--- title: Llm Classifier emoji: 🌍 colorFrom: green colorTo: purple sdk: streamlit sdk_version: 1.40.2 app_file: app/main.py pinned: false license: mit short_description: Zero-Shot Classifier --- This app allows you to use large language models (LLMs) for text classification on your custom datasets. ## 🚀 Key Features 1. **Custom Labels and Descriptions** - The system allows end-users to define their own labels and provide descriptive text for each label. 2. **Binary and Multi-Class Classification** - The system supports both **binary classification** (e.g., spam vs. not spam) and **multi-class classification** (e.g., positive, negative, neutral). 3. **Few-Shot Learning** - Users can enable **few-shot prompting** by selecting example rows from the dataset to guide the model's understanding. - The system automatically selects and excludes these examples from the main dataset to improve prediction accuracy without affecting evaluation. 4. **Additional Utility Features** - **Cost-aware**: Limits max tokens generated by the LLM and sends only as many rows as the user specifes to minimize costs during experimentation. - **Inference Mode**: Automatically adapts when no target column is specified, providing label distribution statistics instead of evaluation metrics. - **Verbose Mode**: Users can inspect raw prompts sent to the LLM and responses received, enabling transparency and debugging. - **Progress Tracking**: A progress bar shows the classification status row-by-row. ## 📦 How It Works 1. **Upload Data**: Drag and drop a CSV file to load data into the system. 2. **Select Target Column**: Choose the column to classify or run in inference mode (no target column). 3. **Define Labels**: Add custom labels and their descriptions to guide classification. 4. **Choose Features**: Select the features (columns) that should be used for classification. 5. **Few-Shot Examples**: Optionally enable few-shot learning by providing examples from the dataset. 6. **Run Classification**: View predictions, evaluate metrics (if labels are provided), or analyze label distribution (in inference mode). ## Example Datasets 1. (Binary) https://www.kaggle.com/datasets/ozlerhakan/spam-or-not-spam-dataset 2. (Multi-class) https://www.kaggle.com/datasets/mdismielhossenabir/sentiment-analysis 3. (Multi-class) https://www.kaggle.com/datasets/pashupatigupta/emotion-detection-from-text ## 📘 Notes - Ensure your **OpenAI API** key is valid and has sufficient quota. - If your CSV includes a target column you can take advantage of few-shot prompting. ## 💡 Ideas for future - (**Clustering + LLM hybrid**) I was considering implementing clustering (say with K-Means) and a specific k and then asking the LLM to associate provided labels with those k clusters. - (**Multi-modal** support) Would be nice to support images, audio, etc. so the beloved cats vs dogs classification could be feasible. We'd use one of the multi-modal LLMs from OpenAI to base64-encode the image and send it along with the rest of the conversation. ## 🥑 Needs work - **Evaluation** needs a lot of work. If I had more time, I'd start there. We'd have to both show that the selected LLM configuration + PROMPT achives good performance on standard classification datasets. The hope is then it will do well on datasets with explicit supervision signal. - The UI is still pretty clunky. There is a lot of logic that's mixed in with visual elements. - Tests, which I've generated entirely with an LLM, are not at all sufficient. - The system prompt can be improved, I didn't make any modifications from the initial one.