update data loader of matching

6 years ago · e0b23b16db
--- a/fastNLP/io/file_utils.py
+++ b/fastNLP/io/file_utils.py
@@ -10,6 +10,37 @@ import shutil
 import hashlib
 PRETRAINED_BERT_MODEL_DIR = {
    'en': 'bert-base-cased-f89bfe08.zip',
    'en-base-uncased': 'bert-base-uncased-3413b23c.zip',
    'en-base-cased': 'bert-base-cased-f89bfe08.zip',
    'en-large-uncased': 'bert-large-uncased-20939f45.zip',
    'en-large-cased': 'bert-large-cased-e0cf90fc.zip',
    'cn': 'bert-base-chinese-29d0a84a.zip',
    'cn-base': 'bert-base-chinese-29d0a84a.zip',
    'multilingual': 'bert-base-multilingual-cased-1bd364ee.zip',
    'multilingual-base-uncased': 'bert-base-multilingual-uncased-f8730fe4.zip',
    'multilingual-base-cased': 'bert-base-multilingual-cased-1bd364ee.zip',
 }
 PRETRAINED_ELMO_MODEL_DIR = {
    'en': 'elmo_en-d39843fe.tar.gz',
    'cn': 'elmo_cn-5e9b34e2.tar.gz'
 }
 PRETRAIN_STATIC_FILES = {
    'en': 'glove.840B.300d-cc1ad5e1.tar.gz',
    'en-glove-840b-300': 'glove.840B.300d-cc1ad5e1.tar.gz',
    'en-glove-6b-50': "glove.6B.50d-a6028c70.tar.gz",
    'en-word2vec-300': "GoogleNews-vectors-negative300-be166d9d.tar.gz",
    'en-fasttext': "cc.en.300.vec-d53187b2.gz",
    'cn': "tencent_cn-dab24577.tar.gz",
    'cn-fasttext': "cc.zh.300.vec-d68a9bcf.gz",
 }
 def cached_path(url_or_filename: str, cache_dir: Path=None) -> Path:
    """
        给定一个url或者文件名(可以是具体的文件名，也可以是文件)，先在cache_dir下寻找该文件是否存在，如果不存在则去下载, 并
--- a/fastNLP/modules/encoder/embedding.py
+++ b/fastNLP/modules/encoder/embedding.py
@@ -26,6 +26,7 @@ from ...core.dataset import DataSet
 from ...core.batch import DataSetIter
 from ...core.sampler import SequentialSampler
 from ...core.utils import _move_model_to_device, _get_model_device
 from ...io.file_utils import PRETRAINED_BERT_MODEL_DIR, PRETRAINED_ELMO_MODEL_DIR, PRETRAIN_STATIC_FILES
 class Embedding(nn.Module):
@@ -187,15 +188,6 @@ class StaticEmbedding(TokenEmbedding):
        super(StaticEmbedding, self).__init__(vocab)
        # 优先定义需要下载的static embedding有哪些。这里估计需要自己搞一个server，
        PRETRAIN_STATIC_FILES = {
            'en': 'glove.840B.300d-cc1ad5e1.tar.gz',
            'en-glove-840b-300': 'glove.840B.300d-cc1ad5e1.tar.gz',
            'en-glove-6b-50': "glove.6B.50d-a6028c70.tar.gz",
            'en-word2vec-300': "GoogleNews-vectors-negative300-be166d9d.tar.gz",
            'en-fasttext': "cc.en.300.vec-d53187b2.gz",
            'cn': "tencent_cn-dab24577.tar.gz",
            'cn-fasttext': "cc.zh.300.vec-d68a9bcf.gz",
        }
        # 得到cache_path
        if model_dir_or_name.lower() in PRETRAIN_STATIC_FILES:
@@ -231,7 +223,7 @@ class StaticEmbedding(TokenEmbedding):
        :return:
        """
        requires_grads = set([param.requires_grad for name, param in self.named_parameters()
                                if 'words_to_words' not in name])
                              if 'words_to_words' not in name])
        if len(requires_grads) == 1:
            return requires_grads.pop()
        else:
@@ -244,8 +236,8 @@ class StaticEmbedding(TokenEmbedding):
                continue
            param.requires_grad = value
    def _load_with_vocab(self, embed_filepath, vocab, dtype=np.float32, padding='<pad>', unknown='<unk>', normalize=True,
                        error='ignore', init_method=None):
    def _load_with_vocab(self, embed_filepath, vocab, dtype=np.float32, padding='<pad>', unknown='<unk>',
                         normalize=True, error='ignore', init_method=None):
        """
        从embed_filepath这个预训练的词向量中抽取出vocab这个词表的词的embedding。EmbedLoader将自动判断embed_filepath是
        word2vec(第一行只有两个元素)还是glove格式的数据。
@@ -329,11 +321,6 @@ class ContextualEmbedding(TokenEmbedding):
        """
        由于动态embedding生成比较耗时，所以可以把每句话embedding缓存下来，这样就不需要每次都运行生成过程。
        Example::
            >>>
        :param datasets: DataSet对象
        :param batch_size: int, 生成cache的sentence表示时使用的batch的大小
        :param device: 参考 :class::fastNLP.Trainer 的device
@@ -363,7 +350,7 @@ class ContextualEmbedding(TokenEmbedding):
                        seq_len = words.ne(pad_index).sum(dim=-1)
                        max_len = words.size(1)
