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document_augmentation.py
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document_augmentation.py
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import sys
import os
import re
from langchain.docstore.document import Document
from langchain.vectorstores import FAISS
from enum import Enum
from langchain.embeddings.openai import OpenAIEmbeddings
from langchain_openai import ChatOpenAI
from typing import Any, Dict, List, Tuple
from pydantic import BaseModel, Field
import argparse
from dotenv import load_dotenv
load_dotenv()
os.environ["OPENAI_API_KEY"] = os.getenv('OPENAI_API_KEY')
sys.path.append(os.path.abspath(os.path.join(os.getcwd(), '..'))) # Add the parent directory to the path
from helper_functions import *
class QuestionGeneration(Enum):
"""
Enum class to specify the level of question generation for document processing.
"""
DOCUMENT_LEVEL = 1
FRAGMENT_LEVEL = 2
DOCUMENT_MAX_TOKENS = 4000
DOCUMENT_OVERLAP_TOKENS = 100
FRAGMENT_MAX_TOKENS = 128
FRAGMENT_OVERLAP_TOKENS = 16
QUESTION_GENERATION = QuestionGeneration.DOCUMENT_LEVEL
QUESTIONS_PER_DOCUMENT = 40
class QuestionList(BaseModel):
question_list: List[str] = Field(..., title="List of questions generated for the document or fragment")
class OpenAIEmbeddingsWrapper(OpenAIEmbeddings):
"""
A wrapper class for OpenAI embeddings, providing a similar interface to the original OllamaEmbeddings.
"""
def __call__(self, query: str) -> List[float]:
return self.embed_query(query)
def clean_and_filter_questions(questions: List[str]) -> List[str]:
cleaned_questions = []
for question in questions:
cleaned_question = re.sub(r'^\d+\.\s*', '', question.strip())
if cleaned_question.endswith('?'):
cleaned_questions.append(cleaned_question)
return cleaned_questions
def generate_questions(text: str) -> List[str]:
llm = ChatOpenAI(model="gpt-4o-mini", temperature=0)
prompt = PromptTemplate(
input_variables=["context", "num_questions"],
template="Using the context data: {context}\n\nGenerate a list of at least {num_questions} "
"possible questions that can be asked about this context."
)
chain = prompt | llm.with_structured_output(QuestionList)
input_data = {"context": text, "num_questions": QUESTIONS_PER_DOCUMENT}
result = chain.invoke(input_data)
questions = result.question_list
return list(set(clean_and_filter_questions(questions)))
def generate_answer(content: str, question: str) -> str:
llm = ChatOpenAI(model="gpt-4o-mini", temperature=0)
prompt = PromptTemplate(
input_variables=["context", "question"],
template="Using the context data: {context}\n\nProvide a brief and precise answer to the question: {question}"
)
chain = prompt | llm
input_data = {"context": content, "question": question}
return chain.invoke(input_data)
def split_document(document: str, chunk_size: int, chunk_overlap: int) -> List[str]:
tokens = re.findall(r'\b\w+\b', document)
chunks = []
for i in range(0, len(tokens), chunk_size - chunk_overlap):
chunk_tokens = tokens[i:i + chunk_size]
chunks.append(chunk_tokens)
if i + chunk_size >= len(tokens):
break
return [" ".join(chunk) for chunk in chunks]
def print_document(comment: str, document: Any) -> None:
print(f'{comment} (type: {document.metadata["type"]}, index: {document.metadata["index"]}): {document.page_content}')
class DocumentProcessor:
def __init__(self, content: str, embedding_model: OpenAIEmbeddings):
self.content = content
self.embedding_model = embedding_model
def run(self):
text_documents = split_document(self.content, DOCUMENT_MAX_TOKENS, DOCUMENT_OVERLAP_TOKENS)
print(f'Text content split into: {len(text_documents)} documents')
documents = []
counter = 0
for i, text_document in enumerate(text_documents):
text_fragments = split_document(text_document, FRAGMENT_MAX_TOKENS, FRAGMENT_OVERLAP_TOKENS)
print(f'Text document {i} - split into: {len(text_fragments)} fragments')
for j, text_fragment in enumerate(text_fragments):
documents.append(Document(
page_content=text_fragment,
metadata={"type": "ORIGINAL", "index": counter, "text": text_document}
))
counter += 1
if QUESTION_GENERATION == QuestionGeneration.FRAGMENT_LEVEL:
questions = generate_questions(text_fragment)
documents.extend([
Document(page_content=question,
metadata={"type": "AUGMENTED", "index": counter + idx, "text": text_document})
for idx, question in enumerate(questions)
])
counter += len(questions)
print(f'Text document {i} Text fragment {j} - generated: {len(questions)} questions')
if QUESTION_GENERATION == QuestionGeneration.DOCUMENT_LEVEL:
questions = generate_questions(text_document)
documents.extend([
Document(page_content=question,
metadata={"type": "AUGMENTED", "index": counter + idx, "text": text_document})
for idx, question in enumerate(questions)
])
counter += len(questions)
print(f'Text document {i} - generated: {len(questions)} questions')
for document in documents:
print_document("Dataset", document)
print(f'Creating store, calculating embeddings for {len(documents)} FAISS documents')
vectorstore = FAISS.from_documents(documents, self.embedding_model)
print("Creating retriever returning the most relevant FAISS document")
return vectorstore.as_retriever(search_kwargs={"k": 1})
def parse_args():
parser = argparse.ArgumentParser(description="Process a document and create a retriever.")
parser.add_argument('--path', type=str, default='../data/Understanding_Climate_Change.pdf',
help="Path to the PDF document to process")
return parser.parse_args()
if __name__ == "__main__":
args = parse_args()
# Load sample PDF document to string variable
content = read_pdf_to_string(args.path)
# Instantiate OpenAI Embeddings class that will be used by FAISS
embedding_model = OpenAIEmbeddings()
# Process documents and create retriever
processor = DocumentProcessor(content, embedding_model)
document_query_retriever = processor.run()
# Example usage of the retriever
query = "What is climate change?"
retrieved_docs = document_query_retriever.get_relevant_documents(query)
print(f"\nQuery: {query}")
print(f"Retrieved document: {retrieved_docs[0].page_content}")
# Further query example
query = "How do freshwater ecosystems change due to alterations in climatic factors?"
retrieved_documents = document_query_retriever.get_relevant_documents(query)
for doc in retrieved_documents:
print_document("Relevant fragment retrieved", doc)
context = doc.metadata['text']
answer = generate_answer(context, query)
print(f'{os.linesep}Answer:{os.linesep}{answer}')