Welcome to the Taipy Cheat Sheets repository! This is your go-to resource for quick reference and practical examples covering all the key features and capabilities of the Taipy framework. Whether you're new to Taipy or an experienced user, these cheat sheets will help you be more productive and unlock the full potential of Taipy for building powerful data-driven applications.
Developer et maintainer: Tushar Aggarwal
- Getting Started
- Taipy Core
- Taipy GUI
- Taipy REST
- Taipy Viz
- Taipy Config
- Taipy Enterprise
- Best Practices
- Integrations
- Deployment
- Troubleshooting
- FAQ
- Contributing
- License
TaipyCheatsheets/
├── src/
│ ├── pages/
│ │ ├── __init__.py
│ │ ├── getting_started.py
│ │ ├── taipy_core.py
│ │ ├── taipy_gui.py
│ │ ├── taipy_rest.py
│ │ ├── taipy_enterprise.py
│ │ ├── deployment.py
│ │ ├── best_practices.py
│ │ ├── integrations.py
│ │ ├── user_examples.py
│ │ └── related_resources.py
│ ├── scenarios/
│ │ └── __init__.py
│ ├── gui/
│ │ ├── __init__.py
│ │ ├── layout.py
│ │ ├── styling.py
│ │ ├── navigation.py
│ │ ├── code_editor.py
│ │ ├── feedback_form.py
│ │ ├── favorites.py
│ │ ├── rating.py
│ │ ├── comments.py
│ │ ├── social_sharing.py
│ │ ├── newsletter_form.py
│ │ └── chatbot.py
│ ├── config/
│ │ └── config.toml
│ ├── auth/
│ │ ├── __init__.py
│ │ ├── authentication.py
│ │ └── user_management.py
│ ├── __init__.py
│ ├── main.py
│ ├── search.py
│ └── dark_mode.py
├── tests/
│ ├── __init__.py
│ ├── test_getting_started.py
│ ├── test_taipy_core.py
│ ├── test_taipy_gui.py
│ ├── test_taipy_rest.py
│ ├── test_taipy_enterprise.py
│ ├── test_deployment.py
│ ├── test_best_practices.py
│ ├── test_integrations.py
│ ├── test_user_examples.py
│ ├── test_related_resources.py
│ ├── test_authentication.py
│ ├── test_user_management.py
│ ├── test_code_editor.py
│ ├── test_feedback_form.py
│ ├── test_favorites.py
│ ├── test_rating.py
│ ├── test_comments.py
│ ├── test_social_sharing.py
│ ├── test_newsletter_form.py
│ └── test_chatbot.py
├── requirements.txt
├── README.md
└── .gitignore
To get started with Taipy, you'll need to install it using pip:
pip install taipy
For more detailed installation instructions, including system requirements and optional dependencies, refer to the Taipy Installation Guide.
Before diving into the cheat sheets, it's important to understand some core concepts in Taipy:
- Scenario: A scenario represents a complete data processing workflow, consisting of tasks, pipelines, and data nodes.
- Pipeline: A pipeline defines a series of tasks that are executed in a specific order to process and transform data.
- Task: A task is a unit of work that performs a specific operation, such as data loading, transformation, or machine learning.
- Data Node: A data node represents a piece of data that flows through the pipelines and is consumed or produced by tasks.
- Configuration: Taipy uses configuration files to define scenarios, pipelines, tasks, and other settings.
For a more in-depth explanation of these concepts, refer to the Taipy Core Concepts Guide.
A scenario is the top-level object in Taipy that encapsulates the entire data processing workflow. Here's an example of defining a scenario:
from taipy import Scenario
scenario = Scenario(
id="my_scenario",
pipelines=[pipeline1, pipeline2],
frequency="D", # Daily execution
start_date="2023-01-01"
)
For more details on creating and managing scenarios, see the Scenarios Cheat Sheet.
A pipeline consists of a series of tasks that are executed sequentially to process data. Here's an example of defining a pipeline:
from taipy import Pipeline
pipeline = Pipeline(
id="my_pipeline",
tasks=[task1, task2, task3]
)
For more information on creating pipelines and managing task dependencies, refer to the Pipelines Cheat Sheet.
A task represents a unit of work that performs a specific operation on data. Taipy supports various types of tasks, such as Python functions, SQL queries, and machine learning models. Here's an example of defining a Python function task:
from taipy import task
@task(id="my_task")
def process_data(data):
# Perform data processing
processed_data = ...
return processed_data
For more examples and details on different types of tasks, see the Tasks Cheat Sheet.
