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RAMYASRI-39
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be3f613
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Parent(s):
b213bee
Update app.py
Browse files
app.py
CHANGED
@@ -1,230 +1,230 @@
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# Importing libraries
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import pandas as pd
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import json
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import gradio as gr
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from pathlib import Path
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from ragatouille import RAGPretrainedModel
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from gradio_client import Client
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from tempfile import NamedTemporaryFile
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from sentence_transformers import CrossEncoder
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import numpy as np
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from time import perf_counter
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from sentence_transformers import CrossEncoder
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#calling functions from other files - to call the knowledge database tables (lancedb for accurate mode) for creating quiz
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from backend.semantic_search import table, retriever
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VECTOR_COLUMN_NAME = "vector"
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TEXT_COLUMN_NAME = "text"
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proj_dir = Path.cwd()
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# Set up logging
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import logging
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logging.basicConfig(level=logging.INFO)
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logger = logging.getLogger(__name__)
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# Replace Mixtral client with Qwen Client
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client = Client("Qwen/Qwen1.5-110B-Chat-demo")
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def system_instructions(question_difficulty, topic, documents_str):
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return f"""<s> [INST] You are a great teacher and your task is to create 10 questions with 4 choices with {question_difficulty} difficulty about the topic request "{topic}" only from the below given documents, {documents_str}. Then create answers. Index in JSON format, the questions as "Q#":"" to "Q#":"", the four choices as "Q#:C1":"" to "Q#:C4":"", and the answers as "A#":"Q#:C#" to "A#":"Q#:C#". Example: 'A10':'Q10:C3' [/INST]"""
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# Ragatouille database for Colbert ie highly accurate mode
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RAG_db = gr.State()
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quiz_data = None
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#defining a function to convert json file to excel file
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def json_to_excel(output_json):
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# Initialize list for DataFrame
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data = []
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gr.Warning('Generating Shareable file link..', duration=30)
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for i in range(1, 11): # Assuming there are 10 questions
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question_key = f"Q{i}"
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answer_key = f"A{i}"
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question = output_json.get(question_key, '')
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correct_answer_key = output_json.get(answer_key, '')
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#correct_answer = correct_answer_key.split(':')[-1] if correct_answer_key else ''
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correct_answer = correct_answer_key.split(':')[-1].replace('C', '').strip() if correct_answer_key else ''
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# Extract options
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option_keys = [f"{question_key}:C{i}" for i in range(1, 6)]
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options = [output_json.get(key, '') for key in option_keys]
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# Add data row
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data.append([
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question, # Question Text
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"Multiple Choice", # Question Type
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options[0], # Option 1
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options[1], # Option 2
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options[2] if len(options) > 2 else '', # Option 3
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options[3] if len(options) > 3 else '', # Option 4
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options[4] if len(options) > 4 else '', # Option 5
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correct_answer, # Correct Answer
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30, # Time in seconds
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'' # Image Link
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])
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# Create DataFrame
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df = pd.DataFrame(data, columns=[
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"Question Text",
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"Question Type",
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"Option 1",
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"Option 2",
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"Option 3",
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"Option 4",
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"Option 5",
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"Correct Answer",
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"Time in seconds",
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"Image Link"
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])
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temp_file = NamedTemporaryFile(delete=False, suffix=".xlsx")
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df.to_excel(temp_file.name, index=False)
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return temp_file.name
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# Define a colorful theme
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colorful_theme = gr.themes.Default(
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primary_hue="cyan", # Set a bright cyan as primary color
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secondary_hue="yellow", # Set a bright magenta as secondary color
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neutral_hue="purple" # Optionally set a neutral color
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)
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#gradio app creation for a user interface
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with gr.Blocks(title="Quiz Maker", theme=colorful_theme) as QUIZBOT:
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# Create a single row for the HTML and Image
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with gr.Row():
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with gr.Column(scale=2):
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gr.Image(value='logo.png', height=200, width=200)
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with gr.Column(scale=6):
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gr.HTML("""
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<center>
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<h1><span style="color: purple;">GOVERNMENT HIGH SCHOOL,SUTHUKENY</span>STUDENTS QUIZBOT</h1>
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<h2>Generative AI-powered Capacity building for STUDENTS</h2>
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<i>⚠️
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</center>
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""")
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topic = gr.Textbox(label="Enter the Topic for Quiz", placeholder="Write any topic/details from Customs Manual")
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with gr.Row():
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difficulty_radio = gr.Radio(["easy", "average", "hard"], label="How difficult should the quiz be?")
