# 🚀 Quickbot




[](https://github.com/pylint-dev/pylint)
[](https://github.com/google/gts)

Quickbot is an innovative, out-of-the-box solution enabling users to deploy sophisticated AI Agents as full-stack cloud applications on their own Google Cloud Platform (GCP) accounts, entirely without requiring any coding expertise. It empowers you to seamlessly integrate and customize Google's latest AI models and protocols through intuitive templates.
## Our Mission
To democratize Agentic AI application deployment. We provide a seamless, one-click style solution that installs fully functional and visually engaging Agentic AI applications (encompassing both backend and frontend infrastructure, leveraging diverse templates) into your own GCP account. This process is designed to be completed quickly.
Quickbot addresses the challenge users face in independently building and deploying custom AI Agents as full-stack cloud applications within their own GCP environments simply and directly. We believe users want to **own the code** in their GCP accounts and **customize it as needed**.
## Features
* **Preset Templates:** Quickly create custom agents with ready-to-use options.
* **Fast Deployment:** Get sophisticated AI applications running in your GCP account in under 10 minutes.
* **Customizable Codebase:** Full access to the open-source code (Angular frontend, Python FastAPI backend) for direct interaction and modification.
* **Cloud Run Deployment:** Each template can be deployed as an independent application on Google Cloud Run.
* **Standardized Architecture:** Every agent template includes an Angular frontend and a FastAPI Python backend, ensuring a consistent development experience.
* **Google Cloud Authentication:** Uses your default Google Cloud credentials for seamless integration.
* **Scalable Resources:** Deploys necessary Google Cloud resources based on each template's complexity.
* **Latest AI Integration:** Easily leverage Google's cutting-edge AI models and protocols (e.g., Gemini, Imagen, Vertex AI Search (ex Agent Builder)).
* **Diverse Template Ecosystem:** Utilizes a variety of Agentic Templates, including our own and inspirations from others like Agent Garden, A2A, etc.
## Architecture
Quickbot templates follow a standard and straightforward architecture:
* `frontend/`: Contains the Angular application that provides the user interface.
* `backend/`: Contains the FastAPI (Python) application that powers the agent's logic and interacts with Google Cloud services.
This separation allows for clear development workflows and independent scaling of frontend and backend services.
## Available Templates
Quickbot provides a growing set of pre-built templates:
* **[ADK Travel Concierge MultiAgent Template](./multi-agent-travel-concierge-with-adk/):** Leveraging the [ADK](https://google.github.io/adk-docs/) + [Agent Engine](https://cloud.google.com/vertex-ai/generative-ai/docs/agent-engine/overview) capabilities, and taking advantage from the usage of [Agent Garden](https://console.cloud.google.com/vertex-ai/agents/agent-garden), this [Travel MultiAgent](https://github.com/google/adk-samples/tree/main/python/agents/travel-concierge) orchestrates personalized travel experiences and provides support throughout the user’s journey, from initial planning to real-time itinerary alerts.
**Here's a look at our Travel Concierge MultiAgent in action!**
* **[Image Generation Template](./image-generation-template/):** A custom AI Agent that integrates with Imagen 4, Imagen 3 and Gemini 2.0 for text-to-image generation.
* **[LinkedIn Profile Image Generation Template](./linkedin-profile-image-generation-template/):** A specialized AI Agent leveraging Imagen's latest features for image editing and recognition to help you create customized professional corporate profile photos.
* **[Background Changer Image Generation Template](./background-changer-image-generation-template/):** An AI Agent using Imagen's image editing capabilities to customize your product, graphic, car, or pet images, generating professional catalog-style photos with new backgrounds.
* **[Document Search Template](./document-search-template/):** An AI Agent that provides answers based on documents and information you provide beforehand. Integrated with Vertex AI Search (ex Agent Builder), Cloud Storage, and Cloud Run.
