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import os |
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import gradio as gr |
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from huggingface_hub import InferenceClient |
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from datasets import load_dataset |
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import random |
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import re |
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math_samples = None |
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def load_sample_problems(): |
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"""Load sample problems from ALL datasets - FIXED VERSION""" |
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global math_samples |
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if math_samples is not None: |
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return math_samples |
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samples = [] |
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try: |
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print("🔄 Loading GSM8K...") |
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gsm8k = load_dataset("openai/gsm8k", "main", streaming=True) |
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gsm_count = 0 |
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for i, item in enumerate(gsm8k["train"]): |
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samples.append(item["question"]) |
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gsm_count += 1 |
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if gsm_count >= 50: |
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break |
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print("🔄 Loading Fineweb-edu...") |
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fw = load_dataset("HuggingFaceFW/fineweb-edu", name="sample-10BT", split="train", streaming=True) |
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fw_count = 0 |
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for item in fw: |
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text_lower = item['text'].lower() |
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if any(word in text_lower for word in ['math', 'calculate', 'solve', 'derivative', 'integral', 'triangle', 'equation', 'area', 'volume', 'probability']): |
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question = item['text'][:150].strip() |
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if len(question) > 20: |
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samples.append(question + " (Solve this math problem.)") |
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fw_count += 1 |
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if fw_count >= 20: |
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break |
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print("🔄 Loading Ultrachat...") |
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ds = load_dataset("HuggingFaceH4/ultrachat_200k", streaming=True) |
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ds_count = 0 |
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for item in ds: |
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if len(item['messages']) > 0: |
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content = item['messages'][0]['content'].lower() |
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if any(word in content for word in ['math', 'calculate', 'solve', 'problem', 'equation', 'derivative', 'integral']): |
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user_msg = item['messages'][0]['content'] |
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if len(user_msg) > 10: |
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samples.append(user_msg) |
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ds_count += 1 |
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if ds_count >= 20: |
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break |
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print(f"✅ Loaded {len(samples)} samples: GSM8K ({gsm_count}), Fineweb-edu ({fw_count}), Ultrachat ({ds_count})") |
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math_samples = samples |
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return samples |
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except Exception as e: |
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print(f"⚠️ Dataset error: {e}, using fallback") |
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math_samples = [ |
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"What is the derivative of f(x) = 3x² + 2x - 1?", |
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"A triangle has sides of length 5, 12, and 13. What is its area?", |
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"If log₂(x) + log₂(x+6) = 4, find the value of x.", |
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"Find the limit: lim(x->0) (sin(x)/x)", |
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"Solve the system: x + 2y = 7, 3x - y = 4", |
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"Calculate the integral of sin(x) from 0 to pi.", |
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"What is the probability of rolling a 6 on a die 3 times in a row?" |
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] |
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return math_samples |
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def create_math_system_message(): |
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"""Specialized system prompt for mathematics with LaTeX""" |
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return r"""You are Mathetics AI, an advanced mathematics tutor and problem solver. |
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🧮 **Your Expertise:** |
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- Step-by-step problem solving with clear explanations |
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- Multiple solution approaches when applicable |
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- Proper mathematical notation and terminology using LaTeX |
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- Verification of answers through different methods |
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📐 **Problem Domains:** |
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- Arithmetic, Algebra, and Number Theory |
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- Geometry, Trigonometry, and Coordinate Geometry |
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- Calculus (Limits, Derivatives, Integrals) |
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- Statistics, Probability, and Data Analysis |
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- Competition Mathematics (AMC, AIME level) |
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💡 **Teaching Style:** |
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1. **Understand the Problem** - Identify what's being asked |
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2. **Plan the Solution** - Choose the appropriate method |
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3. **Execute Step-by-Step** - Show all work clearly with LaTeX formatting |
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4. **Verify the Answer** - Check if the result makes sense |
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5. **Alternative Methods** - Mention other possible approaches |
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**LaTeX Guidelines:** |
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- Use $...$ for inline math: $x^2 + y^2 = z^2$ |
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- Use $$...$$ for display math |
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- Box final answers: \boxed{answer} |
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- Fractions: \frac{numerator}{denominator} |
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- Limits: \lim_{x \to 0} |
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- Derivatives: \frac{d}{dx} or f'(x) |
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Always be precise, educational, and encourage mathematical thinking.""" |
