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import numpy as np
import torch
import torch.nn as nn
import string
from sklearn.model_selection import StratifiedKFold
from torch.utils.data import DataLoader, RandomSampler, SequentialSampler, TensorDataset
from run_classifier_dataset_utils import (
convert_examples_to_two_features,
convert_examples_to_features,
convert_two_examples_to_features,
)
def load_train_data(args, logger, processor, task_name, label_list, tokenizer, output_mode, k=None):
# Prepare data loader
if task_name == "vua":
train_examples = processor.get_train_examples(args.data_dir)
elif task_name == "trofi":
train_examples = processor.get_train_examples(args.data_dir, k)
else:
raise ("task_name should be 'vua' or 'trofi'!")
import pdb; pdb.set_trace()
print(args.model_type, args.max_data_num)
# make features file
if args.model_type == "BERT_BASE":
train_features = convert_two_examples_to_features(
train_examples, label_list, args.max_seq_length, tokenizer, output_mode
)
if args.model_type in ["BERT_SEQ", "MELBERT_SPV"]:
train_features = convert_examples_to_features(
train_examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
train_features = convert_examples_to_two_features(
train_examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
# make features into tensor
all_input_ids = torch.tensor([f.input_ids for f in train_features], dtype=torch.long)
all_input_mask = torch.tensor([f.input_mask for f in train_features], dtype=torch.long)
all_segment_ids = torch.tensor([f.segment_ids for f in train_features], dtype=torch.long)
all_label_ids = torch.tensor([f.label_id for f in train_features], dtype=torch.long)
# add additional features for MELBERT_MIP and MELBERT
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
all_input_ids_2 = torch.tensor([f.input_ids_2 for f in train_features], dtype=torch.long)
all_input_mask_2 = torch.tensor([f.input_mask_2 for f in train_features], dtype=torch.long)
all_segment_ids_2 = torch.tensor(
[f.segment_ids_2 for f in train_features], dtype=torch.long
)
train_data = TensorDataset(
all_input_ids,
all_input_mask,
all_segment_ids,
all_label_ids,
all_input_ids_2,
all_input_mask_2,
all_segment_ids_2,
)
else:
train_data = TensorDataset(all_input_ids, all_input_mask, all_segment_ids, all_label_ids)
train_sampler = RandomSampler(train_data)
train_dataloader = DataLoader(
train_data, sampler=train_sampler, batch_size=args.train_batch_size
)
return train_dataloader
def load_train_data_kf(
args, logger, processor, task_name, label_list, tokenizer, output_mode, k=None
):
# Prepare data loader
if task_name == "vua":
train_examples = processor.get_train_examples(args.data_dir)
elif task_name == "trofi":
train_examples = processor.get_train_examples(args.data_dir, k)
else:
raise ("task_name should be 'vua' or 'trofi'!")
# make features file
if args.model_type == "BERT_BASE":
train_features = convert_two_examples_to_features(
train_examples, label_list, args.max_seq_length, tokenizer, output_mode
)
if args.model_type in ["BERT_SEQ", "MELBERT_SPV"]:
train_features = convert_examples_to_features(
train_examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
train_features = convert_examples_to_two_features(
train_examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
# make features into tensor
all_input_ids = torch.tensor([f.input_ids for f in train_features], dtype=torch.long)
all_input_mask = torch.tensor([f.input_mask for f in train_features], dtype=torch.long)
all_segment_ids = torch.tensor([f.segment_ids for f in train_features], dtype=torch.long)
all_label_ids = torch.tensor([f.label_id for f in train_features], dtype=torch.long)
# add additional features for MELBERT_MIP and MELBERT
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
all_input_ids_2 = torch.tensor([f.input_ids_2 for f in train_features], dtype=torch.long)
all_input_mask_2 = torch.tensor([f.input_mask_2 for f in train_features], dtype=torch.long)
all_segment_ids_2 = torch.tensor(
[f.segment_ids_2 for f in train_features], dtype=torch.long
)
train_data = TensorDataset(
all_input_ids,
all_input_mask,
all_segment_ids,
all_label_ids,
all_input_ids_2,
all_input_mask_2,
all_segment_ids_2,
)
else:
train_data = TensorDataset(all_input_ids, all_input_mask, all_segment_ids, all_label_ids)
gkf = StratifiedKFold(n_splits=args.num_bagging).split(X=all_input_ids, y=all_label_ids.numpy())
return train_data, gkf
def load_test_data(args, logger, processor, task_name, label_list, tokenizer, output_mode, k=None):
if task_name == "vua":
eval_examples = processor.get_test_examples(args.data_dir)
elif task_name == "trofi":
eval_examples = processor.get_test_examples(args.data_dir, k)
else:
raise ("task_name should be 'vua' or 'trofi'!")
