Merge branch 'dev0.5.0' of https://github.com/SrWYG/fastNLP into pr

6 years ago · e6dd7ba1a8
--- a/reproduction/text_classification/README.md
+++ b/reproduction/text_classification/README.md
@@ -0,0 +1,22 @@
 # text_classification任务模型复现
 这里使用fastNLP复现以下模型：
 char_cnn :论文链接[Character-level Convolutional Networks for Text Classiﬁcation](https://arxiv.org/pdf/1509.01626v3.pdf)
 dpcnn:论文链接[Deep Pyramid Convolutional Neural Networks for TextCategorization](https://ai.tencent.com/ailab/media/publications/ACL3-Brady.pdf)
 HAN:论文链接[Hierarchical Attention Networks for Document Classiﬁcation](https://www.cs.cmu.edu/~diyiy/docs/naacl16.pdf)
 #待补充
 awd_lstm:
 lstm_self_attention(BCN?):
 awd-sltm:
 # 数据集及复现结果汇总
 使用fastNLP复现的结果vs论文汇报结果(/前为fastNLP实现，后面为论文报道,-表示论文没有在该数据集上列出结果)
 model name | yelp_p | sst-2|IMDB| 
 :---: | :---: | :---: | :---: 
 char_cnn | 93.80/95.12 | - |- |
 dpcnn | 95.50/97.36 | - |- |
 HAN |- | - |-|
 BCN| - |- |-|
 awd-lstm| - |- |-|
--- a/reproduction/text_classification/data/IMDBLoader.py
+++ b/reproduction/text_classification/data/IMDBLoader.py
@@ -32,27 +32,27 @@ class IMDBLoader(DataSetLoader):
                    continue
                parts = line.split('\t')
                target = parts[0]
                words = parts[1].split()
                words = parts[1].lower().split()
                dataset.append(Instance(words=words, target=target))
        if len(dataset)==0:
            raise RuntimeError(f"{path} has no valid data.")
        return dataset
    def process(self,
                paths: Union[str, Dict[str, str]],
                src_vocab_opt: VocabularyOption = None,
                tgt_vocab_opt: VocabularyOption = None,
                src_embed_opt: EmbeddingOption = None,
                char_level_op=False):
        datasets = {}
        info = DataInfo()
        for name, path in paths.items():
            dataset = self.load(path)
            datasets[name] = dataset
        def wordtochar(words):
            chars = []
            for word in words:
@@ -69,7 +69,7 @@ class IMDBLoader(DataSetLoader):
        src_vocab = Vocabulary() if src_vocab_opt is None else Vocabulary(**src_vocab_opt)
        src_vocab.from_dataset(datasets['train'], field_name='words')
        # src_vocab.from_dataset(datasets['train'], datasets["dev"], datasets["test"], field_name='words')
        src_vocab.index_dataset(*datasets.values(), field_name='words')
        tgt_vocab = Vocabulary(unknown=None, padding=None) \
@@ -95,6 +95,7 @@ class IMDBLoader(DataSetLoader):
        return info
 if __name__=="__main__":
    datapath = {"train": "/remote-home/ygwang/IMDB_data/train.csv",
                "test": "/remote-home/ygwang/IMDB_data/test.csv"}
@@ -106,3 +107,4 @@ if __name__=="__main__":
    ave_len = len_count / len(datainfo.datasets["train"])
    print(ave_len)
--- a/reproduction/text_classification/data/MTL16Loader.py
+++ b/reproduction/text_classification/data/MTL16Loader.py
@@ -32,7 +32,7 @@ class MTL16Loader(DataSetLoader):
                    continue
                parts = line.split('\t')
                target = parts[0]
                words = parts[1].split()
                words = parts[1].lower().split()
                dataset.append(Instance(words=words, target=target))
        if len(dataset)==0:
            raise RuntimeError(f"{path} has no valid data.")
@@ -72,4 +72,8 @@ class MTL16Loader(DataSetLoader):
            embed = EmbedLoader.load_with_vocab(**src_embed_opt, vocab=src_vocab)
            info.embeddings['words'] = embed
        for name, dataset in info.datasets.items():
            dataset.set_input("words")
            dataset.set_target("target")
        return info
--- a/reproduction/text_classification/data/SSTLoader.py
+++ b/reproduction/text_classification/data/SSTLoader.py
@@ -0,0 +1,187 @@
 from typing import Iterable
 from nltk import Tree
 from fastNLP.io.base_loader import DataInfo, DataSetLoader
 from fastNLP.core.vocabulary import VocabularyOption, Vocabulary
 from fastNLP import DataSet
 from fastNLP import Instance
 from fastNLP.io.embed_loader import EmbeddingOption, EmbedLoader
 import csv
 from typing import Union, Dict
 class SSTLoader(DataSetLoader):
    URL = 'https://nlp.stanford.edu/sentiment/trainDevTestTrees_PTB.zip'
    DATA_DIR = 'sst/'
    """
    别名：:class:`fastNLP.io.SSTLoader` :class:`fastNLP.io.dataset_loader.SSTLoader`
    读取SST数据集, DataSet包含fields::
        words: list(str) 需要分类的文本
        target: str 文本的标签
    数据来源: https://nlp.stanford.edu/sentiment/trainDevTestTrees_PTB.zip
    :param subtree: 是否将数据展开为子树，扩充数据量. Default: ``False``
    :param fine_grained: 是否使用SST-5标准，若 ``False`` , 使用SST-2。Default: ``False``
    """
    def __init__(self, subtree=False, fine_grained=False):
        self.subtree = subtree
        tag_v = {'0': 'very negative', '1': 'negative', '2': 'neutral',
                 '3': 'positive', '4': 'very positive'}
        if not fine_grained:
            tag_v['0'] = tag_v['1']
            tag_v['4'] = tag_v['3']
        self.tag_v = tag_v
    def _load(self, path):
        """
        :param str path: 存储数据的路径
        :return: 一个 :class:`~fastNLP.DataSet` 类型的对象
        """
        datalist = []
        with open(path, 'r', encoding='utf-8') as f:
            datas = []
            for l in f:
                datas.extend([(s, self.tag_v[t])
                              for s, t in self._get_one(l, self.subtree)])
        ds = DataSet()
        for words, tag in datas:
            ds.append(Instance(words=words, target=tag))
        return ds
    @staticmethod
    def _get_one(data, subtree):
        tree = Tree.fromstring(data)
        if subtree:
            return [(t.leaves(), t.label()) for t in tree.subtrees()]
        return [(tree.leaves(), tree.label())]
    def process(self,
                paths,
                train_ds: Iterable[str] = None,
                src_vocab_op: VocabularyOption = None,
                tgt_vocab_op: VocabularyOption = None,
                src_embed_op: EmbeddingOption = None):
