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Getting Started with Python in VS Code

In this tutorial, you will learn how to use Python 3 in Visual Studio Code to create, run, and debug a Python "Roll a dice!" application, work with virtual environments, use packages, and more! By using the Python extension, you turn VS Code into a great, lightweight Python editor.

If you are new to programming, check out the Visual Studio Code for Education - Introduction to Python course. This course offers a comprehensive introduction to Python, featuring structured modules in a ready-to-code browser-based development environment.

To gain a deeper understanding of the Python language, you can explore any of the programming tutorials listed on python.org within the context of VS Code.

For a Data Science focused tutorial with Python, check out our Data Science section.

Prerequisites

To successfully complete this tutorial, you need to first set up your Python development environment. Specifically, this tutorial requires:

Install a Python interpreter

Along with the Python extension, you need to install a Python interpreter. Which interpreter you use is dependent on your specific needs, but some guidance is provided below.

Windows

Install Python from python.org. Use the Download Python button that appears first on the page to download the latest version.

Note: If you don't have admin access, an additional option for installing Python on Windows is to use the Microsoft Store. The Microsoft Store provides installs of supported Python versions.

For additional information about using Python on Windows, see Using Python on Windows at Python.org

macOS

The system install of Python on macOS is not supported. Instead, a package management system like Homebrew is recommended. To install Python using Homebrew on macOS use brew install python3 at the Terminal prompt.

Note: On macOS, make sure the location of your VS Code installation is included in your PATH environment variable. See these setup instructions for more information.

Linux

The built-in Python 3 installation on Linux works well, but to install other Python packages you must install pip with get-pip.py.

Other options

  • Data Science: If your primary purpose for using Python is Data Science, then you might consider a download from Anaconda. Anaconda provides not just a Python interpreter, but many useful libraries and tools for data science.

  • Windows Subsystem for Linux: If you are working on Windows and want a Linux environment for working with Python, the Windows Subsystem for Linux (WSL) is an option for you. If you choose this option, you'll also want to install the WSL extension. For more information about using WSL with VS Code, see VS Code Remote Development or try the Working in WSL tutorial, which will walk you through setting up WSL, installing Python, and creating a Hello World application running in WSL.

Note: To verify that you've installed Python successfully on your machine, run one of the following commands (depending on your operating system):

Linux/macOS: open a Terminal Window and type the following command:

python3 --version

Windows: open a command prompt and run the following command:

py -3 --version

If the installation was successful, the output window should show the version of Python that you installed. Alternatively, you can use the py -0 command in the VS Code integrated terminal to view the versions of python installed on your machine. The default interpreter is identified by an asterisk (*).

Start VS Code in a workspace folder

By starting VS Code in a folder, that folder becomes your "workspace".

Using a command prompt or terminal, create an empty folder called "hello", navigate into it, and open VS Code (code) in that folder (.) by entering the following commands:

mkdir hello
cd hello
code .

Note: If you're using an Anaconda distribution, be sure to use an Anaconda command prompt.

Alternately, you can create a folder through the operating system UI, then use VS Code's File > Open Folder to open the project folder.

Create a virtual environment

A best practice among Python developers is to use a project-specific virtual environment. Once you activate that environment, any packages you then install are isolated from other environments, including the global interpreter environment, reducing many complications that can arise from conflicting package versions. You can create non-global environments in VS Code using Venv or Anaconda with Python: Create Environment.

Open the Command Palette (⇧⌘P (Windows, Linux Ctrl+Shift+P)), start typing the Python: Create Environment command to search, and then select the command.

The command presents a list of environment types, Venv or Conda. For this example, select Venv.

Create Environment dropdown

The command then presents a list of interpreters that can be used for your project. Select the interpreter you installed at the beginning of the tutorial.

Virtual environment interpreter selection

After selecting the interpreter, a notification will show the progress of the environment creation and the environment folder (/.venv) will appear in your workspace.

Create environment status notification

Ensure your new environment is selected by using the Python: Select Interpreter command from the Command Palette.

Select an Interpreter

Note: For additional information about virtual environments, or if you run into an error in the environment creation process, see Environments.

