Source code for retentioneering.preprocessing_graph.nodes
from __future__ import annotations
import uuid
from typing import Any, Optional, Type, Union
from retentioneering.data_processor import DataProcessor
from retentioneering.data_processor.registry import dataprocessor_registry
from retentioneering.eventstream.types import EventstreamType
from retentioneering.params_model.registry import params_model_registry
class BaseNode:
processor: Optional[DataProcessor]
events: Optional[EventstreamType]
pk: str
description: Optional[str]
def __init__(self, **kwargs: Any) -> None:
self.pk = str(uuid.uuid4())
def __str__(self) -> str:
data = {"name": self.__class__.__name__, "pk": self.pk}
return str(data)
__repr__ = __str__
def export(self) -> dict:
data: dict[str, Any] = {"name": self.__class__.__name__, "pk": self.pk}
if self.description:
data["description"] = self.description
if processor := getattr(self, "processor", None):
data["processor"] = processor.to_dict()
return data
def copy(self) -> BaseNode:
return BaseNode()
class SourceNode(BaseNode):
events: EventstreamType
description: Optional[str]
def __init__(self, source: EventstreamType, description: Optional[str] = None) -> None:
super().__init__()
self.events = source
self.description = description
def __copy__(self) -> SourceNode:
return SourceNode(
source=self.events.copy(),
description=self.description,
)
def copy(self) -> SourceNode:
return self.__copy__()
[docs]class EventsNode(BaseNode):
"""
Class for regular nodes of a PreprocessingGraph.
Notes
-----
See :doc:`Preprocessing user guide</user_guides/preprocessing>` for the details.
See Also
--------
.PreprocessingGraph.add_node : Add a node to PreprocessingGraph.
.PreprocessingGraph.combine : Run calculations of PreprocessingGraph.
.MergeNode : Merging nodes of a PreprocessingGraph.
"""
processor: DataProcessor
events: Optional[EventstreamType]
description: Optional[str]
def __init__(self, processor: DataProcessor, description: Optional[str] = None) -> None:
super().__init__()
self.processor = processor
self.events = None
self.description = description
def __copy__(self) -> EventsNode:
return EventsNode(
processor=self.processor.copy(),
description=self.description,
)
def copy(self) -> EventsNode:
return self.__copy__()
[docs]class MergeNode(BaseNode):
"""
Class for merging nodes of a PreprocessingGraph.
Notes
-----
See :doc:`Preprocessing user guide</user_guides/preprocessing>` for the details.
See Also
--------
.PreprocessingGraph.add_node : Add a node to PreprocessingGraph.
.PreprocessingGraph.combine : Run calculations of PreprocessingGraph.
.EventsNode : Regular nodes of a PreprocessingGraph.
"""
events: Optional[EventstreamType]
description: Optional[str]
def __init__(self, description: Optional[str] = None) -> None:
super().__init__()
self.events = None
self.description = description
def __copy__(self) -> MergeNode:
return MergeNode(
description=self.description,
)
def copy(self) -> MergeNode:
return self.__copy__()
Node = Union[SourceNode, EventsNode, MergeNode]
nodes = {
"MergeNode": MergeNode,
"EventsNode": EventsNode,
"SourceNode": SourceNode,
}
class NotFoundDataprocessor(Exception):
pass
def build_node(
source_stream: EventstreamType,
pk: str,
node_name: str,
processor_name: str | None = None,
processor_params: dict[str, Any] | None = None,
descriptionn: Optional[str] = None,
) -> Node:
_node = nodes[node_name]
node_kwargs = {}
if node_name == "SourceNode":
node_kwargs["source"] = source_stream
if not processor_params:
processor_params = {}
if processor_name and node_name == "EventsNode":
_params_model_registry = params_model_registry.get_registry()
_dataprocessor_registry = dataprocessor_registry.get_registry()
_processor: Type[DataProcessor] = _dataprocessor_registry[processor_name] # type: ignore
params_name = _processor.__annotations__["params"]
_params_model = _params_model_registry[params_name] if type(params_name) is str else params_name
params_model = _params_model(**processor_params)
processor: DataProcessor = _processor(params=params_model)
node_kwargs["processor"] = processor # type: ignore
node = _node(**node_kwargs)
node.pk = pk
node.description = descriptionn
return node