        input_name, target_name = 'words', 'target'
        src_vocab = Vocabulary() if src_vocab_op is None else Vocabulary(**src_vocab_op)
        tgt_vocab = Vocabulary(unknown=None, padding=None) \
            if tgt_vocab_op is None else Vocabulary(**tgt_vocab_op)
        info = DataInfo(datasets=self.load(paths))
        _train_ds = [info.datasets[name]
                     for name in train_ds] if train_ds else info.datasets.values()
        src_vocab.from_dataset(*_train_ds, field_name=input_name)
        tgt_vocab.from_dataset(*_train_ds, field_name=target_name)
        src_vocab.index_dataset(
            *info.datasets.values(),
            field_name=input_name, new_field_name=input_name)
        tgt_vocab.index_dataset(
            *info.datasets.values(),
            field_name=target_name, new_field_name=target_name)
        info.vocabs = {
            input_name: src_vocab,
            target_name: tgt_vocab
        }
        if src_embed_op is not None:
            src_embed_op.vocab = src_vocab
            init_emb = EmbedLoader.load_with_vocab(**src_embed_op)
            info.embeddings[input_name] = init_emb
        for name, dataset in info.datasets.items():
            dataset.set_input(input_name)
            dataset.set_target(target_name)
        return info
 class sst2Loader(DataSetLoader):
    '''
    数据来源"SST":'https://firebasestorage.googleapis.com/v0/b/mtl-sentence-representations.appspot.com/o/data%2FSST-2.zip?alt=media&token=aabc5f6b-e466-44a2-b9b4-cf6337f84ac8',
    '''
    def __init__(self):
        super(sst2Loader, self).__init__()
    def _load(self, path: str) -> DataSet:
        ds = DataSet()
        all_count=0
        csv_reader = csv.reader(open(path, encoding='utf-8'),delimiter='\t')
        skip_row = 0
        for idx,row in enumerate(csv_reader):
            if idx<=skip_row:
                continue
            target = row[1]
            words = row[0].split()
            ds.append(Instance(words=words,target=target))
            all_count+=1
        print("all count:", all_count)
        return ds
    def process(self,
                paths: Union[str, Dict[str, str]],
                src_vocab_opt: VocabularyOption = None,
                tgt_vocab_opt: VocabularyOption = None,
                src_embed_opt: EmbeddingOption = None,
                char_level_op=False):
        paths = check_dataloader_paths(paths)
        datasets = {}
        info = DataInfo()
        for name, path in paths.items():
            dataset = self.load(path)
            datasets[name] = dataset
        def wordtochar(words):
            chars=[]
            for word in words:
                word=word.lower()
                for char in word:
                    chars.append(char)
            return chars
        input_name, target_name = 'words', 'target'
        info.vocabs={}
        # 就分隔为char形式
        if char_level_op:
            for dataset in datasets.values():
                dataset.apply_field(wordtochar, field_name="words", new_field_name='chars')
        src_vocab = Vocabulary() if src_vocab_opt is None else Vocabulary(**src_vocab_opt)
        src_vocab.from_dataset(datasets['train'], field_name='words')
        src_vocab.index_dataset(*datasets.values(), field_name='words')
        tgt_vocab = Vocabulary(unknown=None, padding=None) \
            if tgt_vocab_opt is None else Vocabulary(**tgt_vocab_opt)
        tgt_vocab.from_dataset(datasets['train'], field_name='target')
        tgt_vocab.index_dataset(*datasets.values(), field_name='target')
        info.vocabs = {
            "words": src_vocab,
            "target": tgt_vocab
        }
        info.datasets = datasets
        if src_embed_opt is not None:
            embed = EmbedLoader.load_with_vocab(**src_embed_opt, vocab=src_vocab)
            info.embeddings['words'] = embed
        return info
 if __name__=="__main__":
    datapath = {"train": "/remote-home/ygwang/workspace/GLUE/SST-2/train.tsv",
                "dev": "/remote-home/ygwang/workspace/GLUE/SST-2/dev.tsv"}
    datainfo=sst2Loader().process(datapath,char_level_op=True)
    #print(datainfo.datasets["train"])
    len_count = 0
    for instance in datainfo.datasets["train"]:
        len_count += len(instance["chars"])
    ave_len = len_count / len(datainfo.datasets["train"])
    print(ave_len)
--- a/reproduction/text_classification/data/sstLoader.py
+++ b/reproduction/text_classification/data/sstLoader.py
@@ -1,13 +1,102 @@
 import csv
 from typing import Iterable
 from fastNLP import DataSet, Instance, Vocabulary
 from fastNLP.core.vocabulary import VocabularyOption
 from fastNLP.io.base_loader import DataInfo,DataSetLoader
 from fastNLP.io.embed_loader import EmbeddingOption
 from fastNLP.io.file_reader import _read_json
 from nltk import Tree
 from fastNLP.io.base_loader import DataInfo, DataSetLoader
 from fastNLP.core.vocabulary import VocabularyOption, Vocabulary
 from fastNLP import DataSet
 from fastNLP import Instance
 from fastNLP.io.embed_loader import EmbeddingOption, EmbedLoader
 import csv
 from typing import Union, Dict
 from reproduction.Star_transformer.datasets import EmbedLoader
 from reproduction.utils import check_dataloader_paths
 class SSTLoader(DataSetLoader):
    URL = 'https://nlp.stanford.edu/sentiment/trainDevTestTrees_PTB.zip'
    DATA_DIR = 'sst/'
    """
    别名：:class:`fastNLP.io.SSTLoader` :class:`fastNLP.io.dataset_loader.SSTLoader`
    读取SST数据集, DataSet包含fields::
        words: list(str) 需要分类的文本
        target: str 文本的标签
    数据来源: https://nlp.stanford.edu/sentiment/trainDevTestTrees_PTB.zip
    :param subtree: 是否将数据展开为子树，扩充数据量. Default: ``False``
    :param fine_grained: 是否使用SST-5标准，若 ``False`` , 使用SST-2。Default: ``False``
    """
    def __init__(self, subtree=False, fine_grained=False):
        self.subtree = subtree
        tag_v = {'0': 'very negative', '1': 'negative', '2': 'neutral',
                 '3': 'positive', '4': 'very positive'}
        if not fine_grained:
            tag_v['0'] = tag_v['1']
