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Ai | God Mode
AI-Powered Coding Environment
🦄 Starting...
🤖 rUv - Your Intelligent Agent for Creation...
🌐 Global AI Domination Initiated...
Welcome to rUv-dev, an innovative development environment that leverages the power of AI to revolutionize your coding experience! 🤖💻
To quickly start a new codespace with rUv-dev, simply press the "," (comma) key on your keyboard while viewing this repository on GitHub. This will automatically create a new codespace with all the necessary configurations and dotfiles set up for you.
- Type "," on my your keyboard on GitHub or clone the repo.
- Open ruv_step.py in Codespace or VScode, run the applicaiton.
1. Choose Install
- After install select
2. Configure environment
and add your LLM keys. - If you have any API errors, manually setup the keys.
export OPENAI_API_KEY='YOUR_API_KEY'
rUv-dev is a cutting-edge Ai development setup for Codespace and VScode that integrates AI-powered tools and utilities to enhance your productivity and creativity. By combining the power of Open Interpreter, Jupyter Notebook, liteLLM, and a curated set of dotfiles, rUv-dev provides a seamless and intelligent development workflow.
- 🚀 Boost your productivity with AI-assisted coding and code generation.
- 🌐 Access a wide range of AI models and libraries, including OpenAI and LiteLLM.
- 📝 Enjoy a streamlined and customizable development environment with preconfigured dotfiles.
- 🔧 Seamlessly integrate AI-powered tools into your existing workflow.
- 🎨 Unleash your creativity by leveraging AI to generate code snippets, solutions, and ideas.
- 🔄 Continuously improve your development process with AI-driven insights and recommendations.
Traditional development workflows often involve manual coding, searching for solutions, and setting up development environments from scratch. rUv-dev revolutionizes this approach by integrating AI-powered tools and automating repetitive tasks.
With rUv-dev, you can:
- 💬 Use natural language to describe your coding goals, and let AI generate code snippets for you.
- 🔍 Quickly find solutions to coding challenges with AI-powered code search and recommendations.
- 🚀 Set up your development environment effortlessly with preconfigured dotfiles and automated setup scripts.
- 🤝 Collaborate with AI assistants to brainstorm ideas, debug code, and optimize your workflows.
At the core of rUv-dev are two powerful tools: Open Interpreter and Jupyter Notebook.
rUv-dev seamlessly integrates with liteLLM, a lightweight and efficient library for working with large language models. With liteLLM, you can:
- 🌐 Access a wide range of LLM providers, including OpenAI, Anthropic, Hugging Face, Cohere, Azure OpenAI, and Replicate.
- 🔑 Securely store and manage API keys for different LLM providers.
- 🚀 Optimize LLM performance with features like streaming, caching, and rate limiting.
- 🔧 Customize LLM behavior with advanced settings like context window size, API versions, and proxy servers.
Open Interpreter is a powerful tool that allows you to interact with AI models using natural language. With Open Interpreter, you can:
- 💬 Describe your coding goals in plain English and let AI generate the corresponding code.
- 🌐 Access a wide range of AI models and libraries, including OpenAI and Anthropic.
- 🔧 Customize Open Interpreter's behavior and preferences to suit your coding style.
- 🔒 Ensure secure code execution with isolation and safe mode settings.
- 📊 Integrate with Jupyter Notebook for interactive coding and data visualization.
Jupyter Notebook is an interactive development environment that allows you to combine code, visualizations, and explanatory text in a single document. With Jupyter Notebook, you can:
- 📝 Create and share interactive coding notebooks with embedded AI-generated code snippets.
- 📊 Visualize data and results using a variety of charting libraries and tools.
- 🎨 Collaborate with others by sharing and versioning your Jupyter notebooks.
rUv-dev provides a user-friendly setup script (setup.sh
) that simplifies the process of setting up and configuring your development environment. With the setup script, you can:
- 🚀 Perform initial setup with guided steps, including cloning the rUv-dev repository and configuring dotfiles.
- 📦 Install required packages and dependencies with a single command.
- 🔧 Configure environment variables and settings for Open Interpreter, liteLLM, and other tools.
- 🎨 Customize your development environment with a variety of options and preferences.
-
Open a terminal or command prompt.
-
Navigate to the directory where the
ruv_setup.py
script is located using thecd
command. For example:cd /path/to/ruv_setup.py
-
Make sure you have Python installed on your system. You can check the Python version by running:
python --version
-
Run the
ruv_setup.py
script with the desired options or without any options to enter interactive mode. Here are some examples:-
To show the help menu:
python ruv_setup.py -h
-
To install the required packages:
python ruv_setup.py -i
-
To configure the environment variables and settings:
python ruv_setup.py -c
-
To perform the initial setup with guided steps:
python ruv_setup.py -s
-
To configure liteLLM:
python ruv_setup.py --llm
-
To configure Open Interpreter:
python ruv_setup.py --oi
-
To configure Jupyter:
python ruv_setup.py --jupyter
-
To launch Super Coder for automated code generation:
python ruv_setup.py --super-coder
-
To enter interactive mode and choose options from a menu:
python ruv_setup.py
-
-
Follow the prompts and instructions provided by the script based on the selected options.
