import pandas as pd
import numpy as np
import faiss
import openai
import tempfile
from PyPDF2 import PdfReader
import io
from sentence_transformers import SentenceTransformer
import streamlit as st
from nltk.tokenize import word_tokenize
from nltk.corpus import stopwords
from nltk.stem import WordNetLemmatizer
from collections import Counter
import nltk
openai.api_key = st.secrets["OPENAI_API_KEY"]
@st.cache_data
def download_nltk():
nltk.download('punkt')
nltk.download('wordnet')
nltk.download('stopwords')
def chunkstring(string, length):
return (string[0+i:length+i] for i in range(0, len(string), length))
def pdf_parser(input_pdf):
pdf = PdfReader(input_pdf)
pdf_content = ""
for page in pdf.pages:
pdf_content += page.extract_text()
return pdf_content
def get_keywords(file_paths): #这里的重点是,对每一个file做尽可能简短且覆盖全面的summarization
download_nltk()
keywords_list = []
for file_path in file_paths:
with open(file_path, 'r') as file:
data = file.read()
# tokenize
words = word_tokenize(data)
# remove punctuation
words = [word for word in words if word.isalnum()]
# remove stopwords
stop_words = set(stopwords.words('english'))
words = [word for word in words if word not in stop_words]
# lemmatization
lemmatizer = WordNetLemmatizer()
words = [lemmatizer.lemmatize(word) for word in words]
# count word frequencies
word_freq = Counter(words)
# get top 20 most common words
keywords = word_freq.most_common(20)
new_keywords = []
for word in keywords:
new_keywords.append(word[0])
str_keywords = ''
for word in new_keywords:
str_keywords += word + ", "
keywords_list.append(f"Top20 frequency keywords for {file_path}: {str_keywords}")
return keywords_list
def get_completion_from_messages(messages, model="gpt-4", temperature=0):
response = openai.ChatCompletion.create(
model=model,
messages=messages,
temperature=temperature, # this is the degree of randomness of the model's output
)
return response.choices[0].message["content"]
#调用gpt API生成课程大纲 + 每节课解释,随后输出为md文档。并在课程内一直保留着
def genarating_outline(keywords, num_lessons,language):
system_message = 'You are a great AI teacher and linguist, skilled at create course outline based on summarized knowledge materials.'
user_message = f"""You are a great AI teacher and linguist,
skilled at generating course outline based on keywords of the course.
Based on keywords provided, you should carefully design a course outline.
Requirements: Through learning this course, learner should understand those key concepts.
Key concepts: {keywords}
you should output course outline in a python list format, Do not include anything else except that python list in your output.
Example output format:
[[name_lesson1, abstract_lesson1],[name_lesson2, abstrct_lesson2]]
In the example, you can see each element in this list consists of two parts: the "name_lesson" part is the name of the lesson, and the "abstract_lesson" part is the one-sentence description of the lesson, intruduces knowledge it contained.
for each lesson in this course, you should provide these two information and organize them as exemplified.
for this course, you should design {num_lessons} lessons in total.
the course outline should be written in {language}.
Start the work now.
"""
messages = [
{'role':'system',
'content': system_message},
{'role':'user',
'content': user_message},
]
response = get_completion_from_messages(messages)
list_response = ['nothing in the answers..']
try:
list_response = eval(response)
except SyntaxError:
pass
return list_response
def courseOutlineGenerating(file_paths, num_lessons, language):
summarized_materials = get_keywords(file_paths)
course_outline = genarating_outline(summarized_materials, num_lessons, language)
return course_outline
def constructVDB(file_paths):
#把KM拆解为chunks
chunks = []
for filename in file_paths:
with open(filename, 'r') as f:
content = f.read()
for chunk in chunkstring(content, 730):
chunks.append(chunk)
chunk_df = pd.DataFrame(chunks, columns=['chunk'])
#从文本chunks到embeddings
model = SentenceTransformer('paraphrase-mpnet-base-v2')
embeddings = model.encode(chunk_df['chunk'].tolist())
# convert embeddings to a dataframe
embedding_df = pd.DataFrame(embeddings.tolist())
# Concatenate the original dataframe with the embeddings
paraphrase_embeddings_df = pd.concat([chunk_df, embedding_df], axis=1)
# Save the results to a new csv file
#从embeddings到向量数据库
# Load the embeddings
embeddings = paraphrase_embeddings_df.iloc[:, 1:].values # All columns except the first (chunk text)
# Ensure that the array is C-contiguous
embeddings = np.ascontiguousarray(embeddings, dtype=np.float32)
# Preparation for Faiss
dimension = embeddings.shape[1] # the dimension of the vector space
index = faiss.IndexFlatL2(dimension)
# Normalize the vectors
faiss.normalize_L2(embeddings)
# Build the index
index.add(embeddings)
# write index to disk
return paraphrase_embeddings_df, index
def searchVDB(search_sentence, paraphrase_embeddings_df, index):
#从向量数据库中检索相应文段
try:
data = paraphrase_embeddings_df
embeddings = data.iloc[:, 1:].values # All columns except the first (chunk text)
embeddings = np.ascontiguousarray(embeddings, dtype=np.float32)
model = SentenceTransformer('paraphrase-mpnet-base-v2')
sentence_embedding = model.encode([search_sentence])
# Ensuring the sentence embedding is in the correct format
sentence_embedding = np.ascontiguousarray(sentence_embedding, dtype=np.float32)
# Searching for the top 3 nearest neighbors in the FAISS index
D, I = index.search(sentence_embedding, k=3)
# Printing the top 3 most similar text chunks
retrieved_chunks_list = []
for idx in I[0]:
retrieved_chunks_list.append(data.iloc[idx].chunk)
except Exception:
retrieved_chunks_list = []
return retrieved_chunks_list
def generateCourse(topic, materials, language):
#调用gpt4 API生成一节课的内容
system_message = 'You are a great AI teacher and linguist, skilled at writing informative and easy-to-understand course script based on given lesson topic and knowledge materials.'