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model_radio = gr.Radio(choices=[ '(ACCURATE) BGE reranker', '(HIGH ACCURATE) ColBERT'],
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value='(ACCURATE) BGE reranker', label="Embeddings",
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info="First query to ColBERT may take a little time")
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generate_quiz_btn = gr.Button("Generate Quiz!🚀")
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quiz_msg = gr.Textbox()
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question_radios = [gr.Radio(visible=False) for _ in range(10)]
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@generate_quiz_btn.click(inputs=[difficulty_radio, topic, model_radio], outputs=[quiz_msg] + question_radios + [gr.File(label="Download Excel")])
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def generate_quiz(question_difficulty, topic, cross_encoder):
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top_k_rank = 10
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documents = []
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gr.Warning('Generating Quiz may take 1-2 minutes. Please wait.', duration=60)
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if cross_encoder == '(HIGH ACCURATE) ColBERT':
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gr.Warning('Retrieving using ColBERT.. First-time query will take 2 minute for model to load.. please wait',duration=100)
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RAG = RAGPretrainedModel.from_pretrained("colbert-ir/colbertv2.0")
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RAG_db.value = RAG.from_index('.ragatouille/colbert/indexes/cbseclass10index')
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documents_full = RAG_db.value.search(topic, k=top_k_rank)
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documents = [item['content'] for item in documents_full]
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else:
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document_start = perf_counter()
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query_vec = retriever.encode(topic)
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doc1 = table.search(query_vec, vector_column_name=VECTOR_COLUMN_NAME).limit(top_k_rank)
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documents = table.search(query_vec, vector_column_name=VECTOR_COLUMN_NAME).limit(top_k_rank).to_list()
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documents = [doc[TEXT_COLUMN_NAME] for doc in documents]
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query_doc_pair = [[topic, doc] for doc in documents]
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# if cross_encoder == '(FAST) MiniLM-L6v2':
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# cross_encoder1 = CrossEncoder('cross-encoder/ms-marco-MiniLM-L-6-v2')
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if cross_encoder == '(ACCURATE) BGE reranker':
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cross_encoder1 = CrossEncoder('BAAI/bge-reranker-base')
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cross_scores = cross_encoder1.predict(query_doc_pair)
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sim_scores_argsort = list(reversed(np.argsort(cross_scores)))
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documents = [documents[idx] for idx in sim_scores_argsort[:top_k_rank]]
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#creating a text prompt to Qwen model combining the documents and system instruction
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formatted_prompt = system_instructions(question_difficulty, topic, '\n'.join(documents))
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print(' Formatted Prompt : ' ,formatted_prompt)
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try:
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response = client.predict(query=formatted_prompt, history=[], system="You are a helpful assistant.", api_name="/model_chat")
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response1 = response[1][0][1]
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# Extract JSON
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start_index = response1.find('{')
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end_index = response1.rfind('}')
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cleaned_response = response1[start_index:end_index + 1] if start_index != -1 and end_index != -1 else ''
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print('Cleaned Response :',cleaned_response)
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output_json = json.loads(cleaned_response)
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# Assign the extracted JSON to quiz_data for use in the comparison function
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global quiz_data
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quiz_data = output_json
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# Generate the Excel file
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excel_file = json_to_excel(output_json)
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#Create a Quiz display in app
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question_radio_list = []
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for question_num in range(1, 11):
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question_key = f"Q{question_num}"
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answer_key = f"A{question_num}"
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question = output_json.get(question_key)
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answer = output_json.get(output_json.get(answer_key))
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if not question or not answer:
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continue
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choice_keys = [f"{question_key}:C{i}" for i in range(1, 5)]
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choice_list = [output_json.get(choice_key, "Choice not found") for choice_key in choice_keys]
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radio = gr.Radio(choices=choice_list, label=question, visible=True, interactive=True)
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question_radio_list.append(radio)
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return ['Quiz Generated!'] + question_radio_list + [excel_file]
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except json.JSONDecodeError as e:
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print(f"Failed to decode JSON: {e}")
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check_button = gr.Button("Check Score")
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score_textbox = gr.Markdown()
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@check_button.click(inputs=question_radios, outputs=score_textbox)
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def compare_answers(*user_answers):
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user_answer_list = list(user_answers)
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answers_list = []
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for question_num in range(1, 20):
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answer_key = f"A{question_num}"
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answer = quiz_data.get(quiz_data.get(answer_key))
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if not answer:
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break
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answers_list.append(answer)
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score = sum(1 for item in user_answer_list if item in answers_list)
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if score > 7:
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message = f"### Excellent! You got {score} out of 10!"
