from evalml.pipelines.components.transformers import Transformer
from evalml.utils import _put_into_original_order, infer_feature_types
def _extract_year(col, encode_as_categories=False):
return col.dt.year, None
_month_to_int_mapping = {
"January": 0,
"February": 1,
"March": 2,
"April": 3,
"May": 4,
"June": 5,
"July": 6,
"August": 7,
"September": 8,
"October": 9,
"November": 10,
"December": 11,
}
def _extract_month(col, encode_as_categories=False):
months = col.dt.month_name()
months_unique = months.unique()
months_encoded = months.map(lambda m: _month_to_int_mapping[m])
if encode_as_categories:
months_encoded = months_encoded.astype("category")
return months_encoded, {m: _month_to_int_mapping[m] for m in months_unique}
_day_to_int_mapping = {
"Sunday": 0,
"Monday": 1,
"Tuesday": 2,
"Wednesday": 3,
"Thursday": 4,
"Friday": 5,
"Saturday": 6,
}
def _extract_day_of_week(col, encode_as_categories=False):
days = col.dt.day_name()
days_unique = days.unique()
days_encoded = days.map(lambda d: _day_to_int_mapping[d])
if encode_as_categories:
days_encoded = days_encoded.astype("category")
return days_encoded, {d: _day_to_int_mapping[d] for d in days_unique}
def _extract_hour(col, encode_as_categories=False):
return col.dt.hour, None
[docs]class DateTimeFeaturizer(Transformer):
"""
Transformer that can automatically extract features from datetime columns.
Arguments:
features_to_extract (list): List of features to extract. Valid options include "year", "month", "day_of_week", "hour". Defaults to None.
encode_as_categories (bool): Whether day-of-week and month features should be encoded as pandas "category" dtype.
This allows OneHotEncoders to encode these features. Defaults to False.
date_index (str): Name of the column containing the datetime information used to order the data. Ignored.
random_seed (int): Seed for the random number generator. Defaults to 0.
"""
name = "DateTime Featurization Component"
hyperparameter_ranges = {}
"""{}"""
_function_mappings = {
"year": _extract_year,
"month": _extract_month,
"day_of_week": _extract_day_of_week,
"hour": _extract_hour,
}
def __init__(
self,
features_to_extract=None,
encode_as_categories=False,
date_index=None,
random_seed=0,
**kwargs,
):
if features_to_extract is None:
features_to_extract = ["year", "month", "day_of_week", "hour"]
invalid_features = set(features_to_extract) - set(
self._function_mappings.keys()
)
if len(invalid_features) > 0:
raise ValueError(
"{} are not valid options for features_to_extract".format(
", ".join([f"'{feature}'" for feature in invalid_features])
)
)
parameters = {
"features_to_extract": features_to_extract,
"encode_as_categories": encode_as_categories,
"date_index": date_index,
}
parameters.update(kwargs)
self._date_time_col_names = None
self._categories = {}
self.encode_as_categories = encode_as_categories
super().__init__(
parameters=parameters, component_obj=None, random_seed=random_seed
)
[docs] def fit(self, X, y=None):
X = infer_feature_types(X)
date_cols = list(X.ww.select("datetime", return_schema=True).columns)
self._date_time_col_names = _put_into_original_order(X, date_cols)
return self
[docs] def get_feature_names(self):
"""Gets the categories of each datetime feature.
Returns:
Dictionary, where each key-value pair is a column name and a dictionary
mapping the unique feature values to their integer encoding.
"""
return self._categories
def _get_feature_provenance(self):
provenance = {}
for col_name in self._date_time_col_names:
provenance[col_name] = []
for feature in self.parameters["features_to_extract"]:
provenance[col_name].append(f"{col_name}_{feature}")
return provenance