* **[Website Search Template](./website-search-template/):** An advanced AI Agent that learns from your website. Provide a URL, and it crawls your domain, extracts information, converts it to vectors stored in Vertex AI, and then generates answers based on a custom prompt, the vector database, and user questions.
* **[Single Playbook Template](./single-playbook-template/):** Generates an AI Agent that detects specific intents (keywords) in user questions and responds with a corresponding specialized Chatbot, providing a tailored experience.
* **[Multi Playbook Template](./multi-playbook-template/):** An evolution of the Single Playbook, this agent detects intents and routes to one of several specialized Chatbots, offering a more nuanced and personalized experience for diverse user inquiries.
## Getting Started
Follow these general steps to get a Quickbot template running in your local environment.
### Prerequisites
1. **Google Cloud Project:** You'll need a GCP project with billing enabled.
2. **Google Cloud SDK (`gcloud`):** [Install and initialize the gcloud CLI](https://cloud.google.com/sdk/docs/install).
3. **Node.js and npm:** We recommend using [nvm (Node Version Manager)](https://github.com/nvm-sh/nvm) to manage Node.js versions.
* Install nvm, then install a compatible Node.js version (e.g., v18.x or later).
* Install Angular CLI: `npm install -g @angular/cli@18` (or the version specified by the template).
4. **Python:** Python 3.8+ and `pip` are required.
* `sudo apt install python3 python3-pip` (Linux example)
5. **Git:** For cloning the repository.
6. **(Optional) Docker and docker-compose:** Useful for containerized development and deployment.
### Option 1: Using Docker Compose (Recommended for Quick Start)
This is the **simplest way to get the entire application (frontend and backend) up and running!** You just need to run `docker compose up` after initial setup. See the next steps:
1. **Ensure Docker and Docker Compose v2 are installed and running.**
2. **Authenticate with Google Cloud:**
Your template (agents with Agent Engine, Imagen 4, VertexAI Search, etc.) will need to interact with Google Cloud services, so you need to provide Google Cloud credentials. For local development with ADC:
```bash
gcloud auth application-default login
gcloud config set project # If using a specific GCP project
gcloud auth application-default set-quota-project # If using a specific GCP project
# Verify your configuration
gcloud auth list
gcloud config list project
```
The `docker-compose.yml` file is configured to mount these local credentials into the backend container.
> **IMPORTANT!!** Update the `_PROJECT_ID` and `GCLOUD_PROJECT` in `docker-compose.yml` so it points to your project!
> **Windows Users:** The path to ADC might differ. Adjust volume mounts in `docker-compose.yml` if needed.
> **Note:** Ensure any required APIs are enabled in your Google Cloud project if used.
3. **Run the application:**
Build the Docker images for the frontend and backend services, and start the services, all with one simple command:
```bash
docker compose up
```
The backend will be configured using environment variables (see "Environment Variables" section), including any necessary API keys for travel services, ADK configurations, or Agent Engine settings.
The frontend should typically be available at `http://localhost:4200` (or as configured) and the backend API at `http://localhost:8080`.
### Option 2: Manual Setup (for Development and Customization)
Follow these steps if you prefer to run the frontend and backend services manually on your local machine.
**A. Backend Setup**
1. **Navigate to the `backend/` directory.**
```bash
cd backend
```
2. **Create a virtual environment and install dependencies:**
```bash
# Check if you are already in an environment
pip -V
# If not, create and activate (for Linux/macOS)
python3 -m venv .venv
source .venv/bin/activate
# Install requirements
pip3 install -r requirements.txt
```
> **VS Code Tip:** If VS Code doesn't recognize your virtual environment, press `Ctrl + Shift + P` (or `Cmd + Shift + P` on Mac), type "Python: Select Interpreter", choose "Enter interpreter path...", and then find and select `.venv/bin/python` inside your `backend` directory.
3. **Setup Google Cloud (`gcloud`) credentials (if applicable):**
If your backend, agents, or Agent Engine interact with GCP, ensure you're authenticated.
