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""" Fine-tune T5 on topic classification (multi-label multi-class classification) |
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``` |
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python finetune_t5.py --dataset-name ja --model-alias mt5-small-tweet-topic-ja --model-organization cardiffnlp --low-cpu-mem-usage |
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``` |
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""" |
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import json |
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import logging |
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import os |
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import argparse |
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import gc |
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from glob import glob |
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from typing import List, Set |
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from shutil import copyfile |
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from statistics import mean |
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from distutils.dir_util import copy_tree |
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|
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import torch |
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import transformers |
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from datasets import load_dataset |
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from transformers import Seq2SeqTrainer, Seq2SeqTrainingArguments, pipeline |
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from huggingface_hub import Repository |
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os.environ['TOKENIZERS_PARALLELISM'] = 'false' |
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os.environ['WANDB_DISABLED'] = 'true' |
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_LR = [1e-6, 1e-5, 1e-4] |
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_BATCH = 32 |
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_EPOCH = 5 |
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_CLASS_MAP = { |
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'Arts & Culture': ['Τέχνες & Πολιτισμός', 'Arte y cultura', 'アート&カルチャー'], |
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'Business & Entrepreneurs': ['Επιχειρήσεις & Επιχειρηματίες', 'Negocios y emprendedores', 'ビジネス'], |
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'Celebrity & Pop Culture': ['Διασημότητες & Ποπ κουλτούρα', 'Celebridades y cultura pop', '芸能'], |
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'Diaries & Daily Life': ['Ημερολόγια & Καθημερινή ζωή', 'Diarios y vida diaria', '日常'], |
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'Family': ['Οικογένεια', 'Familia', '家族'], |
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'Fashion & Style': ['Μόδα & Στυλ', 'Moda y estilo', 'ファッション'], |
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'Film, TV & Video': ['Ταινίες, τηλεόραση & βίντεο', 'Cine, televisión y video', '映画&ラジオ'], |
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'Fitness & Health': ['Γυμναστική & Υεία', 'Estado físico y salud', 'フィットネス&健康'], |
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'Food & Dining': ['Φαγητό & Δείπνο', 'Comida y comedor', '料理'], |
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'Learning & Educational': ['Μάθηση & Εκπαίδευση', 'Aprendizaje y educación', '教育関連'], |
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'News & Social Concern': ['Ειδήσεις & Κοινωνία', 'Noticias e interés social', '社会'], |
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'Relationships': ['Σχέσεις', 'Relaciones', '人間関係'], |
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'Science & Technology': ['Επιστήμη & Τεχνολογία', 'Ciencia y Tecnología', 'サイエンス'], |
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'Youth & Student Life': ['Νεανική & Φοιτητική ζωή', 'Juventud y Vida Estudiantil', '学校'], |
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'Music': ['Μουσική', 'Música', '音楽'], |
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'Gaming': ['Παιχνίδια', 'Juegos', 'ゲーム'], |
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'Sports': ['Αθλητισμός', 'Deportes', 'スポーツ'], |
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'Travel & Adventure': ['Ταξίδια & Περιπέτεια', 'Viajes y aventuras', '旅行'], |
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'Other Hobbies': ['Άλλα χόμπι', 'Otros pasatiempos', 'その他'] |
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} |
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def load_model( |
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model_name: str, |
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use_auth_token: bool = False, |
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low_cpu_mem_usage: bool = False) -> transformers.PreTrainedModel: |
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"""Load language model from huggingface model hub.""" |
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|
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config = transformers.AutoConfig.from_pretrained(model_name, use_auth_token=use_auth_token) |
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if config.model_type == 't5': |
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model_class = transformers.T5ForConditionalGeneration.from_pretrained |
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elif config.model_type == 'mt5': |
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model_class = transformers.MT5ForConditionalGeneration.from_pretrained |
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elif config.model_type == 'bart': |
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model_class = transformers.BartForConditionalGeneration.from_pretrained |
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elif config.model_type == 'mbart': |
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model_class = transformers.MBartForConditionalGeneration.from_pretrained |
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else: |
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raise ValueError(f'unsupported model type: {config.model_type}') |
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param = {'config': config, 'use_auth_token': use_auth_token, 'low_cpu_mem_usage': low_cpu_mem_usage} |
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return model_class(model_name, **param) |
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def train( |
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model_name: str, |
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model_low_cpu_mem_usage: bool, |
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dataset: str, |
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dataset_name: str, |
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dataset_column_label: str, |
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dataset_column_text: str, |
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random_seed: int, |
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use_auth_token: bool): |
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"""Fine-tune seq2seq model.""" |
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logging.info(f'[TRAIN]\n\t *LM: {model_name}, \n\t *Data: {dataset} ({dataset_name})') |
