Introduction:
Kivy and Qt for Python are two popular GUI frameworks used by developers to create cross-platform applications with interactive user interfaces. While both frameworks have their own strengths and weaknesses, it can be difficult to determine which one is better suited for a particular project. In this tutorial, we will compare Kivy and Qt for Python by creating a simple login page using both frameworks. We will focus on building the login page without using QDesigner, the graphical user interface design tool provided by Qt.
Kivy:
Kivy is an open-source Python library for developing multitouch applications. It is designed to be easy to use and supports multiple platforms, including Windows, macOS, Linux, Android, and iOS. Kivy uses a custom language called Kivy Language (KV) for creating user interfaces, which makes it easy to build complex layouts. To get started with Kivy, you can install it using pip:
pip install kivy
Once Kivy is installed, you can create a new Python file for your login page. Here’s an example of a simple login page using Kivy:
from kivy.app import App
from kivy.uix.boxlayout import BoxLayout
from kivy.uix.label import Label
from kivy.uix.textinput import TextInput
from kivy.uix.button import Button
class LoginPage(BoxLayout):
def __init__(self, **kwargs):
super(LoginPage, self).__init__(**kwargs)
self.orientation = 'vertical'
self.add_widget(Label(text='Username'))
self.username = TextInput()
self.add_widget(self.username)
self.add_widget(Label(text='Password'))
self.password = TextInput(password=True)
self.add_widget(self.password)
self.submit = Button(text='Submit')
self.submit.bind(on_press=self.submit_login)
self.add_widget(self.submit)
def submit_login(self, instance):
username = self.username.text
password = self.password.text
# validate username and password here
class LoginApp(App):
def build(self):
return LoginPage()
if __name__ == '__main__':
LoginApp().run()
In this example, we create a LoginPage
class that inherits from BoxLayout
to arrange the widgets vertically. We add Label
, TextInput
, and Button
widgets for the username, password, and submit button, respectively. When the submit button is pressed, the submit_login
method is called to retrieve the input values and validate the user credentials.
Qt for Python:
Qt for Python, also known as PySide2, is a set of Python bindings for the Qt application framework. Qt is a powerful and feature-rich framework that provides a wide range of tools and components for building desktop, mobile, and embedded applications. To use Qt for Python, you can install it using pip:
pip install PySide2
Similar to Kivy, you can create a new Python file for your login page using Qt for Python:
from PySide2.QtWidgets import QApplication, QWidget, QLabel, QLineEdit, QPushButton, QVBoxLayout
class LoginPage(QWidget):
def __init__(self):
super().__init__()
layout = QVBoxLayout()
layout.addWidget(QLabel("Username"))
self.username = QLineEdit()
layout.addWidget(self.username)
layout.addWidget(QLabel("Password"))
self.password = QLineEdit()
self.password.setEchoMode(QLineEdit.Password)
layout.addWidget(self.password)
self.submit = QPushButton("Submit")
self.submit.clicked.connect(self.submit_login)
layout.addWidget(self.submit)
self.setLayout(layout)
def submit_login(self):
username = self.username.text()
password = self.password.text()
# validate username and password here
if __name__ == '__main__':
app = QApplication([])
login_page = LoginPage()
login_page.show()
app.exec_()
In this example, we create a LoginPage
class that inherits from QWidget
to create a window for our login page. We use QLabel
, QLineEdit
, and QPushButton
widgets for the username, password, and submit button, respectively. The submit_login
method is connected to the clicked
signal of the submit button to handle the login logic.
Comparison:
Both Kivy and Qt for Python provide easy-to-use APIs for creating user interfaces in Python. However, there are some key differences between the two frameworks that may influence your choice:
-
Language: Kivy uses its custom KV language for creating user interfaces, while Qt for Python uses the Qt Widgets module to build GUIs. If you prefer a declarative approach, Kivy’s KV language may be more suitable for you. On the other hand, if you are familiar with Qt’s QWidget-based design, Qt for Python may be a better choice.
-
Platform Support: Kivy supports multiple platforms, including mobile platforms like Android and iOS, making it a good choice for developing cross-platform applications. Qt for Python also supports various platforms but may require additional configuration for mobile development.
-
Performance: Kivy is known for its fast performance and efficient rendering, making it a good choice for graphics-intensive applications. Qt for Python also offers good performance but may not be as fast as Kivy in some cases.
- Community and Support: Both Kivy and Qt for Python have active communities and documentation that can help you get started with development. However, Kivy’s community is more focused on mobile application development, while Qt for Python has a broader user base with expertise in desktop and embedded systems.
Conclusion:
In this tutorial, we compared Kivy and Qt for Python by creating a simple login page using both frameworks without using QDesigner. We explored the key features of each framework and discussed their strengths and weaknesses. Ultimately, the choice between Kivy and Qt for Python depends on your specific requirements and preferences. Experiment with both frameworks and see which one works best for your project.
But who wins for you ?
Keep it up Bro