"""Rolling Origin Cross Validation for time series problems."""
from sklearn.model_selection import TimeSeriesSplit as SkTimeSeriesSplit
from sklearn.model_selection._split import BaseCrossValidator
[docs]class TimeSeriesSplit(BaseCrossValidator):
"""Rolling Origin Cross Validation for time series problems.
This class uses max_delay and gap values to take into account that evalml time series pipelines perform
some feature and target engineering, e.g delaying input features and shifting the target variable by the
desired amount. If the data that will be split already has all the features and appropriate target values, and
then set max_delay and gap to 0.
Args:
max_delay (int): Max delay value for feature engineering. Time series pipelines create delayed features
from existing features. This process will introduce NaNs into the first max_delay number of rows. The
splitter uses the last max_delay number of rows from the previous split as the first max_delay number
of rows of the current split to avoid "throwing out" more data than in necessary. Defaults to 0.
gap (int): Gap used in time series problem. Time series pipelines shift the target variable by gap rows. Defaults to 0.
date_index (str): Name of the column containing the datetime information used to order the data. Defaults to None.
n_splits (int): number of data splits to make. Defaults to 3.
"""
def __init__(self, max_delay=0, gap=0, date_index=None, n_splits=3):
self.max_delay = max_delay
self.gap = gap
self.date_index = date_index
self.n_splits = n_splits
self._splitter = SkTimeSeriesSplit(n_splits=n_splits)
[docs] def get_n_splits(self, X=None, y=None, groups=None):
"""Get the number of data splits.
Args:
X (pd.DataFrame, None): Features to split.
y (pd.DataFrame, None): Target variable to split. Defaults to None.
groups: Ignored but kept for compatibility with sklearn API. Defaults to None.
Returns:
Number of splits.
"""
return self._splitter.n_splits
@staticmethod
def _check_if_empty(data):
return data is None or data.empty
[docs] def split(self, X, y=None, groups=None):
"""Get the time series splits.
X and y are assumed to be sorted in ascending time order.
This method can handle passing in empty or None X and y data but note that X and y cannot be None or empty
at the same time.
Args:
X (pd.DataFrame, None): Features to split.
y (pd.DataFrame, None): Target variable to split. Defaults to None.
groups: Ignored but kept for compatibility with sklearn API. Defaults to None.
Yields:
Iterator of (train, test) indices tuples.
Raises:
ValueError: If one of the proposed splits would be empty.
"""
# Sklearn splitters always assume a valid X is passed but we need to support the
# TimeSeriesPipeline convention of being able to pass in empty X dataframes
# We'll do this by passing X=y if X is empty
if self._check_if_empty(X) and self._check_if_empty(y):
raise ValueError(
"Both X and y cannot be None or empty in TimeSeriesSplit.split"
)
elif self._check_if_empty(X) and not self._check_if_empty(y):
split_kwargs = dict(X=y, groups=groups)
max_index = y.shape[0]
else:
split_kwargs = dict(X=X, y=y, groups=groups)
max_index = X.shape[0]
split_size = max_index // self.n_splits
if split_size < self.gap + self.max_delay:
raise ValueError(
f"Since the data has {max_index} observations and n_splits={self.n_splits}, "
f"the smallest split would have {split_size} observations. "
f"Since {self.gap + self.max_delay} (gap + max_delay) > {split_size}, "
"then at least one of the splits would be empty by the time it reaches the pipeline. "
"Please use a smaller number of splits or collect more data."
)
for train, test in self._splitter.split(**split_kwargs):
yield train, test