
|
|
return info
|
|
|
|
|
|
def get_finder(freq: BaseOffset):
|
|
dtype_code = freq._period_dtype_code
|
|
fgroup = (dtype_code // 1000) * 1000
|
|
|
|
if fgroup == FreqGroup.FR_ANN:
|
|
return _annual_finder
|
|
elif fgroup == FreqGroup.FR_QTR:
|
|
return _quarterly_finder
|
|
elif dtype_code == FreqGroup.FR_MTH:
|
|
return _monthly_finder
|
|
elif (dtype_code >= FreqGroup.FR_BUS) or fgroup == FreqGroup.FR_WK:
|
|
return _daily_finder
|
|
else: # pragma: no cover
|
|
raise NotImplementedError(f"Unsupported frequency: {dtype_code}")
|
|
|
|
|
|
class TimeSeries_DateLocator(Locator):
|
|
"""
|
|
Locates the ticks along an axis controlled by a :class:`Series`.
|
|
|
|
Parameters
|
|
----------
|
|
freq : {var}
|
|
Valid frequency specifier.
|
|
minor_locator : {False, True}, optional
|
|
Whether the locator is for minor ticks (True) or not.
|
|
dynamic_mode : {True, False}, optional
|
|
Whether the locator should work in dynamic mode.
|
|
base : {int}, optional
|
|
quarter : {int}, optional
|
|
month : {int}, optional
|
|
day : {int}, optional
|
|
"""
|
|
|
|
def __init__(
|
|
self,
|
|
freq,
|
|
minor_locator=False,
|
|
dynamic_mode=True,
|
|
base=1,
|
|
quarter=1,
|
|
month=1,
|
|
day=1,
|
|
plot_obj=None,
|
|
):
|
|
freq = to_offset(freq)
|
|
self.freq = freq
|
|
self.base = base
|
|
(self.quarter, self.month, self.day) = (quarter, month, day)
|
|
self.isminor = minor_locator
|
|
self.isdynamic = dynamic_mode
|
|
self.offset = 0
|
|
self.plot_obj = plot_obj
|
|
self.finder = get_finder(freq)
|
|
|
|
def _get_default_locs(self, vmin, vmax):
|
|
"""Returns the default locations of ticks."""
|
|
if self.plot_obj.date_axis_info is None:
|
|
self.plot_obj.date_axis_info = self.finder(vmin, vmax, self.freq)
|
|
|
|
locator = self.plot_obj.date_axis_info
|
|
|
|
if self.isminor:
|
|
return np.compress(locator["min"], locator["val"])
|
|
return np.compress(locator["maj"], locator["val"])
|
|
|
|
def __call__(self):
|
|
"""Return the locations of the ticks."""
|
|
# axis calls Locator.set_axis inside set_m<xxxx>_formatter
|
|
|
|
vi = tuple(self.axis.get_view_interval())
|
|
if vi != self.plot_obj.view_interval:
|
|
self.plot_obj.date_axis_info = None
|
|
self.plot_obj.view_interval = vi
|
|
vmin, vmax = vi
|
|
if vmax < vmin:
|
|
vmin, vmax = vmax, vmin
|
|
if self.isdynamic:
|
|
locs = self._get_default_locs(vmin, vmax)
|
|
else: # pragma: no cover
|
|
base = self.base
|
|
(d, m) = divmod(vmin, base)
|
|
vmin = (d + 1) * base
|
|
locs = list(range(vmin, vmax + 1, base))
|
|
return locs
|
|
|
|
def autoscale(self):
|
|
"""
|
|
Sets the view limits to the nearest multiples of base that contain the
|
|
data.
|
|
"""
|
|
# requires matplotlib >= 0.98.0
|
|
(vmin, vmax) = self.axis.get_data_interval()
|
|
|
|
locs = self._get_default_locs(vmin, vmax)
|
|
(vmin, vmax) = locs[[0, -1]]
|
|
if vmin == vmax:
|
|
vmin -= 1
|
|
vmax += 1
|
|
return nonsingular(vmin, vmax)
|
|
|
|
|
|
# -------------------------------------------------------------------------
|
|
# --- Formatter ---
|
|
# -------------------------------------------------------------------------
|
|
|
|
|
|
class TimeSeries_DateFormatter(Formatter):
|
|
"""
|
|
Formats the ticks along an axis controlled by a :class:`PeriodIndex`.
|
|
|
|
Parameters
|
|
----------
|
|
freq : {int, string}
|
|
Valid frequency specifier.
|
|
minor_locator : bool, default False
|
|
Whether the current formatter should apply to minor ticks (True) or
|
|
major ticks (False).
|
|
dynamic_mode : bool, default True
|
|
Whether the formatter works in dynamic mode or not.
|
|
"""
|
|
|
|
def __init__(
|
|
self,
|
|
freq,
|
|
minor_locator: bool = False,
|
|
dynamic_mode: bool = True,
|
|
plot_obj=None,
|
|
):
|
|
freq = to_offset(freq)
|
|
self.format = None
|
|
self.freq = freq
|
|
self.locs: List[Any] = [] # unused, for matplotlib compat
|
|
self.formatdict: Optional[Dict[Any, Any]] = None
|
|
self.isminor = minor_locator
|
|
self.isdynamic = dynamic_mode
|
|
self.offset = 0
|
|
self.plot_obj = plot_obj
|
|
self.finder = get_finder(freq)
|
|
|
|
def _set_default_format(self, vmin, vmax):
|
|
"""Returns the default ticks spacing."""
|
|
if self.plot_obj.date_axis_info is None:
|
|
self.plot_obj.date_axis_info = self.finder(vmin, vmax, self.freq)
|
|
info = self.plot_obj.date_axis_info
|
|
|
|
if self.isminor:
|
|
format = np.compress(info["min"] & np.logical_not(info["maj"]), info)
|
|
else:
|
|
format = np.compress(info["maj"], info)
|
|
self.formatdict = {x: f for (x, _, _, f) in format}
|
|
return self.formatdict
|
|
|
|
def set_locs(self, locs):
|
|
"""Sets the locations of the ticks"""
|
|
# don't actually use the locs. This is just needed to work with
|
|
# matplotlib. Force to use vmin, vmax
|
|
|
|
self.locs = locs
|
|
|
|
(vmin, vmax) = vi = tuple(self.axis.get_view_interval())
|
|
if vi != self.plot_obj.view_interval:
|
|
self.plot_obj.date_axis_info = None
|
|
self.plot_obj.view_interval = vi
|
|
if vmax < vmin:
|
|
(vmin, vmax) = (vmax, vmin)
|
|
self._set_default_format(vmin, vmax)
|
|
|
|
def __call__(self, x, pos=0) -> str:
|
|
|
|
if self.formatdict is None:
|
|
return ""
|
|
else:
|
|
fmt = self.formatdict.pop(x, "")
|
|
if isinstance(fmt, np.bytes_):
|
|
fmt = fmt.decode("utf-8")
|
|
return Period(ordinal=int(x), freq=self.freq).strftime(fmt)
|
|
|
|
|
|
class TimeSeries_TimedeltaFormatter(Formatter):
|
|
"""
|
|
Formats the ticks along an axis controlled by a :class:`TimedeltaIndex`.
|
|
"""
|
|
|
|
@staticmethod
|
|
def format_timedelta_ticks(x, pos, n_decimals: int) -> str:
|
|
"""
|
|
Convert seconds to 'D days HH:MM:SS.F'
|
|
"""
|
|
s, ns = divmod(x, 1e9)
|
|
m, s = divmod(s, 60)
|
|
h, m = divmod(m, 60)
|
|
d, h = divmod(h, 24)
|
|
decimals = int(ns * 10 ** (n_decimals - 9))
|
|
s = f"{int(h):02d}:{int(m):02d}:{int(s):02d}"
|
|
if n_decimals > 0:
|
|
s += f".{decimals:0{n_decimals}d}"
|
|
if d != 0:
|
|
s = f"{int(d):d} days {s}"
|
|
return s
|
|
|
|
def __call__(self, x, pos=0) -> str:
|
|
(vmin, vmax) = tuple(self.axis.get_view_interval())
|
|
n_decimals = int(np.ceil(np.log10(100 * 1e9 / abs(vmax - vmin))))
|
|
if n_decimals > 9:
|
|
n_decimals = 9
|
|
return self.format_timedelta_ticks(x, pos, n_decimals)
|