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import datetime
import numpy as np
import pandas as pd
import re
import json
import os
import glob
import torch
import torch.nn.functional as F
from torch.optim import Adam
from tqdm.notebook import tqdm
from torch import nn
from transformers import BertModel
from transformers import AutoTokenizer
import argparse
def split_essay_to_sentence(origin_essay):
origin_essay_sentence = sum([[a.strip() for a in i.split('.')] for i in origin_essay.split('\n')], [])
essay_sent = [a for a in origin_essay_sentence if len(a) > 0]
return essay_sent
def get_first_extraction(text_sentence):
row_dict = {}
for row in tqdm(text_sentence):
question = 'what is the feeling?'
answer = question_answerer(question=question, context=row)
row_dict[row] = answer
return row_dict
def get_sent_labeldata():
label =pd.read_csv('./rawdata/sentimental_label.csv', encoding = 'cp949', header = None)
label[1] = label[1].apply(lambda x : re.findall(r'[๊ฐ-ํฃ]+', x)[0])
label_dict =label[label.index % 10 == 0].set_index(0).to_dict()[1]
emo2idx = {v : k for k, v in enumerate(label_dict.items())}
idx2emo = {v : k[1] for k, v in emo2idx.items()}
return emo2idx, idx2emo
def load_model():
class BertClassifier(nn.Module):
def __init__(self, dropout = 0.3):
super(BertClassifier, self).__init__()
self.bert= BertModel.from_pretrained('bert-base-multilingual-cased')
self.dropout = nn.Dropout(dropout)
self.linear = nn.Linear(768, 6)
self.relu = nn.ReLU()
def forward(self, input_id, mask):
_, pooled_output = self.bert(input_ids = input_id, attention_mask = mask, return_dict = False)
dropout_output = self.dropout(pooled_output)
linear_output = self.linear(dropout_output)
final_layer= self.relu(linear_output)
return final_layer
tokenizer = AutoTokenizer.from_pretrained('bert-base-multilingual-cased')
device = 'cuda' if torch.cuda.is_available() else 'cpu'
cls_model = BertClassifier()
criterion = nn.CrossEntropyLoss()
model_name = 'bert-base-multilingual-cased'
PATH = './model' + '/' + model_name + '_' + '2023102410'
print(PATH)
cls_model = torch.load(PATH)
#cls_model.load_state_dict(torch.load(PATH))
return tokenizer, cls_model
class myDataset_for_infer(torch.utils.data.Dataset):
def __init__(self, X):
self.X = X
def __len__(self):
return len(self.X)
def __getitem__(self,idx):
sentences = tokenizer(self.X[idx], return_tensors = 'pt', padding = 'max_length', max_length = 128, truncation = True)
return sentences
def infer_data(model, main_feeling_keyword):
#ds = myDataset_for_infer()
df_infer = myDataset_for_infer(main_feeling_keyword)
infer_dataloader = torch.utils.data.DataLoader(df_infer, batch_size= 16)
device = 'cuda' if torch.cuda.is_available() else 'cpu'
if device == 'cuda':
model = model.cuda()
result_list = []
with torch.no_grad():
for idx, infer_input in tqdm(enumerate(infer_dataloader)):
mask = infer_input['attention_mask'].to(device)
input_id = infer_input['input_ids'].squeeze(1).to(device)
output = model(input_id, mask)
result = np.argmax(F.softmax(output, dim=0).cpu(), axis=1).numpy()
result_list.extend(result)
return result_list
def get_word_emotion_pair(cls_model, origin_essay_sentence):
from konlpy.tag import Okt
okt = Okt()
#text = '๋๋ ์ ์๋ง๋ง ๋ฏธ์ํ์๊น'
def get_noun(text):
