| --- |
| language: |
| - zh |
| tags: |
| - SequenceClassification |
| - 古文 |
| - 文言文 |
| - ancient |
| - classical |
| - letter |
| - 书信标题 |
| license: cc-by-nc-sa-4.0 |
| --- |
| |
| # BertForSequenceClassification model (Classical Chinese) |
| [](https://colab.research.google.com/drive/1jVu2LrNwkLolItPALKGNjeT6iCfzF8Ic?usp=sharing/) |
|
|
| This BertForSequenceClassification Classical Chinese model is intended to predict whether a Classical Chinese sentence is a letter title (书信标题) or not. This model is first inherited from the BERT base Chinese model (MLM), and finetuned using a large corpus of Classical Chinese language (3GB textual dataset), then concatenated with the BertForSequenceClassification architecture to perform a binary classification task. |
| * Labels: 0 = non-letter, 1 = letter |
|
|
| ## Model description |
|
|
| The BertForSequenceClassification model architecture inherits the BERT base model and concatenates a fully-connected linear layer to perform a binary-class classification task.More precisely, it |
| was pretrained with two objectives: |
|
|
| - Masked language modeling (MLM): The masked language modeling architecture randomly masks 15% of the words in the inputs, and the model is trained to predict the masked words. The BERT base model uses this MLM architecture and is pre-trained on a large corpus of data. BERT is proven to produce robust word embedding and can capture rich contextual and semantic relationships. Our model inherits the publicly available pre-trained BERT Chinese model trained on modern Chinese data. To perform a Classical Chinese letter classification task, we first finetuned the model using a large corpus of Classical Chinese data (3GB textual data), and then connected it to the BertForSequenceClassification architecture for Classical Chinese letter classification. |
|
|
| - Sequence classification: the model concatenates a fully-connected linear layer to output the probability of each class. In our binary classification task, the final linear layer has two classes. |
|
|
| ## Intended uses & limitations |
|
|
| Note that this model is primiarly aimed at predicting whether a Classical Chinese sentence is a letter title (书信标题) or not. |
|
|
| ### How to use |
|
|
| Note that this model is primiarly aimed at predicting whether a Classical Chinese sentence is a letter title (书信标题) or not. |
|
|
| Here is how to use this model to get the features of a given text in PyTorch: |
|
|
| 1. Import model and packages |
| ```python |
| from transformers import BertTokenizer |
| from transformers import BertForSequenceClassification |
| import torch |
| from numpy import exp |
| import numpy as np |
| |
| tokenizer = BertTokenizer.from_pretrained('bert-base-chinese') |
| model = BertForSequenceClassification.from_pretrained('cbdb/ClassicalChineseLetterClassification', |
| output_attentions=False, |
| output_hidden_states=False) |
| ``` |
|
|
| 2. Make a prediction |
| ```python |
| max_seq_len = 512 |
| |
| def softmax(vector): |
| e = exp(vector) |
| return e / e.sum() |
| |
| def predict_class(test_sen): |
| tokens_test = tokenizer.encode_plus( |
| test_sen, |
| add_special_tokens=True, |
| return_attention_mask=True, |
| padding=True, |
| max_length=max_seq_len, |
| return_tensors='pt', |
| truncation=True |
| ) |
| |
| test_seq = torch.tensor(tokens_test['input_ids']) |
| test_mask = torch.tensor(tokens_test['attention_mask']) |
| |
| # get predictions for test data |
| with torch.no_grad(): |
| outputs = model(test_seq, test_mask) |
| outputs = outputs.logits.detach().cpu().numpy() |
| |
| softmax_score = softmax(outputs) |
| pred_class_dict = {k:v for k, v in zip(label2idx.keys(), softmax_score[0])} |
| return pred_class_dict |
| |
| label2idx = {'not-letter': 0,'letter': 1} |
| idx2label = {v:k for k,v in label2idx.items()} |
| ``` |
|
|
| 3. Change your sentence here |
| ```python |
| label2idx = {'not-letter': 0,'letter': 1} |
| idx2label = {v:k for k,v in label2idx.items()} |
| |
| test_sen = '上丞相康思公書' |
| pred_class_proba = predict_class(test_sen) |
| print(f'The predicted probability for the {list(pred_class_proba.keys())[0]} class: {list(pred_class_proba.values())[0]}') |
| print(f'The predicted probability for the {list(pred_class_proba.keys())[1]} class: {list(pred_class_proba.values())[1]}') |
| >>> The predicted probability for the not-letter class: 0.002029061783105135 |
| >>> The predicted probability for the letter class: 0.9979709386825562 |
| |
| pred_class = idx2label[np.argmax(list(pred_class_proba.values()))] |
| print(f'The predicted class is: {pred_class}') |
| >>> The predicted class is: letter |
| ``` |