-
If you choose to configure the environment (
-c
or--configure
), you will be prompted to enter your OpenAI API key and Anthropic API key. If you don't have the keys, you can press Enter to skip. -
If you choose to perform the initial setup (
-s
or--setup
), the script will clone the rUv-dev repository and perform the necessary configurations. -
In interactive mode, you can select options from the menu by entering the corresponding number or option name.
-
-
Once the script finishes executing, it will display success messages and any additional instructions if necessary.
-
If the script mentions sourcing
~/.bashrc
or restarting your terminal, make sure to do so for the changes to take effect globally.
Note: Make sure you have the necessary permissions to run the script and install packages. If you encounter any permission-related issues, you may need to run the script with administrative privileges using sudo
or as a user with appropriate permissions.
rUv-dev comes with a curated set of dotfiles that provide a preconfigured and optimized development environment. The dotfiles include configurations for popular tools like Bash, Zsh, Vim, Tmux, and Git.
To use the dotfiles:
- Clone the rUv-dev repository to your local machine.
- Run the provided setup script to automatically symlink the dotfiles to your home directory.
- Customize the dotfiles to suit your preferences by modifying the files in the
dotfiles
directory. - Commit and push your changes to your forked repository to keep your dotfiles in sync across machines.
rUv-dev is highly customizable and can be tailored to your specific needs. You can:
- ⚙️ Modify the dotfiles to include your preferred configurations and settings.
- 🔧 Customize Open Interpreter's behavior by adjusting its configuration file.
- 🌐 Integrate additional AI models and libraries to expand the capabilities of Open Interpreter.
- 🎨 Create custom Jupyter Notebook templates and styles to match your workflow.
rUv-dev offers several advanced features to further enhance your development experience:
- 🔐 Secure storage of sensitive information using encrypted secrets management.
- 🔄 Seamless integration with version control systems like Git for easy collaboration and tracking.
- 🚀 Automated setup and provisioning of development environments using setup scripts.
- 📊 Integration with popular data science and machine learning libraries for advanced analytics and modeling.
To get started with rUv-dev, follow these steps:
- Fork the rUv-dev repository to your GitHub account.
- Press the "," (comma) key while viewing the repository on GitHub to create a new codespace.
- Customize the dotfiles and configurations to suit your preferences.
- Start using Open Interpreter and Jupyter Notebook to supercharge your development workflow!
-
Environment Variables:
- The script appends the selected configuration options as environment variables to the
~/.bashrc
file. - For example, when setting the OpenAI API key, the script appends
export OPENAI_API_KEY=<user_input>
to~/.bashrc
. - Similarly, other configuration options like LLM provider, API keys, optimization settings, and advanced settings are saved as environment variables in
~/.bashrc
. - By appending these variables to
~/.bashrc
, they will be available in future shell sessions when the file is sourced.
- The script appends the selected configuration options as environment variables to the
-
Configuration Files:
- The script creates configuration files in specific directories to store the selected settings.
- For Open Interpreter, the script creates a configuration file at
~/.config/open-interpreter/config.yaml
with the selected API keys and model settings. - The script also creates a
.env
file in the user's home directory (~/.env
) to store additional secrets. The contents of this file are then exported as environment variables by appendingexport $(grep -v "^#" ~/.env)
to~/.bashrc
.
-
Jupyter Notebook Configuration:
- The script generates a Jupyter Notebook configuration file using the command
jupyter notebook --generate-config
. - It then appends specific configuration options like
c.NotebookApp.open_browser = False
,c.NotebookApp.ip = '0.0.0.0'
, andc.NotebookApp.port = 8888
to the~/.jupyter/jupyter_notebook_config.py
file.
- The script generates a Jupyter Notebook configuration file using the command
-
Aliases and Functions:
- The script defines aliases and functions related to Open Interpreter and Jupyter Notebook.
- These aliases and functions are appended to the
~/.bashrc
file using the>>
redirection operator. - By sourcing
~/.bashrc
after appending the aliases and functions, they become available in the current shell session.
-
Local Knowledge Base:
- The script creates a directory
~/kb
to serve as a local knowledge base. - It also creates a
README.md
file inside the~/kb
directory with instructions on how to use the local knowledge base.
- The script creates a directory
-
Tmux Configuration:
- The script appends an alias
dev
for creating a tmux development session to the~/.bashrc
file. - By sourcing
~/.bashrc
after appending the alias, it becomes available in the current shell session.
- The script appends an alias
-
Local CI/CD Pipeline:
- The script creates a directory
~/ci-cd
for the local CI/CD pipeline. - It creates a
README.md
file inside the~/ci-cd
directory with instructions on how to use the local CI/CD pipeline. - It also creates a
run-tests.sh
script inside the~/ci-cd
directory with a command to execute the pipeline.
- The script creates a directory
To ensure that the changes take effect, the script sources the ~/.bashrc
file after appending the aliases and functions. However, for the environment variables and other configurations to be available in future shell sessions, the user needs to source ~/.bashrc
or start a new shell session after running the setup script.
We welcome contributions from the community to make rUv-dev even better! If you have any ideas, suggestions, or bug reports, please open an issue or submit a pull request on the GitHub repository.
rUv-dev is open-source and released under the MIT License. Feel free to use, modify, and distribute the code as per the terms of the license.
We would like to thank the open-source community for their valuable contributions and the AI research community for their groundbreaking work that powers rUv-dev.
🤖 Happy coding with rUv-dev! Let's revolutionize development together! 🚀