Create a Python source code file

From the File Explorer toolbar, select the New File button on the hello folder:

File Explorer New File

Name the file hello.py, and VS Code will automatically open it in the editor:

File Explorer hello.py

By using the .py file extension, you tell VS Code to interpret this file as a Python program, so that it evaluates the contents with the Python extension and the selected interpreter.

Note: The File Explorer toolbar also allows you to create folders within your workspace to better organize your code. You can use the New folder button to quickly create a folder.

Now that you have a code file in your Workspace, enter the following source code in hello.py:

msg = "Roll a dice!"
print(msg)

When you start typing print, notice how IntelliSense presents auto-completion options.

IntelliSense appearing for Python code

IntelliSense and auto-completions work for standard Python modules as well as other packages you've installed into the environment of the selected Python interpreter. It also provides completions for methods available on object types. For example, because the msg variable contains a string, IntelliSense provides string methods when you type msg.:

IntelliSense appearing for a variable whose type provides methods

Finally, save the file (⌘S (Windows, Linux Ctrl+S)). At this point, you're ready to run your first Python file in VS Code.

For full details on editing, formatting, and refactoring, see Editing code. The Python extension also has full support for Linting.

Run Python code

Click the Run Python File play button in the top-right side of the editor.

Using the Run Python File button

The button opens a terminal panel in which your Python interpreter is automatically activated, then runs python3 hello.py (macOS/Linux) or python hello.py (Windows):

Program output in a Python terminal

There are three other ways you can run Python code within VS Code:

  1. Right-click anywhere in the editor window and select Run Python > Run Python File in Terminal (which saves the file automatically):

    Run Python File in Terminal command in the Python editor

  2. Select one or more lines, then press Shift+Enter or right-click and select Run Python > Run Selection/Line in Python Terminal. Alternatively, you can activate Smart Send using Shift+Enter without a selection and the Python extension will send the smallest runnable block of code near where your cursor is placed to the terminal. This command is convenient for testing just a part of a file.

Note: If you prefer to send code at the particular line your cursor is placed, you can turn off Smart Send by setting python.REPL.enableREPLSmartSend : "false" in your User settings.

  1. From the Command Palette (⇧⌘P (Windows, Linux Ctrl+Shift+P)), select the Python: Start Terminal REPL command to open a REPL terminal (notated by >>>) for the currently selected Python interpreter. In the REPL, you can then enter and run lines of code one at a time.

Congrats, you just ran your first Python code in Visual Studio Code!

Configure and run the debugger

Let's now try debugging our Python program. Debugging support is provided by the Python Debugger extension, which is automatically installed with the Python extension. To ensure it has been installed correctly, open the Extensions view (⇧⌘X (Windows, Linux Ctrl+Shift+X)) and search for @installed python debugger. You should see the Python Debugger extension listed in the results.

Python Debugger extension shown in installed extensions view in VS Code.

Next, set a breakpoint on line 2 of hello.py by placing the cursor on the print call and pressing F9. Alternately, click in the editor's left gutter, next to the line numbers. When you set a breakpoint, a red circle appears in the gutter.

Setting a breakpoint in hello.py

Next, to initialize the debugger, press F5. Since this is your first time debugging this file, a configuration menu will open from the Command Palette allowing you to select the type of debug configuration you would like for the opened file.

List of Python debugger configuration options

Note: VS Code uses JSON files for all of its various configurations; launch.json is the standard name for a file containing debugging configurations.

Select Python File, which is the configuration that runs the current file shown in the editor using the currently selected Python interpreter.

The debugger will start, and then stop at the first line of the file breakpoint. The current line is indicated with a yellow arrow in the left margin. If you examine the Local variables window at this point, you can see that the msg variable appears in the Local pane.

Debugging step 2 - variable defined

A debug toolbar appears along the top with the following commands from left to right: continue (F5), step over (F10), step into (F11), step out (⇧F11 (Windows, Linux Shift+F11)), restart (⇧⌘F5 (Windows, Linux Ctrl+Shift+F5)), and stop (⇧F5 (Windows, Linux Shift+F5)).

Debugging toolbar

The Status Bar also changes color (orange in many themes) to indicate that you're in debug mode. The Python Debug Console also appears automatically in the lower right panel to show the commands being run, along with the program output.

