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name, description, license
| name | description | license |
|---|---|---|
| python-style-guide | Comprehensive Python programming guidelines based on Google's Python Style Guide. Use when Claude needs to write Python code, review Python code for style issues, refactor Python code, or provide Python programming guidance. Covers language rules (imports, exceptions, type annotations), style rules (naming conventions, formatting, docstrings), and best practices for clean, maintainable Python code. | Complete terms in LICENSE.txt |
Python Style Guide
Comprehensive guidelines for writing clean, maintainable Python code based on Google's Python Style Guide.
Core Philosophy
BE CONSISTENT. Match the style of the code around you. Use these guidelines as defaults, but always prioritize consistency with existing code.
Language Rules
Imports
Use import statements for packages and modules only, not for individual classes or functions.
Yes:
from doctor.who import jodie
import sound_effects.utils
No:
from sound_effects.utils import EffectsRegistry # Don't import classes directly
Import Formatting
- Group imports: standard library, third-party, application-specific
- Alphabetize within each group
- Use absolute imports (not relative imports)
- One import per line (except for multiple items from
typingorcollections.abc)
# Standard library
import os
import sys
# Third-party
import numpy as np
import tensorflow as tf
# Application-specific
from myproject.backend import api_utils
Exceptions
Use exceptions appropriately. Do not suppress errors with bare except: clauses.
Yes:
try:
result = risky_operation()
except ValueError as e:
logging.error(f"Invalid value: {e}")
raise
No:
try:
result = risky_operation()
except: # Too broad, hides bugs
pass
Type Annotations
Annotate all function signatures. Type annotations improve code readability and catch errors early.
General rules:
- Annotate all public APIs
- Use built-in types (
list,dict,set) instead oftyping.List, etc. (Python 3.9+) - Import typing symbols directly:
from typing import Any, Union - Use
Noneinstead oftype(None)orNoneType
def fetch_data(url: str, timeout: int = 30) -> dict[str, Any]:
"""Fetch data from URL."""
...
def process_items(items: list[str]) -> None:
"""Process a list of items."""
...
Default Argument Values
Never use mutable objects as default values in function definitions.
Yes:
def foo(a: int, b: list[int] | None = None) -> None:
if b is None:
b = []
No:
def foo(a: int, b: list[int] = []) -> None: # Mutable default - WRONG!
b.append(a)
True/False Evaluations
Use implicit false where possible. Empty sequences, None, and 0 are false in boolean contexts.
Yes:
if not users: # Preferred
if not some_dict:
if value:
No:
if len(users) == 0: # Verbose
if users == []:
if value == True: # Never compare to True/False explicitly
Comprehensions & Generators
Use comprehensions and generators for simple cases. Keep them readable.
Yes:
result = [x for x in data if x > 0]
squares = (x**2 for x in range(10))
No:
# Too complex
result = [
x.strip().lower() for x in data
if x and len(x) > 5 and not x.startswith('#')
for y in x.split(',') if y
] # Use a regular loop instead
Lambda Functions
Use lambdas for one-liners only. For anything complex, define a proper function.
Yes:
sorted(data, key=lambda x: x.timestamp)
Acceptable but prefer named function:
def get_timestamp(item):
return item.timestamp
sorted(data, key=get_timestamp)
Style Rules
Line Length
Maximum line length: 80 characters. Exceptions allowed for imports, URLs, and long strings that can't be broken.
Indentation
Use 4 spaces per indentation level. Never use tabs.
For hanging indents, align wrapped elements vertically or use 4-space hanging indent:
# Aligned with opening delimiter
foo = long_function_name(var_one, var_two,
var_three, var_four)
# Hanging indent (4 spaces)
foo = long_function_name(
var_one, var_two, var_three,
var_four)
Blank Lines
- Two blank lines between top-level definitions
- One blank line between method definitions
- Use blank lines sparingly within functions to show logical sections
Naming Conventions
| Type | Convention | Examples |
|---|---|---|
| Packages/Modules | lower_with_under |
my_module.py |
| Classes | CapWords |
MyClass |
| Functions/Methods | lower_with_under() |
my_function() |
| Constants | CAPS_WITH_UNDER |
MAX_SIZE |
| Variables | lower_with_under |
my_var |
| Private | _leading_underscore |
_private_var |
Avoid:
- Single character names except for counters/iterators (
i,j,k) - Dashes in any name
__double_leading_and_trailing_underscore__(reserved for Python)
Comments and Docstrings
Docstring Format
Use Google-style docstrings for all public modules, functions, classes, and methods.
Function docstring:
def fetch_smalltable_rows(
table_handle: smalltable.Table,
keys: Sequence[bytes | str],
require_all_keys: bool = False,
) -> Mapping[bytes, tuple[str, ...]]:
"""Fetches rows from a Smalltable.