user_message = f"""You are a great AI teacher and linguist,
skilled at writing informative and easy-to-understand course script based on given lesson topic and knowledge materials.
You should write a course for new hands, they need detailed and vivid explaination to understand the topic.
A high-quality course should meet requirements below:
(1) Contains enough facts, data and figures to be convincing
(2) The internal narrative is layered and logical, not a simple pile of items
Make sure all these requirements are considered when writing the lesson script content.
Please follow this procedure step-by-step when disgning the course:
Step 1. Write down the teaching purpose of the lesson initially in the script.
Step 2. Write down the outline of this lesson (outline is aligned to the teaching purpose), then follow the outline to write the content. Make sure every concept in the outline is explined adequately in the course.
Your lesson topic and abstract is within the 「」 quotes, and the knowledge materials are within the 【】 brackets.
lesson topic and abstract: 「{topic}」,
knowledge materials related to this lesson:【{materials} 】
the script should be witten in {language}, and mathematical symbols should be written in markdown form.
Start writting the script of this lesson now.
"""
messages = [
{'role':'system',
'content': system_message},
{'role':'user',
'content': user_message},
]
response = get_completion_from_messages(messages)
return response
def decorate_user_question(user_question, retrieved_chunks_for_user):
decorated_prompt = f'''You're a brilliant teaching assistant, skilled at answer stundent's question based on given materials.
student's question: 「{user_question}」
related materials:【{retrieved_chunks_for_user}】
if the given materials are irrelavant to student's question, please use your own knowledge to answer the question.
You need to break down the student's question first, find out what he really wants to ask, and then try your best to give a comprehensive answer.
The language you're answering in should aligned with what student is using.
Now you're talking to the student. Please answer.
'''
return decorated_prompt
def initialize_file(added_files):
temp_file_paths = []
with st.spinner('Processing file...'):
for added_file in added_files:
if added_file.name.endswith(".pdf"):
string = pdf_parser(added_file)
with tempfile.NamedTemporaryFile(suffix=".md", delete=False) as tmp:
tmp.write(string.encode("utf-8"))
tmp_path = tmp.name
else:
with tempfile.NamedTemporaryFile(delete=False, suffix=".md") as tmp:
tmp.write(added_file.getvalue())
tmp_path = tmp.name
temp_file_paths.append(tmp_path)
st.success('Processing file...Done')
return temp_file_paths
def initialize_vdb(temp_file_paths):
with st.spinner('Constructing vector database from provided materials...'):
embeddings_df, faiss_index = constructVDB(temp_file_paths)
st.success("Constructing vector database from provided materials...Done")
return embeddings_df, faiss_index
def initialize_outline(temp_file_paths, num_lessons, language):
with st.spinner('Generating Course Outline...'):
course_outline_list = courseOutlineGenerating(temp_file_paths, num_lessons, language)
st.success("Generating Course Outline...Done")
course_outline_string = ''
lessons_count = 0
for outline in course_outline_list:
lessons_count += 1
course_outline_string += f"{lessons_count}." + outline[0]
course_outline_string += '\n\n' + outline[1] + '\n\n'
with st.expander("Check the course outline", expanded=False):
st.write(course_outline_string)
return course_outline_list
def initialize_content(course_outline_list, embeddings_df, faiss_index, language):
count_generating_content = 0
course_content_list = []
for lesson in course_outline_list:
count_generating_content += 1
with st.spinner(f"Writing content for lesson {count_generating_content}..."):
retrievedChunksList = searchVDB(lesson, embeddings_df, faiss_index)
courseContent = generateCourse(lesson, retrievedChunksList, language)
course_content_list.append(courseContent)
st.success(f"Writing content for lesson {count_generating_content}...Done")
with st.expander(f"Learn the lesson {count_generating_content} ", expanded=False):
st.markdown(courseContent)
return course_content_list
def regenerate_outline(course_outline_list):
try:
course_outline_string = ''
lessons_count = 0
for outline in course_outline_list:
lessons_count += 1
course_outline_string += f"{lessons_count}." + outline[0]
course_outline_string += '\n\n' + outline[1] + '\n\n'
with st.expander("Check the course outline", expanded=False):