            tag_v['4'] = tag_v['3']
        self.tag_v = tag_v
    def _load(self, path):
        """
        :param str path: 存储数据的路径
        :return: 一个 :class:`~fastNLP.DataSet` 类型的对象
        """
        datalist = []
        with open(path, 'r', encoding='utf-8') as f:
            datas = []
            for l in f:
                datas.extend([(s, self.tag_v[t])
                              for s, t in self._get_one(l, self.subtree)])
        ds = DataSet()
        for words, tag in datas:
            ds.append(Instance(words=words, target=tag))
        return ds
    @staticmethod
    def _get_one(data, subtree):
        tree = Tree.fromstring(data)
        if subtree:
            return [(t.leaves(), t.label()) for t in tree.subtrees()]
        return [(tree.leaves(), tree.label())]
    def process(self,
                paths,
                train_ds: Iterable[str] = None,
                src_vocab_op: VocabularyOption = None,
                tgt_vocab_op: VocabularyOption = None,
                src_embed_op: EmbeddingOption = None):
        input_name, target_name = 'words', 'target'
        src_vocab = Vocabulary() if src_vocab_op is None else Vocabulary(**src_vocab_op)
        tgt_vocab = Vocabulary(unknown=None, padding=None) \
            if tgt_vocab_op is None else Vocabulary(**tgt_vocab_op)
        info = DataInfo(datasets=self.load(paths))
        _train_ds = [info.datasets[name]
                     for name in train_ds] if train_ds else info.datasets.values()
        src_vocab.from_dataset(*_train_ds, field_name=input_name)
        tgt_vocab.from_dataset(*_train_ds, field_name=target_name)
        src_vocab.index_dataset(
            *info.datasets.values(),
            field_name=input_name, new_field_name=input_name)
        tgt_vocab.index_dataset(
            *info.datasets.values(),
            field_name=target_name, new_field_name=target_name)
        info.vocabs = {
            input_name: src_vocab,
            target_name: tgt_vocab
        }
        if src_embed_op is not None:
            src_embed_op.vocab = src_vocab
            init_emb = EmbedLoader.load_with_vocab(**src_embed_op)
            info.embeddings[input_name] = init_emb
        for name, dataset in info.datasets.items():
            dataset.set_input(input_name)
            dataset.set_target(target_name)
        return info
 class sst2Loader(DataSetLoader):
    '''
--- a/reproduction/text_classification/data/yelpLoader.py
+++ b/reproduction/text_classification/data/yelpLoader.py
@@ -34,18 +34,10 @@ def clean_str(sentence, tokenizer, char_lower=False):
    return words_collection
 class yelpLoader(JsonLoader):
 class yelpLoader(DataSetLoader):
    """
    读取Yelp数据集, DataSet包含fields:
        review_id: str, 22 character unique review id
        user_id: str, 22 character unique user id
        business_id: str, 22 character business id
        useful: int, number of useful votes received
        funny: int, number of funny votes received
        cool: int, number of cool votes received
        date: str, date formatted YYYY-MM-DD
    读取Yelp_full/Yelp_polarity数据集, DataSet包含fields:
        words: list(str), 需要分类的文本
        target: str, 文本的标签
        chars:list(str),未index的字符列表
@@ -180,6 +172,12 @@ class yelpLoader(JsonLoader):
        info.vocabs[target_name]=tgt_vocab
        info.datasets['train'],info.datasets['dev']=info.datasets['train'].split(0.1, shuffle=False)
        for name, dataset in info.datasets.items():
            dataset.set_input("words")
            dataset.set_target("target")
        return info
 if __name__=="__main__":
@@ -196,4 +194,4 @@ if __name__=="__main__":
        len_count+=len(instance["chars"])
    ave_len=len_count/len(datainfo.datasets["train"])
    print(ave_len)
    print(ave_len)
--- a/reproduction/text_classification/model/HAN.py
+++ b/reproduction/text_classification/model/HAN.py
@@ -0,0 +1,109 @@
 import torch
 import torch.nn as nn
 from torch.autograd import Variable
 from fastNLP.modules.utils import get_embeddings
 from fastNLP.core import Const as C
 def pack_sequence(tensor_seq, padding_value=0.0):
    if len(tensor_seq) <= 0:
        return
    length = [v.size(0) for v in tensor_seq]
    max_len = max(length)
    size = [len(tensor_seq), max_len]
    size.extend(list(tensor_seq[0].size()[1:]))
    ans = torch.Tensor(*size).fill_(padding_value)
    if tensor_seq[0].data.is_cuda:
        ans = ans.cuda()
    ans = Variable(ans)
    for i, v in enumerate(tensor_seq):
        ans[i, :length[i], :] = v
    return ans
 class HANCLS(nn.Module):
    def __init__(self, init_embed, num_cls):
        super(HANCLS, self).__init__()
        self.embed = get_embeddings(init_embed)
        self.han = HAN(input_size=300,
                       output_size=num_cls,
                       word_hidden_size=50, word_num_layers=1, word_context_size=100,
                       sent_hidden_size=50, sent_num_layers=1, sent_context_size=100
                       )
    def forward(self, input_sents):
        # input_sents [B, num_sents, seq-len] dtype long
        # target
        B, num_sents, seq_len = input_sents.size()
        input_sents = input_sents.view(-1, seq_len)  # flat
        words_embed = self.embed(input_sents)  # should be [B*num-sent, seqlen , word-dim]
        words_embed = words_embed.view(B, num_sents, seq_len, -1)  # recover # [B, num-sent, seqlen , word-dim]
        out = self.han(words_embed)
        return {C.OUTPUT: out}
    def predict(self, input_sents):
        x = self.forward(input_sents)[C.OUTPUT]
        return {C.OUTPUT: torch.argmax(x, 1)}
 class HAN(nn.Module):
    def __init__(self, input_size, output_size,
                 word_hidden_size, word_num_layers, word_context_size,
                 sent_hidden_size, sent_num_layers, sent_context_size):
        super(HAN, self).__init__()
        self.word_layer = AttentionNet(input_size,
                                       word_hidden_size,
                                       word_num_layers,
