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xarray.CFTimeIndex.value_counts

xarray.CFTimeIndex.value_counts#

CFTimeIndex.value_counts(normalize=False, sort=True, ascending=False, bins=None, dropna=True)[source]#

Return a Series containing counts of unique values.

The resulting object will be in descending order so that the first element is the most frequently-occurring element. Excludes NA values by default.

Parameters:
  • normalize (bool, default False) – If True then the object returned will contain the relative frequencies of the unique values.

  • sort (bool, default True) – Sort by frequencies when True. Preserve the order of the data when False.

  • ascending (bool, default False) – Sort in ascending order.

  • bins (int, optional) – Rather than count values, group them into half-open bins, a convenience for pd.cut, only works with numeric data.

  • dropna (bool, default True) – Don’t include counts of NaN.

Returns:

Series

See also

Series.count

Number of non-NA elements in a Series.

DataFrame.count

Number of non-NA elements in a DataFrame.

DataFrame.value_counts

Equivalent method on DataFrames.

Examples

>>> index = pd.Index([3, 1, 2, 3, 4, np.nan])
>>> index.value_counts()
3.0    2
1.0    1
2.0    1
4.0    1
Name: count, dtype: int64

With normalize set to True, returns the relative frequency by dividing all values by the sum of values.

>>> s = pd.Series([3, 1, 2, 3, 4, np.nan])
>>> s.value_counts(normalize=True)
3.0    0.4
1.0    0.2
2.0    0.2
4.0    0.2
Name: proportion, dtype: float64

bins

Bins can be useful for going from a continuous variable to a categorical variable; instead of counting unique apparitions of values, divide the index in the specified number of half-open bins.

>>> s.value_counts(bins=3)
(0.996, 2.0]    2
(2.0, 3.0]      2
(3.0, 4.0]      1
Name: count, dtype: int64

dropna

With dropna set to False we can also see NaN index values.

>>> s.value_counts(dropna=False)
3.0    2
1.0    1
2.0    1
4.0    1
NaN    1
Name: count, dtype: int64