```bash
gcloud auth login # Login with your user account
gcloud config set project # If using a specific GCP project
# For services using Application Default Credentials (ADC) locally
gcloud auth application-default login
gcloud auth application-default set-quota-project # If using a specific GCP project
# Verify configuration
gcloud auth list
gcloud config list project
```
4. **Configure Environment Variables:**
Backend configuration is managed via environment variables. Create a `.local.env` file in the `backend/` directory (copy from `.local.env.example` if one exists). This file should be in `.gitignore`.
* **For Mac/Windows (or zsh console on Linux):**
Source the variables directly (from the `backend/` directory):
```bash
. ./.local.env
```
* **For Linux (bash):**
Open `backend/.venv/bin/activate` and append the `export` commands from your `backend/.local.env` file after the `PATH` export section. For example:
```sh
# ... existing activate script content ...
_OLD_VIRTUAL_PATH="$PATH"
PATH="$VIRTUAL_ENV/bin:$PATH"
export PATH
# Quickbot env variables (copied from .local.env)
export ENVIRONMENT="development"
export FRONTEND_URL="http://localhost:4200"
# ADK, Agent Engine, and Travel API variables
# export ADK_CONFIG_PATH="/path/to/adk_config.json"
# export AGENT_ENGINE_ENDPOINT="http://localhost:xxxx/api/agent-engine" # Or other config
# export FLIGHT_API_KEY="your_flight_api_key"
# export HOTEL_API_KEY="your_hotel_api_key"
# export WEATHER_API_KEY="your_weather_api_key"
# ... other necessary agent or backend variables ...
```
Verify the variables are set by running `env` in your activated terminal.
5. **Run the setup script (if applicable):**
This script might perform initial configurations for the ADK, Agent Engine, or agent registration.
```bash
# from the backend/ directory
python3 setup.py
```
6. **Run the backend application:**
```bash
# from the backend/ directory
uvicorn main:app --reload --port 8080
```
**B. Frontend Setup**
(These instructions assume a typical TypeScript/Angular frontend. Adjust as necessary based on your `frontend/README.md`.)
1. **Navigate to the `frontend/` directory.**
```bash
cd frontend
```
2. **Install dependencies:**
```bash
npm install
```
3. **Environment Variables (if applicable):**
The frontend might require its own environment configuration (e.g., via a `.env` file or Angular's `environment.ts` files for API endpoints). Check the `frontend/` directory or its `README.md` for specific instructions.
4. **Run the frontend application:**
```bash
npm start
# Or, for many Angular projects:
# ng serve
```
The application will typically be available at `http://localhost:4200`.
## Authentication
Quickbot templates can be integrated with **Firebase Authentication** for user sign-up, sign-in, and management. Configuration details for Firebase are typically found in the frontend's `src/environments/environment.ts` file. You can use existing Firebase projects or set up new ones to connect with your deployed agents.
## Code Styling & Commit Guidelines
To maintain code quality and consistency:
* **TypeScript (Frontend):** We follow [Angular Coding Style Guide](https://angular.dev/style-guide) by leveraging the use of [Google's TypeScript Style Guide](https://github.com/google/gts) using `gts`. This includes a formatter, linter, and automatic code fixer.
* **Python (Backend):** We adhere to the [Google Python Style Guide](https://google.github.io/styleguide/pyguide.html), using tools like `pylint` and `black` for linting and formatting.
* **Commit Messages:** We suggest following [Angular's Commit Message Guidelines](https://github.com/angular/angular/blob/main/contributing-docs/commit-message-guidelines.md) to create clear and descriptive commit messages.