Data nodes represent the input and output data of tasks in a pipeline. They define how data flows between tasks. Here's an example of creating data nodes:
from taipy import data_node
input_data = data_node(id="input_data", storage_type="csv", path="data/input.csv")
output_data = data_node(id="output_data", storage_type="database", db_username="user", db_password="password")
For more information on configuring data nodes and supported storage types, refer to the Data Nodes Cheat Sheet.
Taipy uses configuration files to define scenarios, pipelines, tasks, and other settings. The configuration files are typically written in TOML format. Here's an example configuration file:
[scenario]
id = "my_scenario"
pipelines = ["pipeline1", "pipeline2"]
frequency = "D"
start_date = "2023-01-01"
[pipeline.pipeline1]
id = "pipeline1"
tasks = ["task1", "task2"]
[pipeline.pipeline2]
id = "pipeline2"
tasks = ["task3"]
[task.task1]
id = "task1"
function = "process_data"
inputs = ["input_data"]
outputs = ["intermediate_data"]
[task.task2]
id = "task2"
function = "analyze_data"
inputs = ["intermediate_data"]
outputs = ["output_data"]
[task.task3]
id = "task3"
function = "visualize_data"
inputs = ["output_data"]
For more details on configuring Taipy scenarios and leveraging advanced configuration options, see the Configuration Cheat Sheet.
Taipy GUI is a powerful tool for building interactive web-based user interfaces for Taipy applications. It allows you to create dynamic pages, layouts, and controls with minimal code.
Pages are the top-level components in Taipy GUI. They represent different views or sections of your application. Here's an example of creating a page:
from taipy.gui import Gui, Markdown
page = """
# Welcome to My App
This is the home page of my Taipy application.
"""
Gui(page=Markdown(page)).run()
For more examples and details on creating pages and navigating between them, refer to the Pages Cheat Sheet.
Layouts define the structure and arrangement of controls on a page. Taipy GUI provides a flexible grid system for creating responsive layouts. Here's an example of defining a layout:
from taipy.gui import Gui, Markdown, Button
page = """
<|layout|columns=2 1|
<|
# Left Column
This is the left column content.
|>
<|
# Right Column
<|Button|label=Click Me!|on_action=button_clicked|>
|>
|>
"""
def button_clicked(state):
print("Button clicked!")
Gui(page=Markdown(page)).run()
For more information on creating layouts and arranging controls, see the Layouts Cheat Sheet.
Controls are the interactive elements in Taipy GUI, such as buttons, input fields, dropdowns, and more. They allow users to interact with your application. Here are a few examples of using controls:
from taipy.gui import Gui, Markdown, Button, Input, Dropdown
page = """
# Controls Example
<|Input|label=Name|value={name}|>
<|Dropdown|label=Favorite Color|options=Red,Green,Blue|value={color}|>
<|Button|label=Submit|on_action=submit_form|>
"""
def submit_form(state):
name = state.name
color = state.color
print(f"Name: {name}, Favorite Color: {color}")
Gui(page=Markdown(page)).run()
For a comprehensive list of available controls and their usage, refer to the Controls Cheat Sheet.
Taipy GUI allows you to customize the appearance of your application using CSS styles. You can apply styles to individual controls or create global styles for consistent branding. Here's an example of styling a button:
from taipy.gui import Gui, Markdown, Button
page = """
<style>
.my-button {
background-color: #4CAF50;
color: white;
padding: 10px 20px;
border: none;
border-radius: 4px;
}
</style>
<|Button|label=Styled Button|class_name=my-button|>
"""
Gui(page=Markdown(page)).run()
For more details on styling your Taipy GUI application, see the Styling Cheat Sheet.
Callbacks allow you to define actions that are triggered when certain events occur, such as button clicks or input changes. They enable interactivity and dynamic behavior in your application. Here's an example of using callbacks:
from taipy.gui import Gui, Markdown, Button, Input
page = """
<|Input|label=Name|value={name}|>
<|Button|label=Greet|on_action=greet|>
<|Markdown|id=output|>
"""
def greet(state):
name = state.name
state.output = f"Hello, {name}!"
Gui(page=Markdown(page)).run()
For more information on defining and using callbacks, refer to the Callbacks Cheat Sheet.
Taipy GUI applications can be easily deployed to various platforms, such as web servers or cloud services. The deployment process typically involves bundling your application and its dependencies into a distributable format. Here's an example of deploying a Taipy GUI application using Docker:
FROM python:3.9
WORKDIR /app
COPY requirements.txt .