                        # 因为有些情况可能包含CLS, SEP, 从后面往前计算比较安全。
                        seq_len_from_behind =(max_len - seq_len).tolist()
                        seq_len_from_behind = (max_len - seq_len).tolist()
                        word_embeds = self(words).detach().cpu().numpy()
                        for b in range(words.size(0)):
                            length = seq_len_from_behind[b]
@@ -446,9 +433,6 @@ class ElmoEmbedding(ContextualEmbedding):
        self.layers = layers
        # 根据model_dir_or_name检查是否存在并下载
        PRETRAINED_ELMO_MODEL_DIR = {'en': 'elmo_en-d39843fe.tar.gz',
                                     'cn': 'elmo_cn-5e9b34e2.tar.gz'}
        if model_dir_or_name.lower() in PRETRAINED_ELMO_MODEL_DIR:
            PRETRAIN_URL = _get_base_url('elmo')
            model_name = PRETRAINED_ELMO_MODEL_DIR[model_dir_or_name]
@@ -532,21 +516,8 @@ class BertEmbedding(ContextualEmbedding):
    def __init__(self, vocab: Vocabulary, model_dir_or_name: str='en-base-uncased', layers: str='-1',
                 pool_method: str='first', include_cls_sep: bool=False, requires_grad: bool=False):
        super(BertEmbedding, self).__init__(vocab)
        # 根据model_dir_or_name检查是否存在并下载
        PRETRAINED_BERT_MODEL_DIR = {'en': 'bert-base-cased-f89bfe08.zip',
                                     'en-base-uncased': 'bert-base-uncased-3413b23c.zip',
                                     'en-base-cased': 'bert-base-cased-f89bfe08.zip',
                                     'en-large-uncased': 'bert-large-uncased-20939f45.zip',
                                     'en-large-cased': 'bert-large-cased-e0cf90fc.zip',
                                     'cn': 'bert-base-chinese-29d0a84a.zip',
                                     'cn-base': 'bert-base-chinese-29d0a84a.zip',
                                     'multilingual': 'bert-base-multilingual-cased-1bd364ee.zip',
                                     'multilingual-base-uncased': 'bert-base-multilingual-uncased-f8730fe4.zip',
                                     'multilingual-base-cased': 'bert-base-multilingual-cased-1bd364ee.zip',
                                     }
        # 根据model_dir_or_name检查是否存在并下载
        if model_dir_or_name.lower() in PRETRAINED_BERT_MODEL_DIR:
            PRETRAIN_URL = _get_base_url('bert')
            model_name = PRETRAINED_BERT_MODEL_DIR[model_dir_or_name]
--- a/reproduction/matching/data/MatchingDataLoader.py
+++ b/reproduction/matching/data/MatchingDataLoader.py
@@ -6,31 +6,58 @@ from typing import Union, Dict
 from fastNLP.core.const import Const
 from fastNLP.core.vocabulary import Vocabulary
 from fastNLP.core.dataset import DataSet
 from fastNLP.io.base_loader import DataInfo
 from fastNLP.io.dataset_loader import JsonLoader
 from fastNLP.io.file_utils import _get_base_url, cached_path
 from fastNLP.io.dataset_loader import JsonLoader, DataSetLoader
 from fastNLP.io.file_utils import _get_base_url, cached_path, PRETRAINED_BERT_MODEL_DIR
 from fastNLP.modules.encoder._bert import BertTokenizer
 class MatchingLoader(JsonLoader):
 class MatchingLoader(DataSetLoader):
    """
    别名：:class:`fastNLP.io.MatchingLoader` :class:`fastNLP.io.dataset_loader.MatchingLoader`
    读取Matching任务的数据集
    """
    def __init__(self, fields=None, paths: dict=None):
        super(MatchingLoader, self).__init__(fields=fields)
    def __init__(self, paths: dict=None):
        """
        :param dict paths: key是数据集名称（如train、dev、test），value是对应的文件名
        """
        self.paths = paths
    def _load(self, path):
        return super(MatchingLoader, self)._load(path)
    def process(self, paths: Union[str, Dict[str, str]], dataset_name=None,
                to_lower=False, char_information=False, seq_len_type: str=None,
                bert_tokenizer: str=None, get_index=True, set_input: Union[list, str, bool]=True,
        """
        :param str path: 待读取数据集的路径名
        :return: fastNLP.DataSet ds: 返回一个DataSet对象，里面必须包含3个field：其中两个分别为两个句子
            的原始字符串文本，第三个为标签
        """
        raise NotImplementedError
    def process(self, paths: Union[str, Dict[str, str]], dataset_name: str=None,