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elif score > 5:
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message = f"### Good! You got {score} out of 10!"
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else:
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message = f"### You got {score} out of 10! Don't worry. You can prepare well and try better next time!"
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return message
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QUIZBOT.queue()
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QUIZBOT.launch(debug=True)
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# Importing libraries
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import pandas as pd
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import json
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import gradio as gr
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from pathlib import Path
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from ragatouille import RAGPretrainedModel
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from gradio_client import Client
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from tempfile import NamedTemporaryFile
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from sentence_transformers import CrossEncoder
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import numpy as np
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from time import perf_counter
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from sentence_transformers import CrossEncoder
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#calling functions from other files - to call the knowledge database tables (lancedb for accurate mode) for creating quiz
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from backend.semantic_search import table, retriever
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VECTOR_COLUMN_NAME = "vector"
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TEXT_COLUMN_NAME = "text"
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proj_dir = Path.cwd()
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# Set up logging
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import logging
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logging.basicConfig(level=logging.INFO)
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logger = logging.getLogger(__name__)
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# Replace Mixtral client with Qwen Client
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client = Client("Qwen/Qwen1.5-110B-Chat-demo")
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def system_instructions(question_difficulty, topic, documents_str):
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return f"""<s> [INST] You are a great teacher and your task is to create 10 questions with 4 choices with {question_difficulty} difficulty about the topic request "{topic}" only from the below given documents, {documents_str}. Then create answers. Index in JSON format, the questions as "Q#":"" to "Q#":"", the four choices as "Q#:C1":"" to "Q#:C4":"", and the answers as "A#":"Q#:C#" to "A#":"Q#:C#". Example: 'A10':'Q10:C3' [/INST]"""
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# Ragatouille database for Colbert ie highly accurate mode
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RAG_db = gr.State()
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quiz_data = None
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#defining a function to convert json file to excel file
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def json_to_excel(output_json):
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# Initialize list for DataFrame
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data = []
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gr.Warning('Generating Shareable file link..', duration=30)
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for i in range(1, 11): # Assuming there are 10 questions
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question_key = f"Q{i}"
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answer_key = f"A{i}"
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question = output_json.get(question_key, '')
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correct_answer_key = output_json.get(answer_key, '')
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#correct_answer = correct_answer_key.split(':')[-1] if correct_answer_key else ''
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correct_answer = correct_answer_key.split(':')[-1].replace('C', '').strip() if correct_answer_key else ''
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# Extract options
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option_keys = [f"{question_key}:C{i}" for i in range(1, 6)]
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options = [output_json.get(key, '') for key in option_keys]
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# Add data row
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data.append([
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question, # Question Text
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"Multiple Choice", # Question Type
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options[0], # Option 1
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options[1], # Option 2
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options[2] if len(options) > 2 else '', # Option 3
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options[3] if len(options) > 3 else '', # Option 4
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options[4] if len(options) > 4 else '', # Option 5
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correct_answer, # Correct Answer
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30, # Time in seconds
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'' # Image Link
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])
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# Create DataFrame
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df = pd.DataFrame(data, columns=[
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"Question Text",
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"Question Type",
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"Option 1",
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"Option 2",
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"Option 3",
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"Option 4",
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"Option 5",
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"Correct Answer",
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"Time in seconds",
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"Image Link"
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])
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temp_file = NamedTemporaryFile(delete=False, suffix=".xlsx")
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df.to_excel(temp_file.name, index=False)
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return temp_file.name
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# Define a colorful theme
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colorful_theme = gr.themes.Default(
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primary_hue="cyan", # Set a bright cyan as primary color
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secondary_hue="yellow", # Set a bright magenta as secondary color
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neutral_hue="purple" # Optionally set a neutral color
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)
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#gradio app creation for a user interface
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with gr.Blocks(title="Quiz Maker", theme=colorful_theme) as QUIZBOT:
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# Create a single row for the HTML and Image
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with gr.Row():
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with gr.Column(scale=2):
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gr.Image(value='logo.png', height=200, width=200)
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with gr.Column(scale=6):
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gr.HTML("""
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<center>
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<h1><span style="color: purple;">GOVERNMENT HIGH SCHOOL,SUTHUKENY</span> STUDENTS QUIZBOT</h1>
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<h2>Generative AI-powered Capacity building for STUDENTS</h2>
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<i>⚠️STUDENTS CAN CREATE QUIZ AND EVALUATE BY THEMSELVES ! ⚠️</i>
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</center>
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""")
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topic = gr.Textbox(label="Enter the Topic for Quiz", placeholder="Write any topic/details from Customs Manual")
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with gr.Row():
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difficulty_radio = gr.Radio(["easy", "average", "hard"], label="How difficult should the quiz be?")
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model_radio = gr.Radio(choices=[ '(ACCURATE) BGE reranker', '(HIGH ACCURATE) ColBERT'],
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value='(ACCURATE) BGE reranker', label="Embeddings",
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info="First query to ColBERT may take a little time")
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generate_quiz_btn = gr.Button("Generate Quiz!🚀")
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quiz_msg = gr.Textbox()
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question_radios = [gr.Radio(visible=False) for _ in range(10)]
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@generate_quiz_btn.click(inputs=[difficulty_radio, topic, model_radio], outputs=[quiz_msg] + question_radios + [gr.File(label="Download Excel")])
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def generate_quiz(question_difficulty, topic, cross_encoder):
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top_k_rank = 10
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documents = []
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gr.Warning('Generating Quiz may take 1-2 minutes. Please wait.', duration=60)
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if cross_encoder == '(HIGH ACCURATE) ColBERT':
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gr.Warning('Retrieving using ColBERT.. First-time query will take 2 minute for model to load.. please wait',duration=100)
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RAG = RAGPretrainedModel.from_pretrained("colbert-ir/colbertv2.0")
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136 |
+
RAG_db.value = RAG.from_index('.ragatouille/colbert/indexes/cbseclass10index')
|
137 |
+
documents_full = RAG_db.value.search(topic, k=top_k_rank)
|
138 |
+
documents = [item['content'] for item in documents_full]
|
139 |
+
|
140 |
+
else:
|
141 |
+
document_start = perf_counter()
|
142 |
+
query_vec = retriever.encode(topic)
|
143 |
+
doc1 = table.search(query_vec, vector_column_name=VECTOR_COLUMN_NAME).limit(top_k_rank)
|
144 |
+
|
145 |
+
documents = table.search(query_vec, vector_column_name=VECTOR_COLUMN_NAME).limit(top_k_rank).to_list()
|
146 |
+
documents = [doc[TEXT_COLUMN_NAME] for doc in documents]
|
147 |
+
|
148 |
+
query_doc_pair = [[topic, doc] for doc in documents]
|
149 |
+
|
150 |
+
# if cross_encoder == '(FAST) MiniLM-L6v2':
|
151 |
+
# cross_encoder1 = CrossEncoder('cross-encoder/ms-marco-MiniLM-L-6-v2')
|
152 |
+
if cross_encoder == '(ACCURATE) BGE reranker':
|
153 |
+
cross_encoder1 = CrossEncoder('BAAI/bge-reranker-base')
|
154 |
+
|
155 |
+
cross_scores = cross_encoder1.predict(query_doc_pair)
|
156 |
+
sim_scores_argsort = list(reversed(np.argsort(cross_scores)))
|
157 |
+
documents = [documents[idx] for idx in sim_scores_argsort[:top_k_rank]]
|
158 |
+
|
159 |
+
#creating a text prompt to Qwen model combining the documents and system instruction
|
160 |
+
formatted_prompt = system_instructions(question_difficulty, topic, '\n'.join(documents))
|
161 |
+
print(' Formatted Prompt : ' ,formatted_prompt)
|
162 |
+
try:
|
163 |
+
response = client.predict(query=formatted_prompt, history=[], system="You are a helpful assistant.", api_name="/model_chat")
|
164 |
+
response1 = response[1][0][1]
|
165 |
+
|
166 |
+
# Extract JSON
|
167 |
+
start_index = response1.find('{')
|
168 |
+
end_index = response1.rfind('}')
|
169 |
+
cleaned_response = response1[start_index:end_index + 1] if start_index != -1 and end_index != -1 else ''
|
170 |
+
print('Cleaned Response :',cleaned_response)
|
171 |
+
output_json = json.loads(cleaned_response)
|
172 |
+
# Assign the extracted JSON to quiz_data for use in the comparison function
|
173 |
+
global quiz_data
|
174 |
+
quiz_data = output_json
|
175 |
+
# Generate the Excel file
|
176 |
+
excel_file = json_to_excel(output_json)
|
177 |
+
|
178 |
+
|
179 |
+
#Create a Quiz display in app
|
180 |
+
question_radio_list = []
|
181 |
+
for question_num in range(1, 11):
|
182 |
+
question_key = f"Q{question_num}"
|
183 |
+
answer_key = f"A{question_num}"
|
184 |
+
|
185 |
+
question = output_json.get(question_key)
|
186 |
+
answer = output_json.get(output_json.get(answer_key))
|
187 |
+
|
188 |
+
if not question or not answer:
|
189 |
+
continue
|
190 |
+
|
191 |
+
choice_keys = [f"{question_key}:C{i}" for i in range(1, 5)]
|
192 |
+
choice_list = [output_json.get(choice_key, "Choice not found") for choice_key in choice_keys]
|
193 |
+
|
194 |
+
radio = gr.Radio(choices=choice_list, label=question, visible=True, interactive=True)
|
195 |
+
question_radio_list.append(radio)
|
196 |
+
|
197 |
+
return ['Quiz Generated!'] + question_radio_list + [excel_file]
|
198 |
+
|
199 |
+
except json.JSONDecodeError as e:
|
200 |
+
print(f"Failed to decode JSON: {e}")
|
201 |
+
|
202 |
+
check_button = gr.Button("Check Score")
|
203 |
+
score_textbox = gr.Markdown()
|
204 |
+
|
205 |
+
@check_button.click(inputs=question_radios, outputs=score_textbox)
|
206 |
+
def compare_answers(*user_answers):
|
207 |
+
user_answer_list = list(user_answers)
|
208 |
+
answers_list = []
|
209 |
+
|
210 |
+
for question_num in range(1, 20):
|
211 |
+
answer_key = f"A{question_num}"
|
212 |
+
answer = quiz_data.get(quiz_data.get(answer_key))
|
213 |
+
if not answer:
|
214 |
+
break
|
215 |
+
answers_list.append(answer)
|
216 |
+
|
217 |
+
score = sum(1 for item in user_answer_list if item in answers_list)
|
218 |
+
|
219 |
+
if score > 7:
|
220 |
+
message = f"### Excellent! You got {score} out of 10!"
|
221 |
+
elif score > 5:
|
222 |
+
message = f"### Good! You got {score} out of 10!"
|
223 |
+
else:
|
224 |
+
message = f"### You got {score} out of 10! Don't worry. You can prepare well and try better next time!"
|
225 |
+
|
226 |
+
return message
|
227 |
+
|
228 |
+
QUIZBOT.queue()
|
229 |
+
QUIZBOT.launch(debug=True)
|
230 |
+
|