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xp_oracle_retriever_list.py
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import os, copy
from typing import List, Literal, Optional
from sacred import Experiment
from sacred.commands import print_config
from sacred.run import Run
from sacred.observers import FileStorageObserver, TelegramObserver
from sacred.utils import apply_backspaces_and_linefeeds
import numpy as np
from conivel.datas.dekker import DekkerDataset
from conivel.datas.context import (
IdealNeuralContextRetriever,
context_retriever_name_to_class,
CombinedContextRetriever,
)
from conivel.predict import predict
from conivel.score import score_ner
from conivel.train import train_ner_model
from conivel.utils import (
RunLogScope,
sacred_archive_huggingface_model,
sacred_log_series,
gpu_memory_usage,
pretrained_bert_for_token_classification,
)
script_dir = os.path.abspath(os.path.dirname(__file__))
ex = Experiment()
ex.captured_out_filter = apply_backspaces_and_linefeeds # type: ignore
ex.observers.append(FileStorageObserver("runs"))
if os.path.isfile(f"{script_dir}/telegram_observer_config.json"):
ex.observers.append(
TelegramObserver.from_config(f"{script_dir}/telegram_observer_config.json")
)
@ex.config
def config():
# -- datas parameters
# number of folds
k: int = 5
# seed to use when folds shuffling. If ``None``, no shuffling is
# performed.
shuffle_kfolds_seed: Optional[int] = None
# -- common parameters
batch_size: int
# wether models should be saved or not
save_models: bool = True
# number of experiment repeats
runs_nb: int = 5
# -- retrieval heuristic
retrievers_names: list
# -- NER training parameters
# list of number of sents to test
sents_nb_list: list
# number of epochs for NER training
ner_epochs_nb: int = 2
# learning rate for NER training
ner_lr: float = 2e-5
@ex.automain
def main(
_run: Run,
k: int,
shuffle_kfolds_seed: Optional[int],
batch_size: int,
save_models: bool,
runs_nb: int,
retrievers_names: List[str],
sents_nb_list: List[int],
ner_epochs_nb: int,
ner_lr: float,
):
print_config(_run)
dekker_dataset = DekkerDataset()
kfolds = dekker_dataset.kfolds(
k, shuffle=not shuffle_kfolds_seed is None, shuffle_seed=shuffle_kfolds_seed
)
# metrics matrices
# each matrix is of shape (runs_nb, k, sents_nb)
# these are used to record mean metrics across folds, runs...
precision_matrix = np.zeros((runs_nb, k, len(sents_nb_list)))
recall_matrix = np.zeros((runs_nb, k, len(sents_nb_list)))
f1_matrix = np.zeros((runs_nb, k, len(sents_nb_list)))
metrics_matrices = [
("precision", precision_matrix),
("recall", recall_matrix),
("f1", f1_matrix),
]
for run_i in range(runs_nb):
for fold_i, (train_set, test_set) in enumerate(kfolds):
# PERFORMANCE HACK: only use the retrieval heuristic at
# training time. At training time, the number of sentences
# retrieved is random between ``min(sents_nb_list)`` and
# ``max(sents_nb_list)`` for each example.
retrievers = [
context_retriever_name_to_class[name](sents_nb_list)
for name in retrievers_names
]
combined_retrievers = CombinedContextRetriever(sents_nb_list, retrievers)
ctx_train_set = combined_retrievers(train_set)
# train ner model on train_set
ner_model = pretrained_bert_for_token_classification(
"bert-base-cased", train_set.tag_to_id
)
with RunLogScope(_run, f"run{run_i}.fold{fold_i}.ner"):
ner_model = train_ner_model(
ner_model,
ctx_train_set,
ctx_train_set,
_run=_run,
epochs_nb=ner_epochs_nb,
batch_size=batch_size,
learning_rate=ner_lr,
)
if save_models:
sacred_archive_huggingface_model(_run, ner_model, "ner_model") # type: ignore
neural_context_retriever = IdealNeuralContextRetriever(
1,
CombinedContextRetriever(1, retrievers),
ner_model,
batch_size,
dekker_dataset.tags,
)
for sents_nb_i, sents_nb in enumerate(sents_nb_list):
_run.log_scalar("gpu_usage", gpu_memory_usage())
neural_context_retriever.preliminary_ctx_selector.sents_nb = (
sents_nb * len(retrievers)
)
neural_context_retriever.sents_nb = sents_nb
ctx_test_set = neural_context_retriever(test_set)
test_preds = predict(ner_model, ctx_test_set).tags
precision, recall, f1 = score_ner(test_set.sents(), test_preds)
_run.log_scalar(
f"run{run_i}.fold{fold_i}.test_precision", precision, step=sents_nb
)
precision_matrix[run_i][fold_i][sents_nb_i] = precision
_run.log_scalar(
f"run{run_i}.fold{fold_i}.test_recall", recall, step=sents_nb
)
recall_matrix[run_i][fold_i][sents_nb_i] = recall
_run.log_scalar(f"run{run_i}.fold{fold_i}.test_f1", f1, step=sents_nb)
f1_matrix[run_i][fold_i][sents_nb_i] = f1
# mean metrics for the current run
for metrics_name, matrix in metrics_matrices:
for op_name, op in [("mean", np.mean), ("stdev", np.std)]:
sacred_log_series(
_run,
f"run{run_i}.{op_name}_test_{metrics_name}",
op(matrix[run_i], axis=0), # (sents_nb_list)
steps=sents_nb_list,
)
# folds mean metrics
for fold_i in range(k):
for metrics_name, matrix in metrics_matrices:
for op_name, op in [("mean", np.mean), ("stdev", np.std)]:
sacred_log_series(
_run,
f"fold{fold_i}.{op_name}_test_{metrics_name}",
op(matrix[:, fold_i, :], axis=0), # (sents_nb_list)
steps=sents_nb_list,
)
# global mean metrics
for name, matrix in metrics_matrices:
for op_name, op in [("mean", np.mean), ("stdev", np.std)]:
sacred_log_series(
_run,
f"{op_name}_test_{name}",
op(matrix, axis=(0, 1)), # (sents_nb)
steps=sents_nb_list,
)