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predict.py
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predict.py
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import argparse
import paddle
import paddle.nn.functional as F
import paddlenlp as ppnlp
from paddlenlp.data import JiebaTokenizer, Stack, Tuple, Pad, Vocab
from model import BoWModel, BiLSTMAttentionModel, CNNModel, LSTMModel, GRUModel, RNNModel, SelfInteractiveAttention
from utils import preprocess_prediction_data
# yapf: disable
parser = argparse.ArgumentParser(__doc__)
parser.add_argument('--device', choices=['cpu', 'gpu', 'xpu'], default="gpu", help="Select which device to train model, defaults to gpu.")
parser.add_argument("--batch_size", type=int, default=1, help="Total examples' number of a batch for training.")
parser.add_argument("--vocab_path", type=str, default="./senta_word_dict.txt", help="The path to vocabulary.")
parser.add_argument('--network', choices=['bow', 'lstm', 'bilstm', 'gru', 'bigru', 'rnn', 'birnn', 'bilstm_attn', 'cnn'],
default="bilstm", help="Select which network to train, defaults to bilstm.")
parser.add_argument("--params_path", type=str, default='./checkpoints/final.pdparams', help="The path of model parameter to be loaded.")
args = parser.parse_args()
# yapf: enable
def predict(model, data, label_map, batch_size=1, pad_token_id=0):
"""
Predicts the data labels.
Args:
model (obj:`paddle.nn.Layer`): A model to classify texts.
data (obj:`List(Example)`): The processed data whose each element is a Example (numedtuple) object.
A Example object contains `text`(word_ids) and `se_len`(sequence length).
label_map(obj:`dict`): The label id (key) to label str (value) map.
batch_size(obj:`int`, defaults to 1): The number of batch.
pad_token_id(obj:`int`, optional, defaults to 0): The pad token index.
Returns:
results(obj:`dict`): All the predictions labels.
"""
# Seperates data into some batches.
batches = [
data[idx:idx + batch_size] for idx in range(0, len(data), batch_size)
]
batchify_fn = lambda samples, fn=Tuple(
Pad(axis=0, pad_val=pad_token_id), # input_ids
Stack(dtype="int64"), # seq len
): [data for data in fn(samples)]
results = []
model.eval()
for batch in batches:
texts, seq_lens = batchify_fn(batch)
texts = paddle.to_tensor(texts)
seq_lens = paddle.to_tensor(seq_lens)
logits = model(texts, seq_lens)
probs = F.softmax(logits, axis=1)
idx = paddle.argmax(probs, axis=1).numpy()
idx = idx.tolist()
labels = [label_map[i] for i in idx]
results.extend(labels)
return results
if __name__ == "__main__":
paddle.set_device(args.device.lower())
# Loads vocab.
vocab = Vocab.load_vocabulary(
args.vocab_path, unk_token='[UNK]', pad_token='[PAD]')
label_map = {0: 'negative', 1: 'positive'}
# Constructs the newtork.
network = args.network.lower()
vocab_size = len(vocab)
num_classes = len(label_map)
pad_token_id = vocab.to_indices('[PAD]')
if network == 'bow':
model = BoWModel(vocab_size, num_classes, padding_idx=pad_token_id)
elif network == 'bigru':
model = GRUModel(
vocab_size,
num_classes,
direction='bidirect',
padding_idx=pad_token_id)
elif network == 'bilstm':
model = LSTMModel(
vocab_size,
num_classes,
direction='bidirect',
padding_idx=pad_token_id)
elif network == 'bilstm_attn':
lstm_hidden_size = 196
attention = SelfInteractiveAttention(hidden_size=2 * stm_hidden_size)
model = BiLSTMAttentionModel(
attention_layer=attention,
vocab_size=vocab_size,
lstm_hidden_size=lstm_hidden_size,
num_classes=num_classes,
padding_idx=pad_token_id)
elif network == 'birnn':
model = RNNModel(
vocab_size,
num_classes,
direction='bidirect',
padding_idx=pad_token_id)
elif network == 'cnn':
model = CNNModel(vocab_size, num_classes, padding_idx=pad_token_id)
elif network == 'gru':
model = GRUModel(
vocab_size,
num_classes,
direction='forward',
padding_idx=pad_token_id,
pooling_type='max')
elif network == 'lstm':
model = LSTMModel(
vocab_size,
num_classes,
direction='forward',
padding_idx=pad_token_id,
pooling_type='max')
elif network == 'rnn':
model = RNNModel(
vocab_size,
num_classes,
direction='forward',
padding_idx=pad_token_id,
pooling_type='max')
else:
raise ValueError(
"Unknown network: %s, it must be one of bow, lstm, bilstm, cnn, gru, bigru, rnn, birnn and bilstm_attn."
% network)
# Loads model parameters.
state_dict = paddle.load(args.params_path)
model.set_dict(state_dict)
print("Loaded parameters from %s" % args.params_path)
# Firstly pre-processing prediction data and then do predict.
data = [
'这个宾馆比较陈旧了,特价的房间也很一般。总体来说一般',
'怀着十分激动的心情放映,可是看着看着发现,在放映完毕后,出现一集米老鼠的动画片',
'作为老的四星酒店,房间依然很整洁,相当不错。机场接机服务很好,可以在车上办理入住手续,节省时间。',
]
tokenizer = JiebaTokenizer(vocab)
examples = preprocess_prediction_data(data, tokenizer)
results = predict(
model,
examples,
label_map=label_map,
batch_size=args.batch_size,
pad_token_id=vocab.token_to_idx.get("[PAD]", 0))
for idx, text in enumerate(data):
print('Data: {} \t Label: {}'.format(text, results[idx]))