To continue running the program, select the continue command on the debug toolbar (F5). The debugger runs the program to the end.

Tip Debugging information can also be seen by hovering over code, such as variables. In the case of msg, hovering over the variable will display the string Roll a dice! in a box above the variable.

You can also work with variables in the Debug Console (If you don't see it, select Debug Console in the lower right area of VS Code, or select it from the ... menu.) Then try entering the following lines, one by one, at the > prompt at the bottom of the console:

msg
msg.capitalize()
msg.split()

Debugging step 3 - using the debug console

Select the blue Continue button on the toolbar again (or press F5) to run the program to completion. "Roll a dice!" appears in the Python Debug Console if you switch back to it, and VS Code exits debugging mode once the program is complete.

If you restart the debugger, the debugger again stops on the first breakpoint.

To stop running a program before it's complete, use the red square stop button on the debug toolbar (⇧F5 (Windows, Linux Shift+F5)), or use the Run > Stop debugging menu command.

For full details, see Debugging configurations, which includes notes on how to use a specific Python interpreter for debugging.

Tip: Use Logpoints instead of print statements: Developers often litter source code with print statements to quickly inspect variables without necessarily stepping through each line of code in a debugger. In VS Code, you can instead use Logpoints. A Logpoint is like a breakpoint except that it logs a message to the console and doesn't stop the program. For more information, see Logpoints in the main VS Code debugging article.

Install and use packages

Let's build upon the previous example by using packages.

In Python, packages are how you obtain any number of useful code libraries, typically from PyPI, that provide additional functionality to your program. For this example, you use the numpy package to generate a random number.

Return to the Explorer view (the top-most icon on the left side, which shows files), open hello.py, and paste in the following source code:

import numpy as np

msg = "Roll a dice!"
print(msg)

print(np.random.randint(1,9))

Tip: If you enter the above code by hand, you may find that auto-completions change the names after the as keywords when you press Enter at the end of a line. To avoid this, type a space, then Enter.

Next, run the file in the debugger using the "Python: Current file" configuration as described in the last section.

You should see the message, "ModuleNotFoundError: No module named 'numpy'". This message indicates that the required package isn't available in your interpreter. If you're using an Anaconda distribution or have previously installed the numpy package you may not see this message.

To install the numpy package, stop the debugger and use the Command Palette to run Terminal: Create New Terminal (⌃⇧` (Windows, Linux Ctrl+Shift+`)). This command opens a command prompt for your selected interpreter.

To install the required packages in your virtual environment, enter the following commands as appropriate for your operating system:

  1. Install the packages

    # Don't use with Anaconda distributions because they include matplotlib already.
    
    # macOS
    python3 -m pip install numpy
    
    # Windows (may require elevation)
    py -m pip install numpy
    
    # Linux (Debian)
    apt-get install python3-tk
    python3 -m pip install numpy
    
  2. Now, rerun the program, with or without the debugger, to view the output!

Managing dependencies across environments

When working on Python projects, it’s essential to manage your dependencies effectively. One useful tip is to use the pip freeze > requirements.txt command. This command helps you create a requirements.txt file that lists all the packages installed in your virtual environment. This file can then be used to recreate the same environment elsewhere.

Follow these steps to create a requirements.txt file:

  1. Activate your virtual environment, if you haven’t already.

    source venv/bin/activate  # On macOS/Linux
    
    .\venv\Scripts\activate   # On Windows
    
  2. Generate the requirements.txt file.

    pip freeze > requirements.txt
    

You can now use the newly generated requirements.txt file to install dependencies in another environment. Furthermore, you can continue to add dependencies to it as your project may grow in complexity.

pip install -r requirements.txt

By following these steps, you ensure that your project dependencies are consistent across different environments, making it easier to collaborate with others and deploy your project.

Congrats on completing the Python tutorial! During the course of this tutorial, you learned how to create a Python project, create a virtual environment, run and debug your Python code, and install Python packages. Explore additional resources to learn how to get the most out of Python in Visual Studio Code!

Next steps

To learn how to build web apps with popular Python web frameworks, see the following tutorials:

There is then much more to explore with Python in Visual Studio Code: