mirror of
https://github.com/louisleroy5/trnslator.git
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238 lines
6.3 KiB
Python
238 lines
6.3 KiB
Python
import matplotlib.pyplot as plt
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from pandas import DataFrame, Series, DatetimeIndex
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from translater import EnergySeries, settings
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from translater.energyseries import plot_energyseries_map, save_and_show
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class EnergyDataFrame(DataFrame):
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"""An EnergyDataFrame object is a pandas.DataFrame that has energy related
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data. In addition to the standard DataFrame constructor arguments,
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EnergyDataFrame also accepts the following keyword arguments:
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"""
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_metadata = [
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"profile_type",
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"base_year",
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"frequency",
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"units",
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"sort_values",
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"to_units",
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]
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def __init__(self, *args, **kwargs):
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from_units = kwargs.pop("units", None)
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super(EnergyDataFrame, self).__init__(*args, **kwargs)
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self.from_units = from_units
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if from_units is not None:
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self.set_unit(from_units, inplace=True)
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def set_unit(self, from_unit, inplace):
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ureg = settings.unit_registry
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if inplace:
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frame = self
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else:
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frame = self.copy()
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self.from_units = ureg.parse_expression(from_unit)
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if not inplace:
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return frame
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def plot2d(self, **kwargs):
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return plot_energydataframe_map(self, **kwargs)
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@property
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def _constructor(self):
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return EnergyDataFrame
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@property
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def nseries(self):
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if self._data.ndim == 1:
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return 1
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else:
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return self._data.shape[0]
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def __getitem__(self, key):
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"""
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return an EnergySeries or an EnergyDataFrame with propagated metadata.
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"""
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result = super(EnergyDataFrame, self).__getitem__(key)
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if isinstance(result, Series):
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result.__class__ = EnergySeries
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elif isinstance(result, DataFrame):
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result.__class__ = EnergyDataFrame
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return result.__finalize__(self)
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def stack(self, level=-1, dropna=True):
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from pandas.core.reshape.reshape import stack, stack_multiple
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if isinstance(level, (tuple, list)):
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result = stack_multiple(self, level, dropna=dropna)
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return result.__finalize__(self)
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else:
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result = stack(self, level, dropna=dropna)
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return result.__finalize__(self)
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def discretize_tsam(
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self,
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resolution=None,
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noTypicalPeriods=10,
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hoursPerPeriod=24,
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clusterMethod="hierarchical",
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evalSumPeriods=False,
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sortValues=False,
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sameMean=False,
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rescaleClusterPeriods=True,
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weightDict=None,
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extremePeriodMethod="None",
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solver="glpk",
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roundOutput=None,
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addPeakMin=None,
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addPeakMax=None,
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addMeanMin=None,
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addMeanMax=None,
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):
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"""uses tsam"""
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try:
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import tsam.timeseriesaggregation as tsam
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except ImportError:
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raise ImportError("tsam is required for discretize_tsam()")
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if not isinstance(self.index, DatetimeIndex):
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raise TypeError("To use tsam, index of series must be a " "DateTimeIndex")
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timeSeries = self.copy()
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agg = tsam.TimeSeriesAggregation(
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timeSeries,
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resolution=resolution,
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noTypicalPeriods=noTypicalPeriods,
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hoursPerPeriod=hoursPerPeriod,
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clusterMethod=clusterMethod,
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evalSumPeriods=evalSumPeriods,
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sortValues=sortValues,
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sameMean=sameMean,
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rescaleClusterPeriods=rescaleClusterPeriods,
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weightDict=weightDict,
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extremePeriodMethod=extremePeriodMethod,
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solver=solver,
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roundOutput=roundOutput,
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addPeakMin=addPeakMin,
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addPeakMax=addPeakMax,
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addMeanMin=addMeanMin,
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addMeanMax=addMeanMax,
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)
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agg.createTypicalPeriods()
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results = agg.predictOriginalData()
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results = EnergyDataFrame(results)
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results.__dict__["agg"] = agg
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return results.__finalize__(self)
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def plot_energydataframe_map(
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data,
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periodlength=24,
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subplots=False,
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vmin=None,
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vmax=None,
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axis_off=True,
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cmap="RdBu",
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fig_height=None,
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fig_width=6,
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show=True,
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view_angle=-60,
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save=False,
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close=False,
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dpi=300,
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file_format="png",
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color=None,
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ax=None,
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filename="untitled",
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extent="tight",
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sharex=True,
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sharey=True,
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layout=None,
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layout_type="vertical",
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**kwargs
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):
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if fig_height is None:
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fig_height = fig_width / 3
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figsize = (fig_width, fig_height)
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nseries = data.nseries
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fig, axes = _setup_subplots(
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subplots, nseries, sharex, sharey, figsize, ax, layout, layout_type
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)
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cols = data.columns
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for ax, col in zip(axes, cols):
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plot_energyseries_map(
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data[col],
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periodlength=periodlength,
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subplots=subplots,
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vmin=vmin,
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vmax=vmax,
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axis_off=axis_off,
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cmap=cmap,
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fig_height=fig_height,
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fig_width=fig_width,
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show=False,
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save=False,
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close=False,
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dpi=dpi,
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file_format=file_format,
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color=color,
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ax=ax,
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filename=filename,
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extent=extent,
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sharex=sharex,
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sharey=sharey,
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layout=layout,
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layout_type=layout_type,
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**kwargs
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)
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fig, axes = save_and_show(
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fig, axes, save, show, close, filename, file_format, dpi, axis_off, extent
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)
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return fig, axes
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def _setup_subplots(
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subplots,
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nseries,
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sharex=False,
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sharey=False,
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figsize=None,
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ax=None,
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layout=None,
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layout_type="vertical",
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):
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"""prepares the subplots"""
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from pandas.plotting._tools import _subplots, _flatten
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if subplots:
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fig, axes = _subplots(
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naxes=nseries,
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sharex=sharex,
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sharey=sharey,
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figsize=figsize,
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ax=ax,
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layout=layout,
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layout_type=layout_type,
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)
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else:
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if ax is None:
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fig = plt.figure(figsize=figsize)
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axes = fig.add_subplot(111)
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else:
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fig = ax.get_figure()
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if figsize is not None:
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fig.set_size_inches(figsize)
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axes = ax
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axes = _flatten(axes)
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return fig, axes
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