Source code for retentioneering.eventstream.helpers.label_cropped_paths_helper
from __future__ import annotations
from typing import Optional, Tuple
from retentioneering.backend.tracker import (
collect_data_performance,
time_performance,
track,
)
from retentioneering.constants import DATETIME_UNITS
from retentioneering.utils.doc_substitution import docstrings
from ..types import EventstreamType
class LabelCroppedPathsHelperMixin:
[docs] @docstrings.with_indent(12)
@time_performance(
scope="label_cropped_paths",
event_name="helper",
event_value="combine",
)
def label_cropped_paths(
self: EventstreamType,
left_cutoff: Optional[Tuple[float, DATETIME_UNITS]],
right_cutoff: Optional[Tuple[float, DATETIME_UNITS]],
) -> EventstreamType:
"""
A method of ``Eventstream`` class that creates new synthetic event(s) for each user based
on the timeout threshold: ``cropped_left`` and ``cropped_right``.
Parameters
----------
%(LabelCroppedPaths.parameters)s
Returns
-------
Eventstream
Input ``eventstream`` with new synthetic events.
"""
calling_params = {
"left_cutoff": left_cutoff,
"right_cutoff": right_cutoff,
}
not_hash_values = ["left_cutoff", "right_cutoff"]
# avoid circular import
from retentioneering.data_processors_lib import (
LabelCroppedPaths,
LabelCroppedPathsParams,
)
from retentioneering.preprocessing_graph import PreprocessingGraph
from retentioneering.preprocessing_graph.nodes import EventsNode
p = PreprocessingGraph(source_stream=self) # type: ignore
params = dict(left_cutoff=left_cutoff, right_cutoff=right_cutoff)
node = EventsNode(processor=LabelCroppedPaths(params=LabelCroppedPathsParams(**params))) # type: ignore
p.add_node(node=node, parents=[p.root])
result = p.combine(node)
del p
collect_data_performance(
scope="label_cropped_paths",
event_name="metadata",
called_params=calling_params,
not_hash_values=not_hash_values,
performance_data={},
eventstream_index=self._eventstream_index,
parent_eventstream_index=self._eventstream_index,
child_eventstream_index=result._eventstream_index,
)
return result