noun_list = [k for k, v in okt.pos(text) if (v == 'Noun' and len(k) > 1)]
return noun_list
def get_adj(text):
adj_list = [k for k, v in okt.pos(text) if (v == 'Adjective') and (len(k) > 1)]
return adj_list
def get_verb(text):
verb_list = [k for k, v in okt.pos(text) if (v == 'Verb') and (len(k) > 1)]
return verb_list
result_list = infer_data(cls_model, origin_essay_sentence)
final_result = pd.DataFrame(data = {'text': origin_essay_sentence , 'label' : result_list})
final_result['emotion'] = final_result['label'].map(idx2emo)
final_result['noun_list'] = final_result['text'].map(get_noun)
final_result['adj_list'] = final_result['text'].map(get_adj)
final_result['verb_list'] = final_result['text'].map(get_verb)
final_result['title'] = 'none'
file_made_dt = datetime.datetime.now()
file_made_dt_str = datetime.datetime.strftime(file_made_dt, '%Y%m%d_%H%M%d')
os.makedirs(f'./result/{file_made_dt_str}/', exist_ok = True)
final_result.to_csv(f"./result/{file_made_dt_str}/essay_result.csv", index = False)
return final_result, file_made_dt_str
def get_essay_base_analysis(file_made_dt_str):
essay1 = pd.read_csv(f"./result/{file_name_dt}/essay_result.csv")
essay1['noun_list_len'] = essay1['noun_list'].apply(lambda x : len(x))
essay1['noun_list_uniqlen'] = essay1['noun_list'].apply(lambda x : len(set(x)))
essay1['adj_list_len'] = essay1['adj_list'].apply(lambda x : len(x))
essay1['adj_list_uniqlen'] = essay1['adj_list'].apply(lambda x : len(set(x)))
essay1['vocab_all'] = essay1[['noun_list','adj_list']].apply(lambda x : sum((eval(x[0]),eval(x[1])), []), axis=1)
essay1['vocab_cnt'] = essay1['vocab_all'].apply(lambda x : len(x))
essay1['vocab_unique_cnt'] = essay1['vocab_all'].apply(lambda x : len(set(x)))
essay1['noun_list'] = essay1['noun_list'].apply(lambda x : eval(x))
essay1['adj_list'] = essay1['adj_list'].apply(lambda x : eval(x))
d = essay1.groupby('title')[['noun_list','adj_list']].sum([]).reset_index()
d['noun_cnt'] = d['noun_list'].apply(lambda x : len(set(x)))
d['adj_cnt'] = d['adj_list'].apply(lambda x : len(set(x)))
# ๋ฌธ์ฅ ๊ธฐ์ค ์ต๊ณ ๊ฐ์
essay_summary =essay1.groupby(['title'])['emotion'].value_counts().unstack(level =1)
emo_vocab_dict = {}
for k, v in essay1[['emotion','noun_list']].values:
for vocab in v:
if (k, 'noun', vocab) not in emo_vocab_dict:
emo_vocab_dict[(k, 'noun', vocab)] = 0
emo_vocab_dict[(k, 'noun', vocab)] += 1
for k, v in essay1[['emotion','adj_list']].values:
for vocab in v:
if (k, 'adj', vocab) not in emo_vocab_dict:
emo_vocab_dict[(k, 'adj', vocab)] = 0
emo_vocab_dict[(k, 'adj', vocab)] += 1
vocab_emo_cnt_dict = {}
for k, v in essay1[['emotion','noun_list']].values:
for vocab in v:
if (vocab, 'noun') not in vocab_emo_cnt_dict:
vocab_emo_cnt_dict[('noun', vocab)] = {}
if k not in vocab_emo_cnt_dict[( 'noun', vocab)]:
vocab_emo_cnt_dict[( 'noun', vocab)][k] = 0
vocab_emo_cnt_dict[('noun', vocab)][k] += 1
for k, v in essay1[['emotion','adj_list']].values:
for vocab in v:
if ('adj', vocab) not in vocab_emo_cnt_dict:
vocab_emo_cnt_dict[( 'adj', vocab)] = {}
if k not in vocab_emo_cnt_dict[( 'adj', vocab)]:
vocab_emo_cnt_dict[( 'adj', vocab)][k] = 0
vocab_emo_cnt_dict[('adj', vocab)][k] += 1
vocab_emo_cnt_df = pd.DataFrame(vocab_emo_cnt_dict).T
vocab_emo_cnt_df['total'] = vocab_emo_cnt_df.sum(axis=1)