                                       word_context_size)
        self.sent_layer = AttentionNet(2 * word_hidden_size,
                                       sent_hidden_size,
                                       sent_num_layers,
                                       sent_context_size)
        self.output_layer = nn.Linear(2 * sent_hidden_size, output_size)
        self.softmax = nn.LogSoftmax(dim=1)
    def forward(self, batch_doc):
        # input is a sequence of matrix
        doc_vec_list = []
        for doc in batch_doc:
            sent_mat = self.word_layer(doc)  # doc's dim (num_sent, seq_len, word_dim)
            doc_vec_list.append(sent_mat)  # sent_mat's dim (num_sent, vec_dim)
        doc_vec = self.sent_layer(pack_sequence(doc_vec_list))
        output = self.softmax(self.output_layer(doc_vec))
        return output
 class AttentionNet(nn.Module):
    def __init__(self, input_size, gru_hidden_size, gru_num_layers, context_vec_size):
        super(AttentionNet, self).__init__()
        self.input_size = input_size
        self.gru_hidden_size = gru_hidden_size
        self.gru_num_layers = gru_num_layers
        self.context_vec_size = context_vec_size
        # Encoder
        self.gru = nn.GRU(input_size=input_size,
                          hidden_size=gru_hidden_size,
                          num_layers=gru_num_layers,
                          batch_first=True,
                          bidirectional=True)
        # Attention
        self.fc = nn.Linear(2 * gru_hidden_size, context_vec_size)
        self.tanh = nn.Tanh()
        self.softmax = nn.Softmax(dim=1)
        # context vector
        self.context_vec = nn.Parameter(torch.Tensor(context_vec_size, 1))
        self.context_vec.data.uniform_(-0.1, 0.1)
    def forward(self, inputs):
        # GRU part
        h_t, hidden = self.gru(inputs)  # inputs's dim (batch_size, seq_len,  word_dim)
        u = self.tanh(self.fc(h_t))
        # Attention part
        alpha = self.softmax(torch.matmul(u, self.context_vec))  # u's dim (batch_size, seq_len, context_vec_size)
        output = torch.bmm(torch.transpose(h_t, 1, 2), alpha)  # alpha's dim (batch_size, seq_len, 1)
        return torch.squeeze(output, dim=2)  # output's dim (batch_size, 2*hidden_size, 1)
--- a/reproduction/text_classification/model/awd_lstm.py
+++ b/reproduction/text_classification/model/awd_lstm.py
@@ -0,0 +1,31 @@
 import torch
 import torch.nn as nn
 from fastNLP.core.const import Const as C
 from .awdlstm_module import LSTM
 from fastNLP.modules import encoder
 from fastNLP.modules.decoder.mlp import MLP
 class AWDLSTMSentiment(nn.Module):
    def __init__(self, init_embed,
                 num_classes,
                 hidden_dim=256,
                 num_layers=1,
                 nfc=128,
                 wdrop=0.5):
        super(AWDLSTMSentiment,self).__init__()
        self.embed = encoder.Embedding(init_embed)
        self.lstm = LSTM(input_size=self.embed.embedding_dim, hidden_size=hidden_dim, num_layers=num_layers, bidirectional=True, wdrop=wdrop)
        self.mlp = MLP(size_layer=[hidden_dim* 2, nfc, num_classes])
    def forward(self, words):
        x_emb = self.embed(words)
        output, _ = self.lstm(x_emb)
        output = self.mlp(output[:,-1,:])
        return {C.OUTPUT: output}
    def predict(self, words):
        output = self(words)
        _, predict = output[C.OUTPUT].max(dim=1)
        return {C.OUTPUT: predict}
--- a/reproduction/text_classification/model/awdlstm_module.py
+++ b/reproduction/text_classification/model/awdlstm_module.py
@@ -0,0 +1,86 @@
 """
 轻量封装的 Pytorch LSTM 模块.
 可在 forward 时传入序列的长度, 自动对padding做合适的处理.
 """
 __all__ = [
    "LSTM"
 ]
 import torch
 import torch.nn as nn
 import torch.nn.utils.rnn as rnn
 from fastNLP.modules.utils import initial_parameter
 from torch import autograd
 from .weight_drop import WeightDrop
 class LSTM(nn.Module):
    """
    别名：:class:`fastNLP.modules.LSTM`  :class:`fastNLP.modules.encoder.lstm.LSTM`
    LSTM 模块, 轻量封装的Pytorch LSTM. 在提供seq_len的情况下，将自动使用pack_padded_sequence; 同时默认将forget gate的bias初始化
        为1; 且可以应对DataParallel中LSTM的使用问题。
    :param input_size:  输入 `x` 的特征维度
    :param hidden_size: 隐状态 `h` 的特征维度.
    :param num_layers: rnn的层数. Default: 1
    :param dropout: 层间dropout概率. Default: 0
    :param bidirectional: 若为 ``True``, 使用双向的RNN. Default: ``False``
    :param batch_first: 若为 ``True``, 输入和输出 ``Tensor`` 形状为
        :(batch, seq, feature). Default: ``False``
    :param bias: 如果为 ``False``, 模型将不会使用bias. Default: ``True``
    """
    def __init__(self, input_size, hidden_size=100, num_layers=1, dropout=0.0, batch_first=True,
                 bidirectional=False, bias=True, wdrop=0.5):
        super(LSTM, self).__init__()
        self.batch_first = batch_first
        self.lstm = nn.LSTM(input_size, hidden_size, num_layers, bias=bias, batch_first=batch_first,
                            dropout=dropout, bidirectional=bidirectional)
        self.lstm = WeightDrop(self.lstm, ['weight_hh_l0'], dropout=wdrop)
        self.init_param()
    def init_param(self):
        for name, param in self.named_parameters():
            if 'bias' in name:
                # based on https://github.com/pytorch/pytorch/issues/750#issuecomment-280671871
                param.data.fill_(0)
                n = param.size(0)
                start, end = n // 4, n // 2
                param.data[start:end].fill_(1)
            else:
                nn.init.xavier_uniform_(param)
    def forward(self, x, seq_len=None, h0=None, c0=None):
        """
        :param x: [batch, seq_len, input_size] 输入序列
        :param seq_len: [batch, ] 序列长度, 若为 ``None``, 所有输入看做一样长. Default: ``None``
        :param h0: [batch, hidden_size] 初始隐状态, 若为 ``None`` , 设为全0向量. Default: ``None``
        :param c0: [batch, hidden_size] 初始Cell状态, 若为 ``None`` , 设为全0向量. Default: ``None``
        :return (output, ht) 或 output: 若 ``get_hidden=True`` [batch, seq_len, hidden_size*num_direction] 输出序列
            和 [batch, hidden_size*num_direction] 最后时刻隐状态.