                to_lower=False, seq_len_type: str=None, bert_tokenizer: str=None,
                get_index=True, set_input: Union[list, str, bool]=True,
                set_target: Union[list, str, bool] = True, concat: Union[str, list, bool]=None, ) -> DataInfo:
        """
        :param paths: str或者Dict[str, str]。如果是str，则为数据集所在的文件夹或者是全路径文件名：如果是文件夹，
            则会从self.paths里面找对应的数据集名称与文件名。如果是Dict，则为数据集名称（如train、dev、test）和
            对应的全路径文件名。
        :param str dataset_name: 如果在paths里传入的是一个数据集的全路径文件名，那么可以用dataset_name来定义
            这个数据集的名字，如果不定义则默认为train。
        :param bool to_lower: 是否将文本自动转为小写。默认值为False。
        :param str seq_len_type: 提供的seq_len类型，支持 ``seq_len`` ：提供一个数字作为句子长度； ``mask`` :
            提供一个0/1的mask矩阵作为句子长度； ``bert`` ：提供segment_type_id（第一个句子为0，第二个句子为1）和
            attention mask矩阵（0/1的mask矩阵）。默认值为None，即不提供seq_len
        :param str bert_tokenizer: bert tokenizer所使用的词表所在的文件夹路径
        :param bool get_index: 是否需要根据词表将文本转为index
        :param set_input: 如果为True，则会自动将相关的field（名字里含有Const.INPUT的）设置为input，如果为False
            则不会将任何field设置为input。如果传入str或者List[str]，则会根据传入的内容将相对应的field设置为input，
            于此同时其他field不会被设置为input。默认值为True。
        :param set_target: set_target将控制哪些field可以被设置为target，用法与set_input一致。默认值为True。
        :param concat: 是否需要将两个句子拼接起来。如果为False则不会拼接。如果为True则会在两个句子之间插入一个<sep>。
            如果传入一个长度为4的list，则分别表示插在第一句开始前、第一句结束后、第二句开始前、第二句结束后的标识符。如果
            传入字符串 ``bert`` ，则会采用bert的拼接方式，等价于['[CLS]', '[SEP]', '', '[SEP]'].
        :return:
        """
        if isinstance(set_input, str):
            set_input = [set_input]
        if isinstance(set_target, str):
@@ -69,19 +96,6 @@ class MatchingLoader(JsonLoader):
                               is_input=auto_set_input)
        if bert_tokenizer is not None:
            PRETRAINED_BERT_MODEL_DIR = {'en': 'bert-base-cased-f89bfe08.zip',
                                         'en-base-uncased': 'bert-base-uncased-3413b23c.zip',
                                         'en-base-cased': 'bert-base-cased-f89bfe08.zip',
                                         'en-large-uncased': 'bert-large-uncased-20939f45.zip',
                                         'en-large-cased': 'bert-large-cased-e0cf90fc.zip',
                                         'cn': 'bert-base-chinese-29d0a84a.zip',
                                         'cn-base': 'bert-base-chinese-29d0a84a.zip',
                                         'multilingual': 'bert-base-multilingual-cased-1bd364ee.zip',
                                         'multilingual-base-uncased': 'bert-base-multilingual-uncased-f8730fe4.zip',
                                         'multilingual-base-cased': 'bert-base-multilingual-cased-1bd364ee.zip',
                                         }
            if bert_tokenizer.lower() in PRETRAINED_BERT_MODEL_DIR:
                PRETRAIN_URL = _get_base_url('bert')
                model_name = PRETRAINED_BERT_MODEL_DIR[bert_tokenizer]
@@ -128,14 +142,14 @@ class MatchingLoader(JsonLoader):
                    for fields in data_set.get_field_names():
                        if Const.INPUT in fields:
                            data_set.apply(lambda x: len(x[fields]),
                                           new_field_name=fields.replace(Const.INPUT, Const.TARGET),
                                           new_field_name=fields.replace(Const.INPUT, Const.INPUT_LEN),
                                           is_input=auto_set_input)
            elif seq_len_type == 'mask':
                for data_name, data_set in data_info.datasets.items():
                    for fields in data_set.get_field_names():
                        if Const.INPUT in fields:
                            data_set.apply(lambda x: [1] * len(x[fields]),
                                           new_field_name=fields.replace(Const.INPUT, Const.TARGET),
                                           new_field_name=fields.replace(Const.INPUT, Const.INPUT_LEN),
                                           is_input=auto_set_input)
            elif seq_len_type == 'bert':
                for data_name, data_set in data_info.datasets.items():
@@ -152,11 +166,18 @@ class MatchingLoader(JsonLoader):