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output_dir = f'ckpt/{os.path.basename(model_name)}.{os.path.basename(dataset)}.{dataset_name}' |
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tokenizer = transformers.AutoTokenizer.from_pretrained(model_name, use_auth_token=use_auth_token) |
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dataset_instance = load_dataset(dataset, dataset_name, split="train", use_auth_token=use_auth_token) |
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tokenized_dataset = [] |
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for d in dataset_instance: |
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model_inputs = tokenizer(d[dataset_column_text], truncation=True) |
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model_inputs['labels'] = tokenizer(text_target=d[dataset_column_label], truncation=True)['input_ids'] |
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tokenized_dataset.append(model_inputs) |
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for n, lr_tmp in enumerate(_LR): |
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logging.info(f"[TRAIN {n}/{len(_LR)}] lr: {lr_tmp}") |
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output_dir_tmp = f"{output_dir}/model_lr_{lr_tmp}" |
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if os.path.exists(f"{output_dir_tmp}/pytorch_model.bin"): |
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continue |
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model = load_model( |
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model_name=model_name, use_auth_token=use_auth_token, low_cpu_mem_usage=model_low_cpu_mem_usage |
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) |
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trainer = Seq2SeqTrainer( |
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model=model, |
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args=Seq2SeqTrainingArguments( |
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num_train_epochs=_EPOCH, |
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learning_rate=lr_tmp, |
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output_dir=output_dir_tmp, |
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save_strategy="epoch", |
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evaluation_strategy="no", |
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seed=random_seed, |
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per_device_train_batch_size=_BATCH, |
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), |
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data_collator=transformers.DataCollatorForSeq2Seq(tokenizer, model=model), |
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train_dataset=tokenized_dataset.copy(), |
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) |
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trainer.train() |
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del trainer |
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del model |
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gc.collect() |
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torch.cuda.empty_cache() |
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for model_path in glob(f"{output_dir}/*/*"): |
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tokenizer.save_pretrained(model_path) |
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def get_f1_score(references: List[Set[str]], predictions: List[Set[str]]) -> float: |
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scores = [] |
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for g, r in zip(references, predictions): |
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tp = len(set(g).intersection(set(r))) |
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fp = len([_g for _g in g if _g not in r]) |
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fn = len([_r for _r in r if _r not in g]) |
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f1 = 0 if tp == 0 else 2 * tp / (2 * tp + fp + fn) |
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scores.append(f1) |
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return mean(scores) |
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def unify_label(label: Set[str]): |
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new_label = [] |
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for label_tmp in label: |
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label_en = [k for k, v in _CLASS_MAP.items() if label_tmp in v] |
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if label_en: |
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new_label.append(label_en[0]) |
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return set(new_label) |
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def get_metric( |
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prediction_file: str, |
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metric_file: str, |
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model_path: str, |
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data: List[str], |
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label: List[str]) -> float: |
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if os.path.exists(metric_file): |
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with open(metric_file) as f: |
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eval_metric = json.load(f) |
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return eval_metric['f1'] |
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if not os.path.exists(prediction_file): |
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pipe = pipeline( |
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'text2text-generation', |
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model=model_path, |
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device='cuda:0' if torch.cuda.is_available() else 'cpu', |
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) |
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output = pipe(data, batch_size=_BATCH) |
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output = [i['generated_text'] for i in output] |
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with open(prediction_file, 'w') as f: |
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f.write('\n'.join(output)) |
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with open(prediction_file) as f: |
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output = [unify_label(set(i.split(','))) for i in f.read().split('\n')] |
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label = [unify_label(set(i.split(','))) for i in label] |
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eval_metric = {'f1': get_f1_score(label, output)} |
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logging.info(json.dumps(eval_metric, indent=4)) |
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with open(metric_file, 'w') as f: |
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json.dump(eval_metric, f) |
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return eval_metric['f1'] |
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def validate( |
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model_name: str, |
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dataset: str, |
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dataset_name: str, |
