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import gradio as gr |
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from huggingface_hub import hf_hub_download |
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from llama_cpp import Llama |
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import re |
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from datasets import load_dataset |
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import random |
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import logging |
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import os |
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import autopep8 |
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import textwrap |
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logging.basicConfig(level=logging.INFO) |
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logger = logging.getLogger(__name__) |
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MODEL_NAME = "leetmonkey_peft__q8_0.gguf" |
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REPO_ID = "sugiv/leetmonkey-peft-gguf" |
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def download_model(model_name): |
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logger.info(f"Downloading model: {model_name}") |
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model_path = hf_hub_download( |
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repo_id=REPO_ID, |
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filename=model_name, |
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cache_dir="./models", |
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force_download=True, |
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resume_download=True |
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) |
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logger.info(f"Model downloaded: {model_path}") |
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return model_path |
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model_path = download_model(MODEL_NAME) |
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llm = Llama( |
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model_path=model_path, |
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n_ctx=1024, |
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n_threads=8, |
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n_gpu_layers=-1, |
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verbose=False, |
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n_batch=512, |
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mlock=True |
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) |
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logger.info("8-bit model loaded successfully") |
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dataset = load_dataset("sugiv/leetmonkey_python_dataset") |
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train_dataset = dataset["train"] |
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generation_kwargs = { |
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"max_tokens": 512, |
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"stop": ["```", "### Instruction:", "### Response:"], |
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"echo": False, |
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"temperature": 0.05, |
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"top_k": 10, |
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"top_p": 0.9, |
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"repeat_penalty": 1.1 |
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} |
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def generate_solution(instruction): |
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system_prompt = "You are a Python coding assistant specialized in solving LeetCode problems. Provide only the complete implementation of the given function. Ensure proper indentation and formatting. Do not include any explanations or multiple solutions." |
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full_prompt = f"""### Instruction: |
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{system_prompt} |
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Implement the following function for the LeetCode problem: |
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{instruction} |
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### Response: |
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Here's the complete Python function implementation: |
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```python |
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""" |
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for chunk in llm(full_prompt, stream=True, **generation_kwargs): |
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yield chunk["choices"][0]["text"] |
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def extract_and_format_code(text): |
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code_match = re.search(r'```python\s*(.*?)\s*```', text, re.DOTALL) |
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if code_match: |
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code = code_match.group(1) |
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else: |
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code = text |
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code = textwrap.dedent(code) |
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lines = code.split('\n') |
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indented_lines = [] |
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for line in lines: |
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if line.strip().startswith('class') or line.strip().startswith('def'): |
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indented_lines.append(line) |
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elif line.strip(): |
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indented_lines.append(' ' + line) |
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else: |
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indented_lines.append(line) |
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formatted_code = '\n'.join(indented_lines) |
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try: |
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return autopep8.fix_code(formatted_code) |
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except: |
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return formatted_code |
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def select_random_problem(): |
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return random.choice(train_dataset)['instruction'] |
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def stream_solution(problem): |
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logger.info("Generating solution") |
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generated_text = "" |
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for token in generate_solution(problem): |
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generated_text += token |
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yield generated_text |
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formatted_code = extract_and_format_code(generated_text) |
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logger.info("Solution generated successfully") |
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yield formatted_code |
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with gr.Blocks() as demo: |
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gr.Markdown("# LeetCode Problem Solver (8-bit GGUF Model)") |
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with gr.Row(): |
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with gr.Column(): |
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problem_display = gr.Textbox(label="LeetCode Problem", lines=10) |
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select_problem_btn = gr.Button("Select Random Problem") |
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with gr.Column(): |
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solution_display = gr.Code(label="Generated Solution", language="python", lines=25) |
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generate_btn = gr.Button("Generate Solution") |
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select_problem_btn.click(select_random_problem, outputs=problem_display) |
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generate_btn.click(stream_solution, inputs=[problem_display], outputs=solution_display) |
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if __name__ == "__main__": |
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logger.info("Starting Gradio interface") |
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demo.launch(share=True) |
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