RUN pip install -r requirements.txt
COPY . .
CMD ["python", "app.py"]
For more deployment options and best practices, see the Deployment Cheat Sheet.
Taipy REST allows you to expose your Taipy scenarios and pipelines as RESTful APIs, enabling integration with other systems and services.
Endpoints define the available API routes and their corresponding HTTP methods (GET, POST, etc.). Taipy REST automatically generates endpoints based on your scenarios and pipelines. Here's an example of defining a custom endpoint:
from taipy.rest import Rest, endpoint
@endpoint(path="/custom", methods=["GET"])
def custom_endpoint():
return {"message": "Hello from custom endpoint!"}
rest = Rest()
rest.run()
For more details on creating and customizing endpoints, refer to the Endpoints Cheat Sheet.
Taipy REST supports various authentication mechanisms to secure your APIs, such as API keys, JWT tokens, and OAuth. You can configure authentication at the application level or for specific endpoints. Here's an example of enabling API key authentication:
from taipy.rest import Rest, endpoint, auth_required
@endpoint(path="/protected", methods=["GET"])
@auth_required(type="api_key")
def protected_endpoint():
return {"message": "Access granted!"}
rest = Rest(auth_config={"api_key": "secret_key"})
rest.run()
For more information on configuring authentication and authorization, see the Authentication Cheat Sheet.
Taipy REST applications can be deployed as standalone services or integrated into existing web servers. The deployment process is similar to deploying a regular Python web application. Here's an example of deploying a Taipy REST application using Gunicorn:
gunicorn app:rest
For more deployment options and considerations, refer to the Deployment Cheat Sheet.
Taipy Viz is a visualization library that allows you to create interactive charts, graphs, and maps for your Taipy applications.
Taipy Viz provides a wide range of chart types, such as line charts, bar charts, pie charts, and more. Here's an example of creating a line chart:
from taipy import Gui
from taipy.viz import LineChart
data = {
"labels": ["Jan", "Feb", "Mar", "Apr", "May"],
"datasets": [
{
"label": "Sales",
"data": [100, 200, 150, 300, 250]
}
]
}
line_chart = LineChart(data=data)
Gui(page=line_chart).run()
For more chart types and customization options, see the Charts Cheat Sheet.
Taipy Viz allows you to visualize graph data structures, such as networks and trees. Here's an example of creating a force-directed graph:
from taipy import Gui
from taipy.viz import ForceDirectedGraph
data = {
"nodes": [
{"id": 1, "label": "Node 1"},
{"id": 2, "label": "Node 2"},
{"id": 3, "label": "Node 3"}
],
"edges": [
{"source": 1, "target": 2},
{"source": 2, "target": 3}
]
}
graph = ForceDirectedGraph(data=data)
Gui(page=graph).run()
For more graph types and configuration options, refer to the Graphs Cheat Sheet.
Taipy Viz provides support for visualizing geospatial data on interactive maps. You can plot markers, lines, polygons, and heatmaps on various map providers. Here's an example of creating a map with markers:
from taipy import Gui
from taipy.viz import Map, Marker
data = [
{"lat": 40.7128, "lon": -74.0060, "popup": "New York"},
{"lat": 51.5074, "lon": -0.1278, "popup": "London"},
{"lat": 48.8566, "lon": 2.3522, "popup": "Paris"}
]
markers = [Marker(lat=d["lat"], lon=d["lon"], popup=d["popup"]) for d in data]
map_viz = Map(center=(0, 0), zoom=2, markers=markers)
Gui(page=map_viz).run()
For more details on creating maps and working with geospatial data, see the Maps Cheat Sheet.
###Customization
Taipy Viz allows you to customize various aspects of your visualizations, such as colors, fonts, tooltips, and more. You can create visually appealing and branded visualizations that match your application's style. Here's an example of customizing a bar chart:
from taipy import Gui
from taipy.viz import BarChart
data = {
"labels": ["Category 1", "Category 2", "Category 3"],
"datasets": [
{
"label": "Series 1",
"data": [10, 20, 30],
"backgroundColor": "rgba(75, 192, 192, 0.6)",
"borderColor": "rgba(75, 192, 192, 1)",
"borderWidth": 1
}
]
}
options = {
"responsive": True,
"title": {
"display": True,
"text": "Custom Bar Chart"
},
"scales": {
"yAxes": [{
"ticks": {
"beginAtZero": True
}
}]
}
}
bar_chart = BarChart(data=data, options=options)
Gui(page=bar_chart).run()
For more customization options and examples, refer to the Customization Cheat Sheet.