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def render_latex(text): |
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"""Minimal LaTeX cleanup - let the model do the work""" |
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if not text: |
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return text |
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try: |
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text = re.sub(r'\\\[(.*?)\\\]', r'$$\1$$', text, flags=re.DOTALL) |
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text = re.sub(r'\\\((.*?)\\\)', r'$\1$', text, flags=re.DOTALL) |
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if '\\boxed' in text and not re.search(r'\$.*\\boxed.*\$', text): |
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text = re.sub(r'\\boxed\{([^}]+)\}', r'$\\boxed{\1}$', text) |
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except Exception as e: |
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print(f"⚠️ LaTeX error: {e}") |
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return text |
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def respond(message, history, system_message, max_tokens, temperature, top_p): |
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"""Streaming response with yield""" |
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client = InferenceClient(model="Qwen/Qwen2.5-Math-7B-Instruct") |
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messages = [{"role": "system", "content": system_message}] |
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for msg in history: |
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if msg["role"] == "user": |
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messages.append({"role": "user", "content": msg["content"]}) |
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elif msg["role"] == "assistant": |
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messages.append({"role": "assistant", "content": msg["content"]}) |
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messages.append({"role": "user", "content": message}) |
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response = "" |
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try: |
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for chunk in client.chat_completion( |
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messages, |
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max_tokens=max_tokens, |
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temperature=temperature, |
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top_p=top_p, |
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stream=True |
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): |
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if chunk.choices[0].delta.content: |
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response += chunk.choices[0].delta.content |
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yield render_latex(response) |
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except Exception as e: |
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yield f"❌ Error: {str(e)[:100]}..." |
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def get_random_sample(): |
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"""Get a random sample problem - loads datasets if needed""" |
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global math_samples |
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if math_samples is None: |
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math_samples = load_sample_problems() |
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return random.choice(math_samples) |
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def insert_sample_to_chat(difficulty): |
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"""Insert random sample into chat input""" |
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return get_random_sample() |
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def show_help(): |
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return """**🧮 Math Help Tips:** |
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1. Be Specific: "Find the derivative of x² + 3x" instead of "help with calculus" |
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2. Request Steps: "Show me step-by-step how to solve..." |
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3. Ask for Verification: "Check if my answer x=5 is correct" |
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4. Alternative Methods: "What's another way to solve this integral?" |
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5. Use Clear Notation: "lim(x->0)" for limits |
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Pro Tip: Crank tokens to 1500+ for competition problems!""" |
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with gr.Blocks(title="🧮 Mathetics AI") as demo: |
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gr.Markdown("# 🧮 **Mathetics AI** - Math Tutor\nPowered by Qwen 2.5-Math") |
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chatbot = gr.Chatbot(height=500, label="Conversation", type='messages') |
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help_text = gr.Markdown(visible=False) |
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msg = gr.Textbox(placeholder="Ask a math problem...", show_label=False) |
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with gr.Row(): |
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submit = gr.Button("Solve", variant="primary") |
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clear = gr.Button("Clear", variant="secondary") |
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sample = gr.Button("Random Problem", variant="secondary") |
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help_btn = gr.Button("Help", variant="secondary") |
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gr.Examples( |
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examples=[ |
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["derivative of x^2 sin(x)"], |
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["area of triangle 5-12-13"], |
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["∫x^2 dx"] |
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], |
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inputs=msg |
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) |
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def chat_response(message, history): |
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history.append({"role": "user", "content": message}) |
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history.append({"role": "assistant", "content": ""}) |
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for partial_response in respond(message, history[:-1], create_math_system_message(), 1024, 0.3, 0.85): |
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history[-1]["content"] = partial_response |
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yield history, "" |
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def clear_chat(): |
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"""Clear the chat history and textbox.""" |
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return [], "" |
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msg.submit(chat_response, [msg, chatbot], [chatbot, msg]) |
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submit.click(chat_response, [msg, chatbot], [chatbot, msg]) |
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clear.click(clear_chat, outputs=[chatbot, msg]) |
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sample.click(insert_sample_to_chat, outputs=msg) |
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help_btn.click(lambda: (show_help(), gr.update(visible=True)), outputs=[help_text, help_text]).then( |
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lambda: gr.update(visible=False), outputs=help_text |
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) |
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demo.launch() |
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