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import numpy as np
import pandas as pd
import random
from gensim.models import Word2Vec
import gradio as gr
from sklearn.decomposition import PCA
import plotly.graph_objects as go
import nltk
from nltk.tokenize import word_tokenize
from nltk.corpus import stopwords
from nltk.stem import PorterStemmer, WordNetLemmatizer
from nltk.tag import pos_tag
from docs import NOVEL_TEXT
def download_nltk_library():
try:
nltk.download('punkt')
nltk.download('stopwords')
nltk.download('wordnet')
nltk.download('averaged_perceptron_tagger')
nltk.download('punkt_tab')
return True
except:
return False
# Function to process each sentence
def process_text(text):
lemmatizer = WordNetLemmatizer()
stop_words = set(stopwords.words('english'))
# Tokenization
tokens = word_tokenize(text.lower())
# Remove stop words and apply lemmatization
processed_tokens = [
lemmatizer.lemmatize(token)
for token in tokens if token.isalnum() and token not in stop_words
]
return processed_tokens
# Word2Vec ๋ชจ๋ธ ํ์ต ํจ์
def train_word2vec(sentences):
model = Word2Vec(sentences, vector_size=100, window=3, min_count=2, workers=4, sg=0, epochs=100)
return model
# def preprocess_text(file_path):
# with open(file_path, 'r', encoding='utf-8') as file:
# text = file.read()
# # ํ ํฐํ ๋ฐ ํ์ฌ ํ๊น
# tokens = word_tokenize(text)
# tagged = pos_tag(tokens)
# # ๋ช
์ฌ๋ง ์ถ์ถ (NN, NNS, NNP, NNPS)
# nouns = [word.lower() for word, pos in tagged if pos.startswith('NN')]
# # ์ค๋ณต ์ ๊ฑฐ ๋ฐ ์ ๋ ฌ
# unique_nouns = sorted(set(nouns))
# # ๊ฐ๋จํ ๋ฌธ์ฅ ์์ฑ (๊ฐ ๋ช
์ฌ๋ฅผ ๊ฐ๋ณ ๋ฌธ์ฅ์ผ๋ก ์ทจ๊ธ)
# sentences = [[noun] for noun in unique_nouns]
# return sentences, unique_nouns
def apply_pca(word_vectors):
pca = PCA(n_components=3)
return pca.fit_transform(word_vectors)
# def process_text(file_path, target_word):
def get_unique(model):
vocablist1=list(model.wv.index_to_key)
vocablist =[]
for i in vocablist1:
vocablist.append(i)
return vocablist
def train_model(sentence):
# ์ ์ฒ๋ฆฌ
sentences=sentence
# Word2Vec ๋ชจ๋ธ ํ์ต
model = train_word2vec(sentences)
unique_words = get_unique(model)
return model, unique_words
def process_model(target_word):
# Word2Vec ๋ชจ๋ธ ๋ก๋
model = Word2Vec.load("word2vec.model")
unique_words = get_unique(model)
# ๊ฐ ๋จ์ด์ ์๋ฒ ๋ฉ ๋ฒกํฐ ์ถ์ถ
word_vectors = np.array([model.wv[word] for word in unique_words])
# PCA๋ก ์ฐจ์ ์ถ์
word_vectors_3d = apply_pca(word_vectors)
# ์์ ์ค์ (ํฌ๋ช
๋ ์ถ๊ฐ)
colors = ['rgba(255, 255, 255, 0.15)' if word != target_word else 'rgba(255, 20, 147, 0.9)' for word in unique_words]
# ๊ฐ์ฅ ๊ฐ๊น์ด ๋จ์ด 10๊ฐ ์ฐพ๊ธฐ
if target_word in model.wv:
similar_words = model.wv.most_similar(target_word, topn=10)
similar_word_indices = [unique_words.index(word) for word, _ in similar_words]
for idx in similar_word_indices:
colors[idx] = 'rgba(255, 165, 0, 1)' # ๊ฐ๊น์ด ๋จ์ด๋ค์ ์ฃผํฉ์์ผ๋ก ํ์
# ๊ฐ์ฅ ๋จผ ๋จ์ด 10๊ฐ ์ฐพ๊ธฐ
if target_word in model.wv:
all_words = model.wv.index_to_key # ๋ชจ๋ธ์ ํฌํจ๋ ๋ชจ๋ ๋จ์ด ๋ฆฌ์คํธ
dissimilar_words = sorted(
[(word, model.wv.similarity(target_word, word)) for word in all_words if word != target_word],
key=lambda x: x[1]
)[:10] # ์ ์ฌ๋๊ฐ ๊ฐ์ฅ ๋ฎ์ 10๊ฐ ๋จ์ด ์ ํ
