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MyPy1 is a static type checker for Python. Unlike statically-typed languages like C++ or Java, Python is dynamically typed. This means that in Python, you don't have to explicitly declare the type of a variable; it is inferred at runtime. For example:
num = 4 # `num` is inferred as an integer newString = "new string" # `newString` is inferred as a string
In contrast, statically-typed languages require you to specify the type of each variable at compile time. This helps catch type-related errors during development rather than at runtime.
int num = 4; // `num` is declared as an integer std::string newString = "new string"; // `newString` is declared as a string
In dynamically typed languages like Python, type errors can occur at runtime, which may lead to bugs that are harder to trace. MyPy addresses this by allowing you to add type hints to your Python code, which can be checked statically before execution. This offers several advantages:
Here’s a simple example demonstrating the use of type hints with MyPy:
def add(a, b): return a + b print(add(5, 3)) # Output: 8 print(add("hello", "world")) # Output: helloworld
In the code above, the add function can accept both integers and strings, which might not be the intended behavior.
def add(a: int, b: int) -> int: return a + b print(add(5, 3)) # Output: 8 # mypy will report an error for the following line: # print(add("hello", "world")) # TypeError: Expected int, got str
By including type hints (a: int, b: int), you specify that add should work with integers only. MyPy checks the code against these type hints, catching potential type-related issues early.
To get started with MyPy:
python3 -m pip install mypy
mypy program.py
This command will check your code statically, similar to how a compiler checks syntax in C++. It will report any type errors it finds without actually running the code.
Using MyPy effectively allows you to integrate the benefits of static typing into Python, while still enjoying the flexibility of its dynamic nature.
def greeting(name): return 'Hello ' + name # These calls will fail when the program runs, but MyPy will not report an error greeting(123) greeting(b"Aniket")
By adding type annotations (also known as type hints), MyPy can detect potential issues:
def greeting(name: str) -> str: return 'Hello ' + name greeting(3) # mypy will report: Argument 1 to "greeting" has incompatible type "int"; expected "str" greeting(b'Alice') # mypy will report: Argument 1 to "greeting" has incompatible type "bytes"; expected "str" greeting("World!") # No error
Here:
MyPy is useful in several situations:
Catch Errors Early: Use MyPy to find type-related errors before running your code. This helps catch mistakes early and improves code reliability.
Make Code Clearer: Adding type hints makes your code easier to understand. It shows what types of values are expected, which helps others (and your future self) understand your code better.
Upgrade Old Code: When updating old code, MyPy helps find type issues as you add type hints, making the transition smoother.
Improve Prototypes: When building new features or prototypes, MyPy helps ensure that the new code works correctly with existing code by enforcing type rules.
Maintain Large Projects: In big projects with many contributors, MyPy helps keep code consistent and prevents type-related bugs.
Boost IDE Features: If you use an IDE, MyPy improves features like code completion and navigation, making development easier.
Using MyPy helps you write better, more reliable Python code while still enjoying Python's flexibility.
A official quick cheatsheet for mypy
Official Documentation ↩
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