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# %%
import torch
# GPUが使用可能か判断
if torch.cuda.is_available():
print('gpu is available')
else:
raise Exception('gpu is NOT available')
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
device
# %%
from datasets import load_dataset, DatasetDict
from transformers import AutoTokenizer
from transformers import AutoModelForSequenceClassification
from transformers import TrainingArguments
from transformers import Trainer
from sklearn.metrics import accuracy_score, f1_score
import numpy as np
import pandas as pd
import torch
import random
# %%
from transformers.trainer_utils import set_seed
# 乱数シードを42に固定
set_seed(42)
# %%
from pprint import pprint
from datasets import load_dataset
# Hugging Face Hub上のllm-book/wrime-sentimentのリポジトリから
# データを読み込む
train_dataset = load_dataset("tyqiangz/multilingual-sentiments", "japanese", split="train")
valid_dataset = load_dataset("tyqiangz/multilingual-sentiments", "japanese", split="validation")
# pprintで見やすく表示する
pprint(train_dataset)
pprint(valid_dataset)
# %%
train_dataset[0]
# %%
# トークナイザのロード
model_name = "cl-tohoku/bert-base-japanese-whole-word-masking"
tokenizer = AutoTokenizer.from_pretrained(model_name)
# %%
# トークナイズ関数
# text列をトークナイズ
# label列をlabels列にセット
def preprocess_text(batch):
encoded_batch = tokenizer(batch['text'], max_length=512)
encoded_batch['labels'] = batch['label']
return encoded_batch
# %%
# トークナイズ処理(既存の列は削除)
encoded_train_dataset = train_dataset.map(
preprocess_text,
remove_columns=train_dataset.column_names,
)
encoded_valid_dataset = valid_dataset.map(
preprocess_text,
remove_columns=valid_dataset.column_names,
)
# %%
# ミニバッチ構築
from transformers import DataCollatorWithPadding
data_collator = DataCollatorWithPadding(tokenizer=tokenizer)
# %%
# モデルの準備
from transformers import AutoModelForSequenceClassification
class_label = train_dataset.features["label"]
label2id = {label: id for id, label in enumerate(class_label.names)}
id2label = {id: label for id, label in enumerate(class_label.names)}
model = AutoModelForSequenceClassification.from_pretrained(
model_name,
num_labels=class_label.num_classes,
label2id=label2id, # ラベル名からIDへの対応を指定
id2label=id2label, # IDからラベル名への対応を指定
)
print(type(model).__name__)
# %%
# メトリクスの定義
def compute_metrics(pred):
labels = pred.label_ids
preds = pred.predictions.argmax(-1)
f1 = f1_score(labels, preds, average="weighted")
acc = accuracy_score(labels, preds)
return {"accuracy": acc, "f1": f1}
# %%
# epoch: 100, early stopping
# 訓練の実行
from transformers import TrainingArguments
# 保存ディレクトリ
save_dir = f'bert-finetuned-multilingual-sentiments-base'
training_args = TrainingArguments(
output_dir=save_dir, # 結果の保存フォルダ
per_device_train_batch_size=32, # 訓練時のバッチサイズ
per_device_eval_batch_size=32, # 評価時のバッチサイズ
learning_rate=2e-5, # 学習率
lr_scheduler_type="constant", # 学習率スケジューラの種類
warmup_ratio=0.1, # 学習率のウォームアップの長さを指定
num_train_epochs=100, # エポック数
save_strategy="epoch", # チェックポイントの保存タイミング
logging_strategy="epoch", # ロギングのタイミング
evaluation_strategy="epoch", # 検証セットによる評価のタイミング
load_best_model_at_end=True, # 訓練後に開発セットで最良のモデルをロード
metric_for_best_model="eval_loss", # 最良のモデルを決定する評価指標
greater_is_better=False, # eval_lossは小さいほどよい
fp16=True, # 自動混合精度演算の有効化
)
# %%
from transformers import Trainer
from transformers import EarlyStoppingCallback
trainer = Trainer(
model=model,
train_dataset=encoded_train_dataset,
eval_dataset=encoded_valid_dataset,
data_collator=data_collator,
args=training_args,
compute_metrics=compute_metrics,
callbacks=[EarlyStoppingCallback(early_stopping_patience=3)],
)
trainer.train()
# %%
# モデルの保存
trainer.save_model(save_dir)
tokenizer.save_pretrained(save_dir)
# 履歴の保存
history_df = pd.DataFrame(trainer.state.log_history)
history_df.to_csv('base_line/mullingual_baseline_history.csv')
# %%
import matplotlib.pyplot as plt
def show_graph(df, suptitle, output='output.png'):
suptitle_size = 23
graph_title_size = 20
legend_size = 18
ticks_size = 13
# 学習曲線
plt.figure(figsize=(20, 5))
plt.suptitle(suptitle, fontsize=suptitle_size)
# Train Loss
plt.subplot(131)
plt.title('Train Loss', fontsize=graph_title_size)
plt.plot(df['loss'].dropna(), label='train')
plt.legend(fontsize=legend_size)
plt.yticks(fontsize=ticks_size)
# Validation Loss
plt.subplot(132)
plt.title(f'Val Loss', fontsize=graph_title_size)
y = df['eval_loss'].dropna().values
x = np.arange(len(y)).reshape(-1, 1)
plt.plot(y, color='tab:orange', label='val')
plt.legend(fontsize=legend_size)
plt.yticks(fontsize=ticks_size)
# Accuracy/F1
plt.subplot(133)
plt.title('eval Accuracy/F1', fontsize=graph_title_size)
plt.plot(df['eval_accuracy'].dropna(), label='accuracy')
plt.plot(df['eval_f1'].dropna(), label='F1')
plt.legend(fontsize=legend_size)
plt.yticks(fontsize=ticks_size)
plt.tight_layout()
# plt.show()
plt.savefig(output)
# %%
# 結果を表示
suptitle = 'batch:32, lr:2e-5, type:constant'
show_graph(history_df, suptitle, 'base_line/mullingual_baseline_output.png')
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