Taipy Config is a configuration management system that allows you to define and manage configuration settings for your Taipy applications.
Taipy Config uses TOML files to define configuration settings. You can create multiple configuration files for different environments or components of your application. Here's an example configuration file:
[database]
host = "localhost"
port = 5432
username = "user"
password = "password"
[api]
base_url = "https://api.example.com"
api_key = "secret_key"
For more details on creating and organizing configuration files, see the Configuration Files Cheat Sheet.
Taipy Config allows you to override configuration settings using environment variables. This is useful for deploying your application to different environments without modifying the code. Here's an example of using environment variables:
[database]
host = "localhost"
port = 5432
username = "user"
password = "${DB_PASSWORD}"
In this example, the DB_PASSWORD
environment variable will be used as the value for the password
setting.
For more information on using environment variables and advanced overriding techniques, refer to the Environment Variables Cheat Sheet.
Taipy Config provides support for securely managing sensitive information, such as passwords and API keys, using secrets management systems like HashiCorp Vault or AWS Secrets Manager. Here's an example of retrieving a secret from HashiCorp Vault:
[database]
password = "${vault:secret/database/password}"
In this example, the password
setting will be retrieved from the HashiCorp Vault secret path secret/database/password
.
For more details on integrating with secrets management systems and best practices for handling secrets, see the Secrets Management Cheat Sheet.
Taipy Enterprise is an extension of Taipy that provides additional features and tools for building and managing large-scale, production-ready applications.
Taipy Enterprise includes a user management system that allows you to create and manage user accounts, roles, and permissions. You can define different levels of access for users based on their roles and responsibilities. Here's an example of creating a user:
from taipy.enterprise import create_user
create_user(username="john", password="secret", email="john@example.com", roles=["admin"])
For more information on user management and authentication flows, refer to the User Management Cheat Sheet.
Taipy Enterprise supports role-based access control (RBAC) to restrict access to specific resources and actions based on user roles. You can define roles and assign permissions to them. Here's an example of defining roles and permissions:
from taipy.enterprise import create_role, assign_permission
create_role(name="admin")
assign_permission(role="admin", resource="users", action="create")
assign_permission(role="admin", resource="users", action="read")
For more details on configuring RBAC and managing permissions, see the Role-Based Access Control Cheat Sheet.
Taipy Enterprise provides audit logging capabilities to track and record important events and actions in your application. You can enable audit logging to monitor user activities, system changes, and security-related events. Here's an example of enabling audit logging:
from taipy.enterprise import enable_audit_logging
enable_audit_logging(log_level="info", log_file="audit.log")
For more information on configuring audit logging and analyzing audit logs, refer to the Audit Logging Cheat Sheet.
Taipy Enterprise includes monitoring and alerting features to help you proactively monitor the health and performance of your Taipy applications. You can set up metrics, dashboards, and alerts to gain visibility into your application's behavior. Here's an example of configuring monitoring:
from taipy.enterprise import enable_monitoring
enable_monitoring(metrics_endpoint="http://prometheus:9090", dashboard_url="http://grafana:3000")
For more details on setting up monitoring and creating custom metrics and alerts, see the Monitoring Cheat Sheet.
Organizing your Taipy project with a clear and consistent structure can improve maintainability and collaboration. Here's a recommended project structure:
my_project/
├── src/
│ ├── scenarios/
│ ├── pipelines/
│ ├── tasks/
│ ├── gui/
│ └── config/
├── tests/
├── data/
├── docs/
├── requirements.txt
└── README.md
For more guidelines on structuring your Taipy project and naming conventions, refer to the Project Structure Cheat Sheet.
Writing clean, modular, and reusable code is essential for maintaining a scalable and efficient Taipy application. Here are some best practices for code organization:
- Use meaningful and descriptive names for scenarios, pipelines, tasks, and variables.
- Break down complex tasks into smaller, focused functions.
- Use type hints to improve code readability and catch potential errors.
- Follow the DRY (Don't Repeat Yourself) principle to avoid code duplication.
- Use comments and docstrings to document your code.
For more tips and examples of writing clean and organized code, see the Code Organization Cheat Sheet.