# ๋จ์ด๋ณ ์ต๊ณ ๊ฐ์ ๋ฐ ๊ฐ์ ๊ฐ์
all_result=vocab_emo_cnt_df.sort_values(by = 'total', ascending = False)
# ๋จ์ด๋ณ ์ต๊ณ ๊ฐ์ ๋ฐ ๊ฐ์ ๊ฐ์ , ํ์ฉ์ฌ ํฌํจ ์
adj_result=vocab_emo_cnt_df.sort_values(by = 'total', ascending = False)
# ๋ช
์ฌ๋ง ์ฌ์ฉ ์
noun_result=vocab_emo_cnt_df[vocab_emo_cnt_df.index.get_level_values(0) == 'noun'].sort_values(by = 'total', ascending = False)
final_file_name = f"essay_all_vocab_result.csv"
adj_file_name = f"essay_adj_vocab_result.csv"
noun_file_name = f"essay_noun_vocab_result.csv"
os.makedirs(f'./result/{file_made_dt_str}/', exist_ok = True)
final_result.to_csv(f"./result/{file_made_dt_str}/essay_all_vocab_result.csv", index = False)
adj_result.to_csv(f"./result/{file_made_dt_str}/essay_adj_vocab_result.csv", index = False)
noun_result.to_csv(f"./result/{file_made_dt_str}/essay_noun_vocab_result.csv", index = False)
return final_result, adj_result, noun_result, essay_summary, file_made_dt_str
from transformers import pipeline
model_name = 'AlexKay/xlm-roberta-large-qa-multilingual-finedtuned-ru'
question_answerer = pipeline("question-answering", model=model_name)
class BertClassifier(nn.Module):
def __init__(self, dropout = 0.3):
super(BertClassifier, self).__init__()
self.bert= BertModel.from_pretrained('bert-base-multilingual-cased')
self.dropout = nn.Dropout(dropout)
self.linear = nn.Linear(768, 6)
self.relu = nn.ReLU()
def forward(self, input_id, mask):
_, pooled_output = self.bert(input_ids = input_id, attention_mask = mask, return_dict = False)
dropout_output = self.dropout(pooled_output)
linear_output = self.linear(dropout_output)
final_layer= self.relu(linear_output)
return final_layer
def all_process(origin_essay):
essay_sent =split_essay_to_sentence(origin_essay)
row_dict = {}
for row in tqdm(essay_sent):
question = 'what is the feeling?'
answer = question_answerer(question=question, context=row)
row_dict[row] = answer
emo2idx, idx2emo = get_sent_labeldata()
tokenizer, cls_model = load_model()
final_result, file_name_dt = get_word_emotion_pair(cls_model, essay_sent)
all_result, adj_result, noun_result, essay_summary, file_made_dt_str = get_essay_base_analysis(file_name_dt)
summary_result = pd.concat([adj_result, noun_result]).fillna(0).sort_values(by = 'total', ascending = False).fillna(0).reset_index()[:30]
with open(f'./result/{file_name_dt}/summary.json','w') as f:
json.dump( essay_summary.to_json(),f)
with open(f'./result/{file_made_dt_str}/all_result.json','w') as f:
json.dump( all_result.to_json(),f)
with open(f'./result/{file_made_dt_str}/adj_result.json','w') as f:
json.dump( adj_result.to_json(),f)
with open(f'./result/{file_made_dt_str}/noun_result.json','w') as f:
json.dump( noun_result.to_json(),f)
return essay_summary
import gradio as gr
outputs = [gr.Dataframe(row_count = (6, "dynamic"),
col_count=(2, "dynamic"),
label="Essay Summary based on Words")
#headers=['type','word','์ฌํ', '๋ถ๋
ธ', '๊ธฐ์จ', '๋ถ์', '์์ฒ', '๋นํฉ', 'total'])
]
#row_count = (10, "dynamic"),
#col_count=(9, "dynamic"),
#label="Results",
#headers=['type','word','์ฌํ', '๋ถ๋
ธ', '๊ธฐ์จ', '๋ถ์', '์์ฒ', '๋นํฉ', 'total'])
#]
iface = gr.Interface(
fn=all_process,
inputs = gr.Textbox(lines=2, placeholder= '๋น์ ์ ๊ธ์ ๋ฃ์ด๋ณด์ธ์'),
outputs = outputs,
)
iface.launch(share =True) |