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dataset_column_text: str, |
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use_auth_token: bool, |
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dataset_column_label: str): |
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logging.info(f'[VALIDATE]\n\t *LM: {model_name}, \n\t *Data: {dataset} ({dataset_name})') |
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output_dir = f'ckpt/{os.path.basename(model_name)}.{os.path.basename(dataset)}.{dataset_name}' |
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dataset_instance = load_dataset(dataset, dataset_name, split='validation', use_auth_token=use_auth_token) |
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label = [i[dataset_column_label] for i in dataset_instance] |
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data = [i[dataset_column_text] for i in dataset_instance] |
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model_score = [] |
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for model_path in glob(f"{output_dir}/*/*/pytorch_model.bin"): |
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model_path = os.path.dirname(model_path) |
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prediction_file = f"{model_path}/prediction.validate.{os.path.basename(dataset)}.{dataset_name}.txt" |
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metric_file = f"{model_path}/metric.validate.{os.path.basename(dataset)}.{dataset_name}.json" |
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metric = get_metric( |
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prediction_file=prediction_file, |
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metric_file=metric_file, |
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model_path=model_path, |
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label=label, |
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data=data |
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) |
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model_score.append([model_path, metric]) |
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model_score = sorted(model_score, key=lambda x: x[1]) |
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logging.info('Validation Result') |
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for k, v in model_score: |
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logging.info(f'{k}: {v}') |
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best_model = model_score[-1][0] |
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best_model_path = f'{output_dir}/best_model' |
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copy_tree(best_model, best_model_path) |
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def test( |
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model_name: str, |
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dataset: str, |
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dataset_name: str, |
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dataset_column_text: str, |
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use_auth_token: bool, |
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dataset_column_label: str): |
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logging.info(f'[TEST]\n\t *LM: {model_name}, \n\t *Data: {dataset} ({dataset_name})') |
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output_dir = f'ckpt/{os.path.basename(model_name)}.{os.path.basename(dataset)}.{dataset_name}' |
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dataset_instance = load_dataset(dataset, dataset_name, split='test', use_auth_token=use_auth_token) |
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label = [i[dataset_column_label] for i in dataset_instance] |
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data = [i[dataset_column_text] for i in dataset_instance] |
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model_path = f'{output_dir}/best_model' |
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if not os.path.exists(model_path): |
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model_path = os.path.basename(model_name) |
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prediction_file = f"{model_path}/prediction.{os.path.basename(dataset)}.{dataset_name}.txt" |
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metric_file = f"{model_path}/metric.{os.path.basename(dataset)}.{dataset_name}.json" |
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metric = get_metric( |
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prediction_file=prediction_file, |
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metric_file=metric_file, |
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model_path=model_path, |
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label=label, |
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data=data |
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) |
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logging.info(f'Test Result: {metric}') |
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def upload( |
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model_name: str, |
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dataset: str, |
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dataset_name: str, |
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dataset_column_text: str, |
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use_auth_token: bool, |
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model_alias: str, |
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model_organization: str): |
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assert model_alias is not None and model_organization is not None,\ |
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'model_organization must be specified when model_alias is specified' |
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logging.info('uploading to huggingface') |
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output_dir = f'ckpt/{os.path.basename(model_name)}.{os.path.basename(dataset)}.{dataset_name}' |
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args = {'use_auth_token': use_auth_token, 'organization': model_organization} |
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model_path = f'{output_dir}/best_model' |
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if not os.path.exists(model_path): |
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model_path = os.path.basename(model_name) |
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model = load_model(model_name=model_path) |
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tokenizer = transformers.AutoTokenizer.from_pretrained(model_name, use_auth_token=use_auth_token) |
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model.push_to_hub(model_alias, **args) |
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tokenizer.push_to_hub(model_alias, **args) |
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repo = Repository(model_alias, f'{model_organization}/{model_alias}') |
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for i in glob(f'{model_path}/*'): |
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if not os.path.exists(f'{model_alias}/{os.path.basename(i)}'): |
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copyfile(i, f'{model_alias}/{os.path.basename(i)}') |