Testing is crucial for ensuring the reliability and correctness of your Taipy application. Taipy provides testing utilities to help you write and run tests for your scenarios, pipelines, and tasks. Here's an example of writing a test for a task:
from taipy.testing import task_test
@task_test
def test_process_data():
input_data = [1, 2, 3]
expected_output = [2, 4, 6]
result = process_data(input_data)
assert result == expected_output
For more information on writing tests, mocking dependencies, and running test suites, refer to the Testing Cheat Sheet.
Debugging is an essential skill for troubleshooting and fixing issues in your Taipy application. Taipy provides debugging tools and techniques to help you identify and resolve problems efficiently. Here are some debugging tips:
- Use logging statements to track the flow of execution and inspect variable values.
- Utilize the Taipy CLI for interactive debugging and inspecting scenarios and pipelines.
- Use breakpoints and debugging tools in your IDE to pause execution and step through the code.
- Analyze error messages and stack traces to pinpoint the source of the issue.
For more debugging techniques and best practices, see the Debugging Cheat Sheet.
Optimizing the performance of your Taipy application is important for handling large-scale data processing and ensuring a smooth user experience. Here are some performance optimization techniques:
- Profile your code to identify performance bottlenecks and optimize critical paths.
- Use caching mechanisms to store and reuse frequently accessed data.
- Parallelize tasks and pipelines to leverage multi-core processing.
- Optimize data storage and retrieval by using appropriate storage backends and indexing strategies.
- Monitor and tune system resources, such as memory and CPU usage.
For more performance optimization tips and examples, refer to the Performance Optimization Cheat Sheet.
Taipy seamlessly integrates with various databases to store and retrieve data. You can connect to relational databases (e.g., PostgreSQL, MySQL), NoSQL databases (e.g., MongoDB, Cassandra), and data warehouses (e.g., Redshift, BigQuery). Here's an example of connecting to a PostgreSQL database:
from taipy.core.data import PostgreSQLDataNode
data_node = PostgreSQLDataNode(
id="my_data",
host="localhost",
port=5432,
database="my_db",
username="user",
password="password",
table="my_table"
)
For more details on integrating with different databases and performing data operations, see the Databases Cheat Sheet.
Taipy provides integration with popular machine learning libraries, such as scikit-learn, TensorFlow, and PyTorch, allowing you to incorporate machine learning models into your Taipy pipelines. Here's an example of using a scikit-learn model in a task:
from taipy import task
from sklearn.linear_model import LinearRegression
@task(id="train_model")
def train_model(X, y):
model = LinearRegression()
model.fit(X, y)
return model
@task(id="predict")
def predict(model, X):
predictions = model.predict(X)
return predictions
For more examples and best practices for integrating machine learning models, refer to the Machine Learning Cheat Sheet.
Taipy can be deployed and integrated with various cloud platforms, such as AWS, Google Cloud, and Microsoft Azure. You can leverage cloud services for data storage, computation, and scalability. Here's an example of deploying a Taipy application to AWS using AWS Lambda:
from taipy.enterprise.aws import deploy_to_lambda
deploy_to_lambda(
scenario_id="my_scenario",
function_name="my_function",
role_arn="arn:aws:iam::123456789012:role/lambda-role",
region="us-west-2"
)
For more information on deploying Taipy applications to different cloud platforms and utilizing cloud services, see the Cloud Platforms Cheat Sheet.
Docker is a popular containerization platform that allows you to package your Taipy application along with its dependencies into a portable container. Here's an example Dockerfile for a Taipy application:
FROM python:3.9
WORKDIR /app
COPY requirements.txt .
RUN pip install -r requirements.txt
COPY . .
CMD ["python", "main.py"]
For more details on building Docker images, running containers, and orchestrating multi-container applications, refer to the Docker Cheat Sheet.
Kubernetes is an open-source container orchestration platform that enables deploying, scaling, and managing containerized applications. Taipy applications can be deployed to Kubernetes clusters for enhanced scalability and resilience. Here's an example Kubernetes deployment configuration:
apiVersion: apps/v1
kind: Deployment
metadata:
name: taipy-app
spec:
replicas: 3
selector:
matchLabels:
app: taipy-app
template:
metadata:
labels:
app: taipy-app
spec:
containers:
- name: taipy-app
image: taipy-app:latest
ports:
- containerPort: 8080
For more information on deploying Taipy applications to Kubernetes, configuring services, and managing resources, see the Kubernetes Cheat Sheet.