Retrieves rows pertaining to the given keys from the Table instance
represented by table_handle. String keys will be UTF-8 encoded.
Args:
table_handle: An open smalltable.Table instance.
keys: A sequence of strings representing the key of each table
row to fetch. String keys will be UTF-8 encoded.
require_all_keys: If True, raise ValueError if any key is missing.
Returns:
A dict mapping keys to the corresponding table row data
fetched. Each row is represented as a tuple of strings.
Raises:
IOError: An error occurred accessing the smalltable.
ValueError: A key is missing and require_all_keys is True.
"""
...
Class docstring:
class SampleClass:
"""Summary of class here.
Longer class information...
Longer class information...
Attributes:
likes_spam: A boolean indicating if we like SPAM or not.
eggs: An integer count of the eggs we have laid.
"""
def __init__(self, likes_spam: bool = False):
"""Initializes the instance based on spam preference.
Args:
likes_spam: Defines if instance exhibits this preference.
"""
self.likes_spam = likes_spam
self.eggs = 0
Block and Inline Comments
- Use complete sentences with proper capitalization
- Block comments indent to the same level as the code
- Inline comments should be separated by at least 2 spaces
- Use inline comments sparingly
# Block comment explaining the following code.
# Can span multiple lines.
x = x + 1 # Inline comment (use sparingly)
Strings
Use f-strings for formatting (Python 3.6+).
Yes:
x = f"name: {name}; score: {score}"
Acceptable:
x = "name: %s; score: %d" % (name, score)
x = "name: {}; score: {}".format(name, score)
No:
x = "name: " + name + "; score: " + str(score) # Avoid + for formatting
Logging
Use % formatting for logging, not f-strings (allows lazy evaluation):
logging.info("Request from %s resulted in %d", ip_address, status_code)
Files and Resources
Always use context managers (with statements) for file operations:
with open("file.txt") as f:
data = f.read()
Statements
Generally avoid multiple statements on one line.
Yes:
if foo:
bar()
No:
if foo: bar() # Avoid
Main
For executable scripts, use:
def main():
...
if __name__ == "__main__":
main()
Function Length
Keep functions focused and reasonably sized. If a function exceeds about 40 lines, consider splitting it unless it remains very readable.
Type Annotation Details
Forward Declarations
Use string quotes for forward references:
class MyClass:
def method(self) -> "MyClass":
return self
Type Aliases
Create aliases for complex types:
from typing import TypeAlias
ConnectionOptions: TypeAlias = dict[str, str]
Address: TypeAlias = tuple[str, int]
Server: TypeAlias = tuple[Address, ConnectionOptions]
TypeVars
Use descriptive names for TypeVars:
from typing import TypeVar
_T = TypeVar("_T") # Good: private, unconstrained
AddableType = TypeVar("AddableType", int, float, str) # Good: descriptive
Generics
Always specify type parameters for generic types:
Yes:
def get_names(employee_ids: list[int]) -> dict[int, str]:
...
No:
def get_names(employee_ids: list) -> dict: # Missing type parameters
...
Imports for Typing
Import typing symbols directly:
from collections.abc import Mapping, Sequence
from typing import Any, Union
# Use built-in types for containers (Python 3.9+)
def foo(items: list[str]) -> dict[str, int]:
...
Common Patterns
Properties
Use properties for simple attribute access:
class Square:
def __init__(self, side: float):
self._side = side
@property
def area(self) -> float:
return self._side ** 2
Conditional Expressions
Use ternary operators for simple conditions:
x = "yes" if condition else "no"
Context Managers
Create custom context managers when appropriate:
from contextlib import contextmanager
@contextmanager
def managed_resource(*args, **kwargs):
resource = acquire_resource(*args, **kwargs)
try:
yield resource
finally:
release_resource(resource)
Linting
Run pylint on all Python code. Suppress warnings only when necessary with clear explanations:
dict = 'something' # pylint: disable=redefined-builtin
Summary
When writing Python code:
- Use type annotations for all functions
- Follow naming conventions consistently
- Write clear docstrings for all public APIs
- Keep functions focused and reasonably sized
- Use comprehensions for simple cases
- Prefer implicit false in boolean contexts
- Use f-strings for formatting
- Always use context managers for resources
- Run pylint and fix issues
- BE CONSISTENT with existing code
Additional Resources
For detailed reference on specific topics, see:
- references/advanced_types.md - Advanced type annotation patterns including Protocol, TypedDict, Literal, ParamSpec, and more
- references/antipatterns.md - Common Python mistakes and their fixes
- references/docstring_examples.md - Comprehensive docstring examples for all Python constructs