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dataset_instance = load_dataset(dataset, dataset_name, split='validation', use_auth_token=use_auth_token) |
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sample = [i[dataset_column_text] for i in dataset_instance] |
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sample = [i for i in sample if "'" not in i and '"' not in i][:3] |
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widget = '\n'.join([f"- text: '{t}'\n example_title: example {_n + 1}" for _n, t in enumerate(sample)]) |
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with open(f'{model_alias}/README.md', 'w') as f: |
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f.write(f""" |
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--- |
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widget: |
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{widget} |
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--- |
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|
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# {model_organization}/{model_alias} |
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This is [{model_name}](https://huggingface.co/{model_name}) fine-tuned on [{dataset} ({dataset_name})](https://huggingface.co/datasets/{dataset}). |
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### Usage |
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|
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```python |
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from transformers import pipeline |
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|
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pipe = pipeline('text2text-generation', model='{model_organization}/{model_alias}') |
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output = pipe('{sample[0]}') |
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``` |
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""") |
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repo.push_to_hub() |
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if __name__ == '__main__': |
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|
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logging.basicConfig(format='%(asctime)s %(levelname)-8s %(message)s', level=logging.INFO, datefmt='%Y-%m-%d %H:%M:%S') |
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parser = argparse.ArgumentParser(description='Seq2Seq LM Fine-tuning on topic classification.') |
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parser.add_argument('-m', '--model-name', default='google/mt5-small', type=str) |
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parser.add_argument('--low-cpu-mem-usage', action='store_true') |
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parser.add_argument('-d', '--dataset', default='cardiffnlp/tweet_topic_multilingual', type=str) |
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parser.add_argument('--dataset-name', default='ja', type=str) |
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parser.add_argument('--dataset-column-label', default='label_name_flatten', type=str) |
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parser.add_argument('--dataset-column-text', default='text', type=str) |
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parser.add_argument('--random-seed', default=42, type=int) |
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parser.add_argument('--use-auth-token', action='store_true') |
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parser.add_argument('--model-alias', default=None, type=str) |
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parser.add_argument('--model-organization', default=None, type=str) |
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parser.add_argument('--skip-train', action='store_true') |
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parser.add_argument('--skip-validate', action='store_true') |
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parser.add_argument('--skip-test', action='store_true') |
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parser.add_argument('--skip-upload', action='store_true') |
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opt = parser.parse_args() |
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|
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if not opt.skip_train: |
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train( |
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model_name=opt.model_name, |
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model_low_cpu_mem_usage=opt.low_cpu_mem_usage, |
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dataset=opt.dataset, |
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dataset_name=opt.dataset_name, |
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dataset_column_label=opt.dataset_column_label, |
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dataset_column_text=opt.dataset_column_text, |
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random_seed=opt.random_seed, |
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use_auth_token=opt.use_auth_token, |
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) |
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if not opt.skip_validate: |
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validate( |
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model_name=opt.model_name, |
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dataset=opt.dataset, |
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dataset_name=opt.dataset_name, |
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dataset_column_label=opt.dataset_column_label, |
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dataset_column_text=opt.dataset_column_text, |
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use_auth_token=opt.use_auth_token |
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) |
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if not opt.skip_test: |
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test( |
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model_name=opt.model_name, |
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dataset=opt.dataset, |
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dataset_name=opt.dataset_name, |
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dataset_column_label=opt.dataset_column_label, |
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dataset_column_text=opt.dataset_column_text, |
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use_auth_token=opt.use_auth_token |
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) |
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if not opt.skip_upload: |
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upload( |
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model_name=opt.model_name, |
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dataset=opt.dataset, |
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dataset_name=opt.dataset_name, |
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dataset_column_text=opt.dataset_column_text, |
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use_auth_token=opt.use_auth_token, |
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model_alias=opt.model_alias, |
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model_organization=opt.model_organization |
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) |
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