Serverless computing allows you to run your Taipy application without managing servers or infrastructure. Taipy can be deployed as serverless functions on platforms like AWS Lambda, Google Cloud Functions, or Azure Functions. Here's an example of deploying a Taipy application as an AWS Lambda function:
from taipy.enterprise.aws import deploy_to_lambda
deploy_to_lambda(
scenario_id="my_scenario",
function_name="my_function",
role_arn="arn:aws:iam::123456789012:role/lambda-role",
region="us-west-2"
)
For more details on deploying Taipy applications as serverless functions and leveraging serverless architectures, refer to the Serverless Cheat Sheet.
Troubleshooting is an essential skill for identifying and resolving issues in your Taipy application. Here are some common troubleshooting techniques:
- Check the Taipy logs for error messages and stack traces.
- Verify that all required dependencies are installed and compatible.
- Ensure that configuration files are properly formatted and contain valid settings.
- Inspect the data flow between tasks and pipelines to identify any data inconsistencies.
- Use debugging tools and techniques to step through the code and identify the root cause of the issue.
For more troubleshooting tips and common error scenarios, see the Troubleshooting Cheat Sheet.
-
What is Taipy? Taipy is a Python framework for building data-driven applications and pipelines. It provides tools and abstractions for defining scenarios, pipelines, tasks, and data nodes, making it easier to create and manage complex data workflows.
-
What are the main components of Taipy? The main components of Taipy are:
- Taipy Core: The core library that provides the building blocks for creating scenarios, pipelines, tasks, and data nodes.
- Taipy GUI: A tool for building interactive web-based user interfaces for Taipy applications.
- Taipy REST: A library for exposing Taipy scenarios and pipelines as RESTful APIs.
- Taipy Config: A configuration management system for defining and managing application settings.
- Taipy Enterprise: An extension of Taipy with additional features for building production-ready applications.
-
How do I install Taipy? You can install Taipy using pip:
pip install taipy
For more detailed installation instructions, refer to the Taipy Installation Guide.
-
What are the supported data storage backends in Taipy? Taipy supports various data storage backends, including:
- Relational databases (e.g., PostgreSQL, MySQL)
- NoSQL databases (e.g., MongoDB, Cassandra)
- Data warehouses (e.g., Redshift, BigQuery)
- File systems (e.g., local, HDFS, S3)
- In-memory storage
-
Can I use Taipy for machine learning tasks? Yes, Taipy provides integration with popular machine learning libraries, such as scikit-learn, TensorFlow, and PyTorch. You can incorporate machine learning models into your Taipy pipelines and tasks.
-
How can I deploy a Taipy application? Taipy applications can be deployed using various methods, including:
- Docker containers
- Kubernetes clusters
- Serverless platforms (e.g., AWS Lambda, Google Cloud Functions)
- Traditional web servers (e.g., Gunicorn, uWSGI) The deployment method depends on your specific requirements and infrastructure setup.
-
Is Taipy suitable for building real-time applications? Yes, Taipy can be used to build real-time applications. You can leverage Taipy's event-driven architecture and integrate with message queues or streaming platforms to process data in real-time.
-
Can I extend Taipy with custom functionality? Absolutely! Taipy is designed to be extensible. You can create custom tasks, data nodes, and plugins to extend Taipy's functionality and integrate with external systems or libraries.
-
How can I contribute to Taipy? Contributions to Taipy are welcome! You can contribute by:
- Reporting bugs and submitting feature requests on the Taipy GitHub repository.
- Submitting pull requests with bug fixes, enhancements, or new features.
- Improving the documentation and writing tutorials or blog posts about Taipy.
- Participating in discussions and providing feedback on the Taipy community forums.
For more frequently asked questions and answers, refer to the Taipy FAQ.
We welcome contributions from the community to make Taipy even better! If you'd like to contribute to Taipy, please follow these steps:
- Fork the Taipy GitHub repository.
- Create a new branch for your feature or bug fix.
- Make your changes and ensure that the code follows the Taipy coding conventions.
- Write tests to cover your changes and ensure that existing tests pass.
- Update the documentation if necessary.
- Submit a pull request describing your changes and referencing any related issues.
For more detailed guidelines on contributing to Taipy, please refer to the Contributing Guide.
Taipy is released under the Apache License 2.0. By contributing to Taipy, you agree that your contributions will be licensed under the same license.
We hope these Taipy cheat sheets will be a valuable resource for you as you build and deploy data-driven applications with Taipy. If you have any questions, feedback, or suggestions, please don't hesitate to reach out to the Taipy community or open an issue on the Taipy Cheat Sheets.
Happy coding with Taipy!