#### Frontend (TypeScript with `gts`)
1. **Initialize `gts` (if not already done in the project):**
Navigate to the `frontend/` directory and run:
```bash
npx gts init
```
This will set up `gts` and create necessary configuration files (like `tsconfig.json`). Ensure your `tsconfig.json` (or a related gts config file like `.gtsrc`) includes an extension for `gts` defaults, typically:
```json
{
"extends": "./node_modules/gts/tsconfig-google.json",
// ... other configurations
}
```
2. **Check for linting issues:**
```bash
npm run lint
```
(This assumes a `lint` script is defined in `package.json`, e.g., `"lint": "gts lint"`)
3. **Fix linting issues automatically (where possible):**
```bash
npm run fix
```
(This assumes a `fix` script is defined in `package.json`, e.g., `"fix": "gts fix"`)
#### Backend (Python with `pylint` and `black`)
1. **Ensure Dependencies are Installed:**
Add `pylint` and `black` to your `backend/requirements.txt` file:
```
pylint
black
```
Then install them within your virtual environment:
```bash
pip install pylint black
# or pip install -r requirements.txt
```
2. **Configure `pylint`:**
It's recommended to have a `.pylintrc` file in your `backend/` directory to configure `pylint` rules. You might need to copy a standard one or generate one (`pylint --generate-rcfile > .pylintrc`).
3. **Check for linting issues with `pylint`:**
Navigate to the `backend/` directory and run:
```bash
pylint .
```
(Or specify modules/packages: `pylint your_module_name`)
4. **Format code with `black`:**
To automatically format all Python files in the current directory and subdirectories:
```bash
python -m black . --line-length=80
```
## Contributing
We welcome contributions to Quickbot! Whether it's new templates, features, bug fixes, or documentation improvements, your help is valued.
### Prerequisites for Contributing
* A **GitHub Account**.
* **2-Factor Authentication (2FA)** enabled on your GitHub account.
* Familiarity with the "Getting Started" section to set up your development environment.
### Branching Model
We follow the [Git Flow](https://nvie.com/posts/a-successful-git-branching-model/) branching model. Please create feature branches from `dev` and submit pull requests back to `dev`.
For more detailed contribution guidelines, please refer to the `CONTRIBUTING.md` file.
## Feedback
* **Found an issue or have a suggestion?** Please [raise an issue](https://github.com/GoogleCloudPlatform/generative-ai/issues) on our GitHub repository.
* **Share your experience!** We'd love to hear about how you're using Quickbot or any success stories. Feel free to reach out to us at quick-bot-team@google.com or discuss in the GitHub discussions.
## Contributors
[Robby Singh](mailto:robbysingh@google.com): Project Lead
[Mauro Cominotti](mailto:maurocominotti@google.com): Project Manager | Tech Lead
[Manuel Correa Freisztav](mailto:manucf@google.com): AI Engineer
[Tomasz Świtoń](mailto:switon@google.com): AI Engineer
[San Srinivasan](mailto:sansrinivasan@google.com): Infra Engineer
[Agnieszka Kołkiewicz](mailto:akolkiewicz@google.com): Product Manager
# Relevant Terms of Service
[Google Cloud Platform TOS](https://cloud.google.com/terms)
[Google Cloud Privacy Notice](https://cloud.google.com/terms/cloud-privacy-notice)
# Responsible Use
Building and deploying generative AI agents requires a commitment to responsible development practices. Quickbot provides to you the tools to build agents, but you must also provide the commitment to ethical and fair use of these agents. We encourage you to:
* **Start with a Risk Assessment:** Before deploying your agent, identify potential risks related to bias, privacy, safety, and accuracy.
* **Implement Monitoring and Evaluation:** Continuously monitor your agent's performance and gather user feedback.
* **Iterate and Improve:** Use monitoring data and user feedback to identify areas for improvement and update your agent's prompts and configuration.
* **Stay Informed:** The field of AI ethics is constantly evolving. Stay up-to-date on best practices and emerging guidelines.
* **Document Your Process:** Maintain detailed records of your development process, including data sources, models, configurations, and mitigation strategies.
# Disclaimer
**This is not an officially supported Google product.**
Copyright 2025 Google LLC. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.