        if bert_tokenizer is not None:
            words_vocab = Vocabulary(padding='[PAD]', unknown='[UNK]')
            with open(os.path.join(model_dir, 'vocab.txt'), 'r') as f:
                lines = f.readlines()
            lines = [line.strip() for line in lines]
            words_vocab.add_word_lst(lines)
            words_vocab.build_vocab()
        else:
            words_vocab = Vocabulary()
        words_vocab = words_vocab.from_dataset(*data_set_list,
                                               field_name=[n for n in data_set_list[0].get_field_names()
                                                           if (Const.INPUT in n)])
            words_vocab = words_vocab.from_dataset(*[d for n, d in data_info.datasets.items() if 'train' in n],
                                                   field_name=[n for n in data_set_list[0].get_field_names()
                                                               if (Const.INPUT in n)],
                                                   no_create_entry_dataset=[d for n, d in data_info.datasets.items()
                                                                            if 'train' not in n])
        target_vocab = Vocabulary(padding=None, unknown=None)
        target_vocab = target_vocab.from_dataset(*data_set_list, field_name=Const.TARGET)
        data_info.vocabs = {Const.INPUT: words_vocab, Const.TARGET: target_vocab}
@@ -173,14 +194,14 @@ class MatchingLoader(JsonLoader):
        for data_name, data_set in data_info.datasets.items():
            if isinstance(set_input, list):
                data_set.set_input(set_input)
                data_set.set_input(*set_input)
            if isinstance(set_target, list):
                data_set.set_target(set_target)
                data_set.set_target(*set_target)
        return data_info
 class SNLILoader(MatchingLoader):
 class SNLILoader(MatchingLoader, JsonLoader):
    """
    别名：:class:`fastNLP.io.SNLILoader` :class:`fastNLP.io.dataset_loader.SNLILoader`
@@ -203,10 +224,13 @@ class SNLILoader(MatchingLoader):
            'train': 'snli_1.0_train.jsonl',
            'dev': 'snli_1.0_dev.jsonl',
            'test': 'snli_1.0_test.jsonl'}
        super(SNLILoader, self).__init__(fields=fields, paths=paths)
        # super(SNLILoader, self).__init__(fields=fields, paths=paths)
        MatchingLoader.__init__(self, paths=paths)
        JsonLoader.__init__(self, fields=fields)
    def _load(self, path):
        ds = super(SNLILoader, self)._load(path)
        # ds = super(SNLILoader, self)._load(path)
        ds = JsonLoader._load(self, path)
        def parse_tree(x):
            t = Tree.fromstring(x)
--- a/reproduction/matching/matching_esim.py
+++ b/reproduction/matching/matching_esim.py
@@ -0,0 +1,65 @@
 import argparse
 import torch
 from fastNLP.core import Trainer, Tester, Adam, AccuracyMetric, Const
 from fastNLP.modules.encoder.embedding import ElmoEmbedding, StaticEmbedding
 from reproduction.matching.data.MatchingDataLoader import SNLILoader
 from reproduction.matching.model.esim import ESIMModel
 argument = argparse.ArgumentParser()
 argument.add_argument('--embedding', choices=['glove', 'elmo'], default='glove')
 argument.add_argument('--batch-size-per-gpu', type=int, default=128)
 argument.add_argument('--n-epochs', type=int, default=100)
 argument.add_argument('--lr', type=float, default=1e-4)
 argument.add_argument('--seq-len-type', choices=['mask', 'seq_len'], default='seq_len')
 argument.add_argument('--save-dir', type=str, default=None)
 arg = argument.parse_args()
 bert_dirs = 'path/to/bert/dir'
 # load data set
 data_info = SNLILoader().process(
    paths='path/to/snli/data/dir', to_lower=True, seq_len_type=arg.seq_len_type, bert_tokenizer=None,
    get_index=True, concat=False,
 )
 # load embedding
 if arg.embedding == 'elmo':
    embedding = ElmoEmbedding(data_info.vocabs[Const.INPUT], requires_grad=True)
 elif arg.embedding == 'glove':
    embedding = StaticEmbedding(data_info.vocabs[Const.INPUT], requires_grad=True)
 else:
    raise ValueError(f'now we only support elmo or glove embedding for esim model!')