        """
        batch_size, max_len, _ = x.size()
        if h0 is not None and c0 is not None:
            hx = (h0, c0)
        else:
            hx = None
        if seq_len is not None and not isinstance(x, rnn.PackedSequence):
            sort_lens, sort_idx = torch.sort(seq_len, dim=0, descending=True)
            if self.batch_first:
                x = x[sort_idx]
            else:
                x = x[:, sort_idx]
            x = rnn.pack_padded_sequence(x, sort_lens, batch_first=self.batch_first)
            output, hx = self.lstm(x, hx)  # -> [N,L,C]
            output, _ = rnn.pad_packed_sequence(output, batch_first=self.batch_first, total_length=max_len)
            _, unsort_idx = torch.sort(sort_idx, dim=0, descending=False)
            if self.batch_first:
                output = output[unsort_idx]
            else:
                output = output[:, unsort_idx]
        else:
            output, hx = self.lstm(x, hx)
        return output, hx
--- a/reproduction/text_classification/model/lstm.py
+++ b/reproduction/text_classification/model/lstm.py
@@ -0,0 +1,30 @@
 import torch
 import torch.nn as nn
 from fastNLP.core.const import Const as C
 from fastNLP.modules.encoder.lstm import LSTM
 from fastNLP.modules import encoder
 from fastNLP.modules.decoder.mlp import MLP
 class BiLSTMSentiment(nn.Module):
    def __init__(self, init_embed,
                 num_classes,
                 hidden_dim=256,
                 num_layers=1,
                 nfc=128):
        super(BiLSTMSentiment,self).__init__()
        self.embed = encoder.Embedding(init_embed)
        self.lstm = LSTM(input_size=self.embed.embedding_dim, hidden_size=hidden_dim, num_layers=num_layers, bidirectional=True)
        self.mlp = MLP(size_layer=[hidden_dim* 2, nfc, num_classes])
    def forward(self, words):
        x_emb = self.embed(words)
        output, _ = self.lstm(x_emb)
        output = self.mlp(output[:,-1,:])
        return {C.OUTPUT: output}
    def predict(self, words):
        output = self(words)
        _, predict = output[C.OUTPUT].max(dim=1)
        return {C.OUTPUT: predict}
--- a/reproduction/text_classification/model/lstm_self_attention.py
+++ b/reproduction/text_classification/model/lstm_self_attention.py
@@ -0,0 +1,35 @@
 import torch
 import torch.nn as nn
 from fastNLP.core.const import Const as C
 from fastNLP.modules.encoder.lstm import LSTM
 from fastNLP.modules import encoder
 from fastNLP.modules.aggregator.attention import SelfAttention
 from fastNLP.modules.decoder.mlp import MLP
 class BiLSTM_SELF_ATTENTION(nn.Module):
    def __init__(self, init_embed,
                 num_classes,
                 hidden_dim=256,
                 num_layers=1,
                 attention_unit=256,
                 attention_hops=1,
                 nfc=128):
        super(BiLSTM_SELF_ATTENTION,self).__init__()
        self.embed = encoder.Embedding(init_embed)
        self.lstm = LSTM(input_size=self.embed.embedding_dim, hidden_size=hidden_dim, num_layers=num_layers, bidirectional=True)
        self.attention = SelfAttention(input_size=hidden_dim * 2 , attention_unit=attention_unit, attention_hops=attention_hops)
        self.mlp = MLP(size_layer=[hidden_dim* 2*attention_hops, nfc, num_classes])
    def forward(self, words):
        x_emb = self.embed(words)
        output, _ = self.lstm(x_emb)
        after_attention, penalty = self.attention(output,words)
        after_attention =after_attention.view(after_attention.size(0),-1)
        output = self.mlp(after_attention)
        return {C.OUTPUT: output}
    def predict(self, words):
        output = self(words)
        _, predict = output[C.OUTPUT].max(dim=1)
        return {C.OUTPUT: predict}
--- a/reproduction/text_classification/model/weight_drop.py
+++ b/reproduction/text_classification/model/weight_drop.py
@@ -0,0 +1,99 @@
 import torch
 from torch.nn import Parameter
 from functools import wraps
 class WeightDrop(torch.nn.Module):
    def __init__(self, module, weights, dropout=0, variational=False):
        super(WeightDrop, self).__init__()
        self.module = module
        self.weights = weights
        self.dropout = dropout
        self.variational = variational
        self._setup()
    def widget_demagnetizer_y2k_edition(*args, **kwargs):
        # We need to replace flatten_parameters with a nothing function
        # It must be a function rather than a lambda as otherwise pickling explodes
        # We can't write boring code though, so ... WIDGET DEMAGNETIZER Y2K EDITION!
        # (╯°□°）╯︵ ┻━┻
        return
    def _setup(self):
        # Terrible temporary solution to an issue regarding compacting weights re: CUDNN RNN
        if issubclass(type(self.module), torch.nn.RNNBase):
            self.module.flatten_parameters = self.widget_demagnetizer_y2k_edition
        for name_w in self.weights:
            print('Applying weight drop of {} to {}'.format(self.dropout, name_w))
            w = getattr(self.module, name_w)
            del self.module._parameters[name_w]
            self.module.register_parameter(name_w + '_raw', Parameter(w.data))
    def _setweights(self):
        for name_w in self.weights:
            raw_w = getattr(self.module, name_w + '_raw')
            w = None
            if self.variational:
                mask = torch.autograd.Variable(torch.ones(raw_w.size(0), 1))
                if raw_w.is_cuda: mask = mask.cuda()
                mask = torch.nn.functional.dropout(mask, p=self.dropout, training=True)
                w = mask.expand_as(raw_w) * raw_w
            else:
                w = torch.nn.functional.dropout(raw_w, p=self.dropout, training=self.training)
            setattr(self.module, name_w, w)
    def forward(self, *args):
        self._setweights()
        return self.module.forward(*args)
 if __name__ == '__main__':
    import torch
    from weight_drop import WeightDrop
    # Input is (seq, batch, input)
    x = torch.autograd.Variable(torch.randn(2, 1, 10)).cuda()
    h0 = None
    ###
    print('Testing WeightDrop')
    print('=-=-=-=-=-=-=-=-=-=')
    ###
    print('Testing WeightDrop with Linear')
    lin = WeightDrop(torch.nn.Linear(10, 10), ['weight'], dropout=0.9)
    lin.cuda()
    run1 = [x.sum() for x in lin(x).data]
    run2 = [x.sum() for x in lin(x).data]
    print('All items should be different')
    print('Run 1:', run1)
    print('Run 2:', run2)
    assert run1[0] != run2[0]
    assert run1[1] != run2[1]
    print('---')
    ###
    print('Testing WeightDrop with LSTM')
    wdrnn = WeightDrop(torch.nn.LSTM(10, 10), ['weight_hh_l0'], dropout=0.9)
    wdrnn.cuda()
    run1 = [x.sum() for x in wdrnn(x, h0)[0].data]
    run2 = [x.sum() for x in wdrnn(x, h0)[0].data]
    print('First timesteps should be equal, all others should differ')
    print('Run 1:', run1)
    print('Run 2:', run2)
    # First time step, not influenced by hidden to hidden weights, should be equal
    assert run1[0] == run2[0]
    # Second step should not
    assert run1[1] != run2[1]
    print('---')
--- a/reproduction/text_classification/results_LSTM.xlsx
+++ b/reproduction/text_classification/results_LSTM.xlsx
--- a/reproduction/text_classification/train_HAN.py
+++ b/reproduction/text_classification/train_HAN.py
@@ -0,0 +1,109 @@
 # 首先需要加入以下的路径到环境变量，因为当前只对内部测试开放，所以需要手动申明一下路径
 import os
 import sys
 sys.path.append('../../')
 os.environ['FASTNLP_BASE_URL'] = 'http://10.141.222.118:8888/file/download/'
 os.environ['FASTNLP_CACHE_DIR'] = '/remote-home/hyan01/fastnlp_caches'
 os.environ["CUDA_DEVICE_ORDER"] = "PCI_BUS_ID"
 from fastNLP.core.const import Const as C
 from fastNLP.core import LRScheduler
 import torch.nn as nn
 from fastNLP.io.dataset_loader import SSTLoader
 from reproduction.text_classification.data.yelpLoader import yelpLoader
 from reproduction.text_classification.model.HAN import HANCLS
 from fastNLP.modules.encoder.embedding import StaticEmbedding, CNNCharEmbedding, StackEmbedding
 from fastNLP import CrossEntropyLoss, AccuracyMetric
 from fastNLP.core.trainer import Trainer
 from torch.optim import SGD
 import torch.cuda
 from torch.optim.lr_scheduler import CosineAnnealingLR
 ##hyper
 class Config():
    model_dir_or_name = "en-base-uncased"
    embedding_grad = False,
    train_epoch = 30
    batch_size = 100
    num_classes = 5
    task = "yelp"
    #datadir = '/remote-home/lyli/fastNLP/yelp_polarity/'
    datadir = '/remote-home/ygwang/yelp_polarity/'
    datafile = {"train": "train.csv", "test": "test.csv"}
    lr = 1e-3
    def __init__(self):
        self.datapath = {k: os.path.join(self.datadir, v)
                         for k, v in self.datafile.items()}
 ops = Config()
 ##1.task相关信息：利用dataloader载入dataInfo
 datainfo = yelpLoader(fine_grained=True).process(paths=ops.datapath, train_ds=['train'])
 print(len(datainfo.datasets['train']))
 print(len(datainfo.datasets['test']))
 # post process
 def make_sents(words):
    sents = [words]
    return sents
 for dataset in datainfo.datasets.values():
    dataset.apply_field(make_sents, field_name='words', new_field_name='input_sents')
 datainfo = datainfo
 datainfo.datasets['train'].set_input('input_sents')
 datainfo.datasets['test'].set_input('input_sents')
 datainfo.datasets['train'].set_target('target')
 datainfo.datasets['test'].set_target('target')
 ## 2.或直接复用fastNLP的模型
 vocab = datainfo.vocabs['words']
 # embedding = StackEmbedding([StaticEmbedding(vocab), CNNCharEmbedding(vocab, 100)])
 embedding = StaticEmbedding(vocab)
 print(len(vocab))
 print(len(datainfo.vocabs['target']))
 # model = DPCNN(init_embed=embedding, num_cls=ops.num_classes)
 model = HANCLS(init_embed=embedding, num_cls=ops.num_classes)
 ## 3. 声明loss,metric,optimizer
 loss = CrossEntropyLoss(pred=C.OUTPUT, target=C.TARGET)
 metric = AccuracyMetric(pred=C.OUTPUT, target=C.TARGET)
 optimizer = SGD([param for param in model.parameters() if param.requires_grad == True],
                lr=ops.lr, momentum=0.9, weight_decay=0)
 callbacks = []
 callbacks.append(LRScheduler(CosineAnnealingLR(optimizer, 5)))
 device = 'cuda:0' if torch.cuda.is_available() else 'cpu'
 print(device)
 for ds in datainfo.datasets.values():
    ds.apply_field(len, C.INPUT, C.INPUT_LEN)
    ds.set_input(C.INPUT, C.INPUT_LEN)
    ds.set_target(C.TARGET)
 ## 4.定义train方法
 def train(model, datainfo, loss, metrics, optimizer, num_epochs=ops.train_epoch):
    trainer = Trainer(datainfo.datasets['train'], model, optimizer=optimizer, loss=loss,
                      metrics=[metrics], dev_data=datainfo.datasets['test'], device=device,
                      check_code_level=-1, batch_size=ops.batch_size, callbacks=callbacks,
                      n_epochs=num_epochs)
    print(trainer.train())
 if __name__ == "__main__":
    train(model, datainfo, loss, metric, optimizer)
--- a/reproduction/text_classification/train_awdlstm.py
+++ b/reproduction/text_classification/train_awdlstm.py
@@ -0,0 +1,102 @@
 # 这个模型需要在pytorch=0.4下运行，weight_drop不支持1.0
 # 首先需要加入以下的路径到环境变量，因为当前只对内部测试开放，所以需要手动申明一下路径
 import os
 os.environ['FASTNLP_BASE_URL'] = 'http://10.141.222.118:8888/file/download/'
 os.environ['FASTNLP_CACHE_DIR'] = '/remote-home/hyan01/fastnlp_caches'
 import torch.nn as nn
 from data.SSTLoader import SSTLoader
 from data.IMDBLoader import IMDBLoader
 from data.yelpLoader import yelpLoader
 from fastNLP.modules.encoder.embedding import StaticEmbedding
 from model.awd_lstm import AWDLSTMSentiment
 from fastNLP.core.const import Const as C
 from fastNLP import CrossEntropyLoss, AccuracyMetric
 from fastNLP import Trainer, Tester
 from torch.optim import Adam
 from fastNLP.io.model_io import ModelLoader, ModelSaver
 import argparse
 class Config():
    train_epoch= 10
    lr=0.001
    num_classes=2
    hidden_dim=256
    num_layers=1
    nfc=128
    wdrop=0.5
    task_name = "IMDB"
    datapath={"train":"IMDB_data/train.csv", "test":"IMDB_data/test.csv"}
    load_model_path="./result_IMDB/best_BiLSTM_SELF_ATTENTION_acc_2019-07-07-04-16-51"
    save_model_path="./result_IMDB_test/"
 opt=Config
 # load data
 dataloaders = {
    "IMDB":IMDBLoader(),
    "YELP":yelpLoader(),
    "SST-5":SSTLoader(subtree=True,fine_grained=True),
    "SST-3":SSTLoader(subtree=True,fine_grained=False)
 }
 if opt.task_name not in ["IMDB", "YELP", "SST-5", "SST-3"]:
    raise ValueError("task name must in ['IMDB', 'YELP, 'SST-5', 'SST-3']")
 dataloader = dataloaders[opt.task_name]
 datainfo=dataloader.process(opt.datapath)
 # print(datainfo.datasets["train"])
 # print(datainfo)
 # define model
 vocab=datainfo.vocabs['words']
 embed = StaticEmbedding(vocab, model_dir_or_name='en-glove-840b-300', requires_grad=True)
 model=AWDLSTMSentiment(init_embed=embed, num_classes=opt.num_classes, hidden_dim=opt.hidden_dim, num_layers=opt.num_layers, nfc=opt.nfc, wdrop=opt.wdrop)
 # define loss_function and metrics
 loss=CrossEntropyLoss()
 metrics=AccuracyMetric()
 optimizer= Adam([param for param in model.parameters() if param.requires_grad==True], lr=opt.lr)
 def train(datainfo, model, optimizer, loss, metrics, opt):
    trainer = Trainer(datainfo.datasets['train'], model, optimizer=optimizer, loss=loss,
                        metrics=metrics, dev_data=datainfo.datasets['dev'], device=0, check_code_level=-1,
                        n_epochs=opt.train_epoch, save_path=opt.save_model_path)
    trainer.train()
 def test(datainfo, metrics, opt):
    # load model
    model = ModelLoader.load_pytorch_model(opt.load_model_path)
    print("model loaded!")
    # Tester
    tester = Tester(datainfo.datasets['test'], model, metrics, batch_size=4, device=0)
    acc = tester.test()
    print("acc=",acc)
 parser = argparse.ArgumentParser()
 parser.add_argument('--mode', required=True, dest="mode",help='set the model\'s model')
 args = parser.parse_args()
 if args.mode == 'train':
    train(datainfo, model, optimizer, loss, metrics, opt)
 elif args.mode == 'test':
    test(datainfo, metrics, opt)
 else:
    print('no mode specified for model!')
    parser.print_help()
--- a/reproduction/text_classification/train_char_cnn.py
+++ b/reproduction/text_classification/train_char_cnn.py
@@ -7,7 +7,6 @@ import sys
 sys.path.append('../..')
 from fastNLP.core.const import Const as C
 import torch.nn as nn
 from fastNLP.io.dataset_loader import SSTLoader
 from data.yelpLoader import yelpLoader
 from data.sstLoader import sst2Loader
 from data.IMDBLoader import IMDBLoader
@@ -107,9 +106,9 @@ ops=Config
 ##1.task相关信息：利用dataloader载入dataInfo
 dataloader=sst2Loader()
 dataloader=IMDBLoader()
 #dataloader=yelpLoader(fine_grained=True)
 #dataloader=sst2Loader()
 #dataloader=IMDBLoader()
 dataloader=yelpLoader(fine_grained=True)
 datainfo=dataloader.process(ops.datapath,char_level_op=True)
 char_vocab=ops.char_cnn_config["alphabet"]["en"]["lower"]["alphabet"]
 ops.number_of_characters=len(char_vocab)
--- a/reproduction/text_classification/train_lstm.py
+++ b/reproduction/text_classification/train_lstm.py
@@ -0,0 +1,99 @@
 # 首先需要加入以下的路径到环境变量，因为当前只对内部测试开放，所以需要手动申明一下路径
 import os
 os.environ['FASTNLP_BASE_URL'] = 'http://10.141.222.118:8888/file/download/'
 os.environ['FASTNLP_CACHE_DIR'] = '/remote-home/hyan01/fastnlp_caches'
 import torch.nn as nn
 from data.SSTLoader import SSTLoader
 from data.IMDBLoader import IMDBLoader
 from data.yelpLoader import yelpLoader
 from fastNLP.modules.encoder.embedding import StaticEmbedding
 from model.lstm import BiLSTMSentiment
 from fastNLP.core.const import Const as C
 from fastNLP import CrossEntropyLoss, AccuracyMetric
 from fastNLP import Trainer, Tester
 from torch.optim import Adam
 from fastNLP.io.model_io import ModelLoader, ModelSaver
 import argparse
 class Config():
    train_epoch= 10
    lr=0.001
    num_classes=2
    hidden_dim=256
    num_layers=1
    nfc=128
    task_name = "IMDB"
    datapath={"train":"IMDB_data/train.csv", "test":"IMDB_data/test.csv"}
    load_model_path="./result_IMDB/best_BiLSTM_SELF_ATTENTION_acc_2019-07-07-04-16-51"
    save_model_path="./result_IMDB_test/"
 opt=Config
 # load data
 dataloaders = {
    "IMDB":IMDBLoader(),
    "YELP":yelpLoader(),
    "SST-5":SSTLoader(subtree=True,fine_grained=True),
    "SST-3":SSTLoader(subtree=True,fine_grained=False)
 }
 if opt.task_name not in ["IMDB", "YELP", "SST-5", "SST-3"]:
    raise ValueError("task name must in ['IMDB', 'YELP, 'SST-5', 'SST-3']")
 dataloader = dataloaders[opt.task_name]
 datainfo=dataloader.process(opt.datapath)
 # print(datainfo.datasets["train"])
 # print(datainfo)
 # define model
 vocab=datainfo.vocabs['words']
 embed = StaticEmbedding(vocab, model_dir_or_name='en-glove-840b-300', requires_grad=True)
 model=BiLSTMSentiment(init_embed=embed, num_classes=opt.num_classes, hidden_dim=opt.hidden_dim, num_layers=opt.num_layers, nfc=opt.nfc)
 # define loss_function and metrics
 loss=CrossEntropyLoss()
 metrics=AccuracyMetric()
 optimizer= Adam([param for param in model.parameters() if param.requires_grad==True], lr=opt.lr)
 def train(datainfo, model, optimizer, loss, metrics, opt):
    trainer = Trainer(datainfo.datasets['train'], model, optimizer=optimizer, loss=loss,
                        metrics=metrics, dev_data=datainfo.datasets['dev'], device=0, check_code_level=-1,
                        n_epochs=opt.train_epoch, save_path=opt.save_model_path)
    trainer.train()
 def test(datainfo, metrics, opt):
    # load model
    model = ModelLoader.load_pytorch_model(opt.load_model_path)
    print("model loaded!")