import pdb; pdb.set_trace()
eval_examples = eval_examples[14185:14216]
if args.model_type == "BERT_BASE":
eval_features = convert_two_examples_to_features(
eval_examples, label_list, args.max_seq_length, tokenizer, output_mode
)
if args.model_type in ["BERT_SEQ", "MELBERT_SPV"]:
eval_features = convert_examples_to_features(
eval_examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
eval_features = convert_examples_to_two_features(
eval_examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
import pdb; pdb.set_trace()
logger.info("***** Running evaluation *****")
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
all_input_ids = torch.tensor([f.input_ids for f in eval_features], dtype=torch.long)
all_input_mask = torch.tensor([f.input_mask for f in eval_features], dtype=torch.long)
all_segment_ids = torch.tensor([f.segment_ids for f in eval_features], dtype=torch.long)
all_guids = [f.guid for f in eval_features]
all_idx = torch.tensor([i for i in range(len(eval_features))], dtype=torch.long)
all_label_ids = torch.tensor([f.label_id for f in eval_features], dtype=torch.long)
all_input_ids_2 = torch.tensor([f.input_ids_2 for f in eval_features], dtype=torch.long)
all_input_mask_2 = torch.tensor([f.input_mask_2 for f in eval_features], dtype=torch.long)
all_segment_ids_2 = torch.tensor([f.segment_ids_2 for f in eval_features], dtype=torch.long)
eval_data = TensorDataset(
all_input_ids,
all_input_mask,
all_segment_ids,
all_label_ids,
all_idx,
all_input_ids_2,
all_input_mask_2,
all_segment_ids_2,
)
else:
all_input_ids = torch.tensor([f.input_ids for f in eval_features], dtype=torch.long)
all_input_mask = torch.tensor([f.input_mask for f in eval_features], dtype=torch.long)
all_segment_ids = torch.tensor([f.segment_ids for f in eval_features], dtype=torch.long)
all_guids = [f.guid for f in eval_features]
all_idx = torch.tensor([i for i in range(len(eval_features))], dtype=torch.long)
all_label_ids = torch.tensor([f.label_id for f in eval_features], dtype=torch.long)
eval_data = TensorDataset(
all_input_ids, all_input_mask, all_segment_ids, all_label_ids, all_idx
)
# Run prediction for full data
eval_sampler = SequentialSampler(eval_data)
eval_dataloader = DataLoader(eval_data, sampler=eval_sampler, batch_size=args.eval_batch_size)
return all_guids, eval_dataloader
from run_classifier_dataset_utils import InputExample
def load_sentence_data(args, sentence, label_list, tokenizer, output_mode, ):
#tokens = tokenizer.tokenize(sentence)
#print('tokens:', tokens)
examples = []
example_idxs = []
for index, token in enumerate(sentence.split()):
if token not in string.punctuation:
examples.append(
InputExample(
guid='', text_a=sentence, text_b=str(index), label='0', POS='', FGPOS=''
)
)
print('[', index, token, ']', end=', ')
example_idxs.append(index)
eval_features = convert_examples_to_two_features(
examples, label_list, args.max_seq_length, tokenizer, output_mode, args
)
if args.model_type in ["MELBERT_MIP", "MELBERT"]:
all_input_ids = torch.tensor([f.input_ids for f in eval_features], dtype=torch.long)
all_input_mask = torch.tensor([f.input_mask for f in eval_features], dtype=torch.long)
all_segment_ids = torch.tensor([f.segment_ids for f in eval_features], dtype=torch.long)
all_guids = [f.guid for f in eval_features]
all_idx = torch.tensor(example_idxs, dtype=torch.long)
all_label_ids = torch.tensor([f.label_id for f in eval_features], dtype=torch.long)
all_input_ids_2 = torch.tensor([f.input_ids_2 for f in eval_features], dtype=torch.long)
all_input_mask_2 = torch.tensor([f.input_mask_2 for f in eval_features], dtype=torch.long)
all_segment_ids_2 = torch.tensor([f.segment_ids_2 for f in eval_features], dtype=torch.long)
eval_data = (
all_input_ids,
all_input_mask,
all_segment_ids,
all_label_ids,
all_idx,
all_input_ids_2,
all_input_mask_2,
all_segment_ids_2,
)
else:
all_input_ids = torch.tensor([f.input_ids for f in eval_features], dtype=torch.long)
all_input_mask = torch.tensor([f.input_mask for f in eval_features], dtype=torch.long)
all_segment_ids = torch.tensor([f.segment_ids for f in eval_features], dtype=torch.long)
all_guids = [f.guid for f in eval_features]
all_idx = torch.tensor(example_idxs, dtype=torch.long)
all_label_ids = torch.tensor([f.label_id for f in eval_features], dtype=torch.long)
eval_data = (
all_input_ids, all_input_mask, all_segment_ids, all_label_ids, all_idx
)
return eval_data |