embiggen/embedders/pykeen_embedders/crosse.py
"""Submodule providing wrapper for PyKEEN's CrossE model."""
from typing import Union, Type, Dict, Any, Optional
from pykeen.training import TrainingLoop
from pykeen.models import CrossE
from embiggen.embedders.pykeen_embedders.entity_relation_embedding_model_pykeen import EntityRelationEmbeddingModelPyKEEN
from pykeen.triples import CoreTriplesFactory
class CrossEPyKEEN(EntityRelationEmbeddingModelPyKEEN):
def __init__(
self,
embedding_size: int = 256,
combination_dropout: float = 0.0,
epochs: int = 100,
batch_size: int = 2**10,
training_loop: Union[str, Type[TrainingLoop]
] = "Stochastic Local Closed World Assumption",
verbose: bool = False,
random_state: int = 42,
ring_bell: bool = False,
enable_cache: bool = False
):
"""Create new PyKEEN CrossE model.
Details
-------------------------
This is a wrapper of the CrossE implementation from the
PyKEEN library. Please refer to the PyKEEN library documentation
for details and posssible errors regarding this model.
Parameters
-------------------------
embedding_size: int = 256
The dimension of the embedding to compute.
combination_dropout: float = 0.0
The hidden dropout rate
epochs: int = 100
The number of epochs to use to train the model for.
batch_size: int = 2**10
Size of the training batch.
device: str = "auto"
The devide to use to train the model.
Can either be cpu or cuda.
training_loop: Union[str, Type[TrainingLoop]
] = "Stochastic Local Closed World Assumption"
The training loop to use to train the model.
Can either be:
- Stochastic Local Closed World Assumption
- Local Closed World Assumption
verbose: bool = False
Whether to show loading bars.
random_state: int = 42
Random seed to use while training the model
ring_bell: bool = False,
Whether to play a sound when embedding completes.
enable_cache: bool = False
Whether to enable the cache, that is to
store the computed embedding.
"""
self._combination_dropout = combination_dropout
super().__init__(
embedding_size=embedding_size,
epochs=epochs,
batch_size=batch_size,
training_loop=training_loop,
verbose=verbose,
random_state=random_state,
ring_bell=ring_bell,
enable_cache=enable_cache
)
def parameters(self) -> Dict[str, Any]:
return dict(
**super().parameters(),
**dict(
combination_dropout=self._combination_dropout,
)
)
@classmethod
def model_name(cls) -> str:
"""Return name of the model."""
return "CrossE"
def _build_model(
self,
triples_factory: CoreTriplesFactory
) -> CrossE:
"""Build new CrossE model for embedding.
Parameters
------------------
graph: Graph
The graph to build the model for.
"""
return CrossE(
triples_factory=triples_factory,
embedding_dim=self._embedding_size,
combination_dropout=self._combination_dropout,
random_seed=self._random_state
)