    # Tester
    tester = Tester(datainfo.datasets['test'], model, metrics, batch_size=4, device=0)
    acc = tester.test()
    print("acc=",acc)
 parser = argparse.ArgumentParser()
 parser.add_argument('--mode', required=True, dest="mode",help='set the model\'s model')
 args = parser.parse_args()
 if args.mode == 'train':
    train(datainfo, model, optimizer, loss, metrics, opt)
 elif args.mode == 'test':
    test(datainfo, metrics, opt)
 else:
    print('no mode specified for model!')
    parser.print_help()
--- a/reproduction/text_classification/train_lstm_att.py
+++ b/reproduction/text_classification/train_lstm_att.py
@@ -0,0 +1,101 @@
 # 首先需要加入以下的路径到环境变量，因为当前只对内部测试开放，所以需要手动申明一下路径
 import os
 os.environ['FASTNLP_BASE_URL'] = 'http://10.141.222.118:8888/file/download/'
 os.environ['FASTNLP_CACHE_DIR'] = '/remote-home/hyan01/fastnlp_caches'
 import torch.nn as nn
 from data.SSTLoader import SSTLoader
 from data.IMDBLoader import IMDBLoader
 from data.yelpLoader import yelpLoader
 from fastNLP.modules.encoder.embedding import StaticEmbedding
 from model.lstm_self_attention import BiLSTM_SELF_ATTENTION
 from fastNLP.core.const import Const as C
 from fastNLP import CrossEntropyLoss, AccuracyMetric
 from fastNLP import Trainer, Tester
 from torch.optim import Adam
 from fastNLP.io.model_io import ModelLoader, ModelSaver
 import argparse
 class Config():
    train_epoch= 10
    lr=0.001
    num_classes=2
    hidden_dim=256
    num_layers=1
    attention_unit=256
    attention_hops=1
    nfc=128
    task_name = "IMDB"
    datapath={"train":"IMDB_data/train.csv", "test":"IMDB_data/test.csv"}
    load_model_path="./result_IMDB/best_BiLSTM_SELF_ATTENTION_acc_2019-07-07-04-16-51"
    save_model_path="./result_IMDB_test/"
 opt=Config
 # load data
 dataloaders = {
    "IMDB":IMDBLoader(),
    "YELP":yelpLoader(),
    "SST-5":SSTLoader(subtree=True,fine_grained=True),
    "SST-3":SSTLoader(subtree=True,fine_grained=False)
 }
 if opt.task_name not in ["IMDB", "YELP", "SST-5", "SST-3"]:
    raise ValueError("task name must in ['IMDB', 'YELP, 'SST-5', 'SST-3']")
 dataloader = dataloaders[opt.task_name]
 datainfo=dataloader.process(opt.datapath)
 # print(datainfo.datasets["train"])
 # print(datainfo)
 # define model
 vocab=datainfo.vocabs['words']
 embed = StaticEmbedding(vocab, model_dir_or_name='en-glove-840b-300', requires_grad=True)
 model=BiLSTM_SELF_ATTENTION(init_embed=embed, num_classes=opt.num_classes, hidden_dim=opt.hidden_dim, num_layers=opt.num_layers, attention_unit=opt.attention_unit, attention_hops=opt.attention_hops, nfc=opt.nfc)
 # define loss_function and metrics
 loss=CrossEntropyLoss()
 metrics=AccuracyMetric()
 optimizer= Adam([param for param in model.parameters() if param.requires_grad==True], lr=opt.lr)
 def train(datainfo, model, optimizer, loss, metrics, opt):
    trainer = Trainer(datainfo.datasets['train'], model, optimizer=optimizer, loss=loss,
                        metrics=metrics, dev_data=datainfo.datasets['dev'], device=0, check_code_level=-1,
                        n_epochs=opt.train_epoch, save_path=opt.save_model_path)
    trainer.train()
 def test(datainfo, metrics, opt):
    # load model
    model = ModelLoader.load_pytorch_model(opt.load_model_path)
    print("model loaded!")
    # Tester
    tester = Tester(datainfo.datasets['test'], model, metrics, batch_size=4, device=0)
    acc = tester.test()
    print("acc=",acc)
 parser = argparse.ArgumentParser()
 parser.add_argument('--mode', required=True, dest="mode",help='set the model\'s model')
 args = parser.parse_args()
 if args.mode == 'train':
    train(datainfo, model, optimizer, loss, metrics, opt)
 elif args.mode == 'test':
    test(datainfo, metrics, opt)
 else:
    print('no mode specified for model!')
    parser.print_help()