dissimilar_word_indices = [unique_words.index(word) for word, _ in dissimilar_words]
for idx in dissimilar_word_indices:
colors[idx] = 'rgba(138, 43, 226, 0.8)' # ๊ฐ์ฅ ๋จผ ๋จ์ด๋ค์ ๋ณด๋ผ์์ผ๋ก ํ์
# Plotly๋ฅผ ์ฌ์ฉํ 3D ์ฐ์ ๋ ์์ฑ
fig = go.Figure(data=[go.Scatter3d(
x=word_vectors_3d[:, 0],
y=word_vectors_3d[:, 1],
z=word_vectors_3d[:, 2],
mode='markers+text',
text=unique_words,
textposition="top center",
marker=dict(
size=4,
color=colors,
)
)])
fig.update_layout(
title="Word Embeddings 3D Visualization",
scene=dict(
xaxis_title="X",
yaxis_title="Y",
zaxis_title="Z"
),
width=800,
height=800
)
# ๊ฐ์ฅ ๊ฐ๊น์ด ๋จ์ด 10๊ฐ ๋ชฉ๋ก ์์ฑ
similar_words_text = ""
if target_word in model.wv:
similar_words_text = "๊ฐ์ฅ ๊ฐ๊น์ด ๋จ์ด 10๊ฐ:\n" + "\n".join([f"{word}: {score:.4f}" for word, score in similar_words])
dissimilar_words_text = ""
if target_word in model.wv:
dissimilar_words_text = "๊ฐ์ฅ ๋จผ ๋จ์ด 10๊ฐ:\n" + "\n".join([f"{word}: {score:.4f}" for word, score in dissimilar_words])
return fig, similar_words_text, dissimilar_words_text
def change_button_state_true():
# If the first button is clicked, enable or disable the second button based on its state
return gr.update(interactive=True)
def change_button_state_false():
# If the first button is clicked, enable or disable the second button based on its state
return gr.update(interactive=False)
# Gradio ์ธํฐํ์ด์ค ์์
with gr.Blocks(css=".plot-box {width: 70%; height: 500px;}") as iface:
gr.Markdown("# Word Embedding 3D ์๊ฐํ")
gr.Markdown("๋จ์ด๋ฅผ ์
๋ ฅํ์ธ์. Word2Vec๊ณผ PCA๋ฅผ ์ฌ์ฉํ์ฌ ๋จ์ด ์๋ฒ ๋ฉ์ 3D๋ก ์๊ฐํํฉ๋๋ค. ์
๋ ฅํ ๋จ์ด๋ ๋นจ๊ฐ์์ผ๋ก, ๊ฐ์ฅ ์ ์ฌํ 10๊ฐ ๋จ์ด๋ ์ด๋ก์, ๊ฐ์ฅ ๋จผ ๋จ์ด๋ ๋ณด๋ผ์์ผ๋ก ๊ฐ์กฐ๋ฉ๋๋ค. ์ ์ฌํ ๋จ์ด ๋ชฉ๋ก์ ๊ทธ๋ํ ์๋์ ํ์๋ฉ๋๋ค.")
download_nltk_library()
with gr.Row():
word_input = gr.Textbox(label="**๊ฐ์กฐํ ๋จ์ด ์
๋ ฅ**", elem_id="input-box", placeholder="๋จ์ด๋ฅผ ์
๋ ฅํ์ธ์", lines=1, interactive=False)
with gr.Column(scale=1):
# ์ฌ์ฉ์ ์
๋ ฅ ๋ฐ์ค๋ฅผ ๊ฐ์กฐํ๊ธฐ ์ํด ์คํ์ผ์ ๋ณ๊ฒฝ
# word_input = gr.Textbox(label="**๊ฐ์กฐํ ๋จ์ด ์
๋ ฅ**", elem_id="input-box", placeholder="๋จ์ด๋ฅผ ์
๋ ฅํ์ธ์", lines=1)
load_btn = gr.Button("๋ชจ๋ธ ๋ก๋ง", elem_id="submit-btn")
submit_btn = gr.Button("๋จ์ด ์
๋ ฅ", elem_id="submit-btn", interactive=False)
with gr.Row():
# ์๊ฐํ ํ๋ฉด์ ํฌ๊ธฐ๋ฅผ CSS๋ก ์ฆ๊ฐ
plot_output = gr.Plot(label="Word Embedding 3D ์๊ฐํ", elem_id="plot-box")
with gr.Column(scale=0.3): # ์ปฌ๋ผ์ ๋๋น๋ฅผ ์ค์ด๊ธฐ ์ํด scale ๊ฐ์ ๋ฎ์ถค
similar_words_output = gr.Textbox(label="์ ์ฌํ ๋จ์ด", interactive=False, lines=5)
dissimilar_words_output = gr.Textbox(label="์ ์ฌํ์ง ์์ ๋จ์ด", interactive=False, lines=5)
load_btn.click(
fn=process_model,
inputs=[word_input],
outputs=[plot_output, similar_words_output, dissimilar_words_output]
)
load_btn.click(
fn=change_button_state_true,
outputs=submit_btn
)
load_btn.click(
fn=change_button_state_true,
outputs=word_input
)
submit_btn.click(
fn=process_model,
inputs=[word_input],
outputs=[plot_output, similar_words_output, dissimilar_words_output]
)
submit_btn.click(
fn=change_button_state_false,
outputs=load_btn
)
if __name__ == "__main__":
iface.launch()
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