import gradio as gr import ctranslate2 from transformers import AutoTokenizer from huggingface_hub import snapshot_download from codeexecutor import get_majority_vote,type_check,postprocess_completion,draw_polynomial_plot import base64 from io import BytesIO import re import os # Define the model and tokenizer loading model_prompt = "Explain and solve the following mathematical problem step by step, showing all work: " tokenizer = AutoTokenizer.from_pretrained("AI-MO/NuminaMath-7B-TIR") model_path = snapshot_download(repo_id="Makima57/deepseek-math-Numina") generator = ctranslate2.Generator(model_path, device="cpu", compute_type="int8") iterations = 4 test=True # Function to generate predictions using the model def get_prediction(question): if test==True: text="Solve the following mathematical problem: what is sum of polynomial 2x+3 and 3x?\n### Solution: To solve the problem of summing the polynomials \\(2x + 3\\) and \\(3x\\), we can follow these steps:\n\n1. Define the polynomials.\n2. Sum the polynomials.\n3. Simplify the resulting polynomial expression.\n\nLet's implement this in Python using the sympy library.\n\n```python\nimport sympy as sp\n\n# Define the variable\nx = sp.symbols('x')\n\n# Define the polynomials\npoly1 = 2*x + 3\npoly2 = 3*x\n\n# Sum the polynomials\nsum_poly = poly1 + poly2\n\n# Simplify the resulting polynomial\nsimplified_sum_poly = sp.simplify(sum_poly)\n\n# Print the simplified polynomial\nprint(simplified_sum_poly)\n```\n```output\n5*x + 3\n```\nThe sum of the polynomials \\(2x + 3\\) and \\(3x\\) is \\(\\boxed{5x + 3}\\).\n" return text input_text = model_prompt + question input_tokens = tokenizer.tokenize(input_text) results = generator.generate_batch( [input_tokens], max_length=512, sampling_temperature=0.7, sampling_topk=40, ) output_tokens = results[0].sequences[0] predicted_answer = tokenizer.convert_tokens_to_string(output_tokens) return predicted_answer # Function to parse the prediction to extract the answer and steps def parse_prediction(prediction): lines = prediction.strip().split('\n') answer = None steps = [] # for line in lines: # # Check for "Answer:" or "answer:" # match = re.match(r'^\s*(?:Answer|answer)\s*[:=]\s*(.*)', line) # if match: # answer = match.group(1).strip() # else: # answer=lines[-1].strip() # if answer is None: # # If no "Answer:" found, assume last line is the answer answer = lines[-1].strip() steps = lines steps_text = '\n'.join(steps).strip() return answer, steps_text # Function to perform majority voting and get steps def majority_vote_with_steps(question, num_iterations=10): all_predictions = [] all_answers = [] steps_list = [] for _ in range(num_iterations): prediction = get_prediction(question) answer, success = postprocess_completion(prediction, return_status=True, last_code_block=True) print(answer,success) if success: all_predictions.append(prediction) all_answers.append(answer) steps_list.append(prediction) else: answer, steps = parse_prediction(prediction) all_predictions.append(prediction) all_answers.append(answer) steps_list.append(steps) majority_voted_ans = get_majority_vote(all_answers) if success: expression = majority_voted_ans if type_check(expression) == "Polynomial": plotfile = draw_polynomial_plot(expression) else: plotfile = "polynomial_plot.png" # Find the steps corresponding to the majority voted answer for i, ans in enumerate(all_answers): if ans == majority_voted_ans: steps_solution = steps_list[i] answer = parse_prediction(steps_solution) break else: answer = majority_voted_ans steps_solution = "No steps found" return answer, steps_solution, plotfile # Function to handle chat-like interaction and merge plot into chat history def chat_interface(history, question): final_answer, steps_solution, plotfile = majority_vote_with_steps(question, iterations) # Convert the plot image to base64 for embedding in chat (if plot exists) if plotfile: history.append(("what is the sum of polynomial 2x+3 and 3x?", f"Answer: \n{steps_solution}")) with open(plotfile, "rb") as image_file: image_bytes = image_file.read() base64_image = base64.b64encode(image_bytes).decode("utf-8") image_data = f'' history.append(("", image_data)) else: history.append(("MathBot", f"Answer: \n{steps_solution}")) return history custom_css = """ #math_question label { font-size: 20px; /* Increase label font size */ font-weight: bold; /* Optional: make the label bold */ } #math_question textarea { font-size: 20px; /* Increase font size */ } """ # Gradio app setup using Blocks with gr.Blocks(css=custom_css) as interface: chatbot = gr.Chatbot(label="Chat with MathBot", elem_id="chat_history",height="70vh") math_question = gr.Textbox(label="Your Question", placeholder="Ask a math question...", elem_id="math_question") math_question.submit(chat_interface, inputs=[chatbot, math_question], outputs=[chatbot]) interface.launch()