st.write(course_outline_string)
except Exception:
pass
def regenerate_content(course_content_list):
try:
count_generating_content = 0
for content in course_content_list:
count_generating_content += 1
with st.expander(f"Learn the lesson {count_generating_content} ", expanded=False):
st.markdown(content)
except Exception:
pass
def app():
st.title("OmniTutor v0.1.0")
st.markdown("""
""", unsafe_allow_html=True)
with st.sidebar:
st.image("https://siyuan-harry.oss-cn-beijing.aliyuncs.com/oss://siyuan-harry/20231021212525.png")
added_files = st.file_uploader('Upload .md and .pdf files, simultaneous mixed upload these types is supported.', type=['.md','.pdf'], accept_multiple_files=True)
num_lessons = st.slider('How many lessons do you want this course to have?', min_value=2, max_value=15, value=5, step=1)
language = 'English'
Chinese = st.checkbox('Output in Chinese')
if Chinese:
language = 'Chinese'
btn = st.button('submit')
if "description1" not in st.session_state:
st.session_state.description1 = ''
if "divider" not in st.session_state:
st.session_state.divider = ''
if "description2" not in st.session_state:
st.session_state.description2 = ''
if "embeddings_df" not in st.session_state:
st.session_state.embeddings_df = ''
if "faiss_index" not in st.session_state:
st.session_state.faiss_index = ''
if "course_outline_list" not in st.session_state:
st.session_state.course_outline_list = ''
if "course_content_list" not in st.session_state:
st.session_state.course_content_list = ''
if "openai_model" not in st.session_state:
st.session_state["openai_model"] = "gpt-3.5-turbo"
# Initialize chat history
if "messages" not in st.session_state:
st.session_state.messages = []
st.session_state.description1 = st.markdown('''
> An all-round teacher. A teaching assistant who really knows the subject
>
> Anything. Anywhere. All at once. :100:
''', unsafe_allow_html=True)
st.session_state.divider = st.subheader('How to use')
st.session_state.description2 = st.markdown('''
1. Upload learning materials in the 👈sidebar
2. Touch "submit" button
🎉 Get ready to see what happens..
'''
)
if btn:
while True:
st.session_state.description1.empty()
st.session_state.divider.empty()
st.session_state.description2.empty()
#initialize app
temp_file_paths = initialize_file(added_files)
st.session_state.embeddings_df, st.session_state.faiss_index = initialize_vdb(temp_file_paths)
st.session_state.course_outline_list = initialize_outline(temp_file_paths, num_lessons, language)
st.session_state.course_content_list = initialize_content(st.session_state.course_outline_list, st.session_state.embeddings_df, st.session_state.faiss_index, language)
regenerate_button = st.button("Regenerate this course")
confirm_button = st.button("This course is okay!")
if regenerate_button:
continue
elif confirm_button:
break
col1, col2 = st.columns([0.6,0.4])
user_question = st.chat_input("Enter your questions when learning...")
if user_question:
st.session_state.description1.empty()
st.session_state.divider.empty()
st.session_state.description2.empty()
with col1:
#把课程大纲打印出来
regenerate_outline(st.session_state.course_outline_list)
#把课程内容打印出来
regenerate_content(st.session_state.course_content_list)
with col2:
st.caption(''':blue[AI Assistant]: Ask this TA any questions related to this course and get direct answers. :sunglasses:''')
# Set a default model
with st.chat_message("assistant"):
st.write("Hello👋, how can I help you today? 😄")
# Display chat messages from history on app rerun
for message in st.session_state.messages:
with st.chat_message(message["role"]):
st.markdown(message["content"][0])
# Display new user question.
with st.chat_message("user"):
st.markdown(user_question)
#这里的session.state就是保存了这个对话会话的一些基本信息和设置
retrieved_chunks_for_user = searchVDB(user_question, st.session_state.embeddings_df, st.session_state.faiss_index)
prompt = decorate_user_question(user_question, retrieved_chunks_for_user)
st.session_state.messages.append({"role": "user", "content": [user_question, prompt]})
# Display assistant response in chat message container
with st.chat_message("assistant"):
message_placeholder = st.empty()
full_response = ""
for response in openai.ChatCompletion.create(
model=st.session_state["openai_model"],
messages=[{"role": "user", "content": prompt}],
stream=True,
):
full_response += response.choices[0].delta.get("content", "")
message_placeholder.markdown(full_response + "▌")
message_placeholder.markdown(full_response)
st.session_state.messages.append({"role": "assistant", "content": [full_response,1]})
if __name__ == "__main__":
app()