 # define model
 model = ESIMModel(embedding)
 # define trainer
 trainer = Trainer(train_data=data_info.datasets['train'], model=model,
                  optimizer=Adam(lr=arg.lr, model_params=model.parameters()),
                  batch_size=torch.cuda.device_count() * arg.batch_size_per_gpu,
                  n_epochs=arg.n_epochs, print_every=-1,
                  dev_data=data_info.datasets['dev'],
                  metrics=AccuracyMetric(), metric_key='acc',
                  device=[i for i in range(torch.cuda.device_count())],
                  check_code_level=-1,
                  save_path=arg.save_path)
 # train model
 trainer.train(load_best_model=True)
 # define tester
 tester = Tester(
    data=data_info.datasets['test'],
    model=model,
    metrics=AccuracyMetric(),
    batch_size=torch.cuda.device_count() * arg.batch_size_per_gpu,
    device=[i for i in range(torch.cuda.device_count())],
 )
 # test model
 tester.test()
--- a/reproduction/matching/model/esim.py
+++ b/reproduction/matching/model/esim.py
@@ -30,24 +30,37 @@ class ESIMModel(BaseModel):
        self.bi_attention = SoftmaxAttention()
        self.rnn_high = BiRNN(self.embedding.embed_size, hidden_size, dropout_rate=dropout_rate)
        # self.rnn_high = LSTM(hidden_size, hidden_size, dropout=dropout_rate, bidirectional=True)
        # self.rnn_high = LSTM(hidden_size, hidden_size, dropout=dropout_rate, bidirectional=True,)
        self.classifier = nn.Sequential(nn.Dropout(p=dropout_rate),
                                        nn.Linear(8 * hidden_size, hidden_size),
                                        nn.Tanh(),
                                        nn.Dropout(p=dropout_rate),
                                        nn.Linear(hidden_size, num_labels))
        self.dropout_rnn = nn.Dropout(p=dropout_rate)
        nn.init.xavier_uniform_(self.classifier[1].weight.data)
        nn.init.xavier_uniform_(self.classifier[4].weight.data)
    def forward(self, words1, words2, seq_len1, seq_len2, target=None):
        mask1 = seq_len_to_mask(seq_len1)
        mask2 = seq_len_to_mask(seq_len2)
        """
        :param words1: [batch, seq_len]
        :param words2: [batch, seq_len]
        :param seq_len1: [batch]
        :param seq_len2: [batch]
        :param target:
        :return:
        """
        mask1 = seq_len_to_mask(seq_len1, words1.size(1))
        mask2 = seq_len_to_mask(seq_len2, words2.size(1))
        a0 = self.embedding(words1)  # B * len * emb_dim
        b0 = self.embedding(words2)
        a0, b0 = self.dropout_embed(a0), self.dropout_embed(b0)
        a = self.rnn(a0, mask1.byte())  # a: [B, PL, 2 * H]
        b = self.rnn(b0, mask2.byte())
        # a = self.dropout_rnn(self.rnn(a0, seq_len1)[0])  # a: [B, PL, 2 * H]
        # b = self.dropout_rnn(self.rnn(b0, seq_len2)[0])
        ai, bi = self.bi_attention(a, mask1, b, mask2)
@@ -58,6 +71,8 @@ class ESIMModel(BaseModel):
        a_h = self.rnn_high(a_f, mask1.byte())  # ma: [B, PL, 2 * H]
        b_h = self.rnn_high(b_f, mask2.byte())
        # a_h = self.dropout_rnn(self.rnn_high(a_f, seq_len1)[0])  # ma: [B, PL, 2 * H]
        # b_h = self.dropout_rnn(self.rnn_high(b_f, seq_len2)[0])
        a_avg = self.mean_pooling(a_h, mask1, dim=1)
        a_max, _ = self.max_pooling(a_h, mask1, dim=1)