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Brandon Rozek 2020-04-08 19:05:28 -04:00
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---
title: "Quick Python: Copy Decorator"
date: 2020-04-08T18:49:54-04:00
draft: false
tags: ["python"]
---
If you want to guarantee that your function doesn't modify any of the references and don't mind paying a price in memory consumption, here is a decorator you can easily add to your functions.
```python
from copy import deepcopy
def copy_arguments(func):
def wrapper(*args, **kwargs):
new_args = deepcopy(args)
new_kwargs = deepcopy(kwargs)
return func(*new_args, **new_kwargs)
return wrapper
```
Example usage:
```python
@copy_arguments
def modify1(xs):
for i, _ in enumerate(xs):
xs[i] *= 2
```
Comparison:
```python
def modify2(xs):
for i, _ in enumerate(xs):
xs[i] *= 2
a = [1, 2, 3, 4, 5]
b = [1, 2, 3, 4, 5]
modify1(a)
modify2(a)
print(a)
print(b)
```
```
[1, 2, 3, 4, 5]
[2, 4, 6, 8, 10]
```

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---
title: "Quick Python: Dataclasses"
date: 2020-04-08T18:59:48-04:00
draft: false
tags: ["python"]
---
Python 3.7 and above have a feature called dataclasses. This allows us to reduce boilerplate code by removing the need to create a whole constructor and providing a sensible `__repr__` function.
```python
from dataclasses import dataclass
@dataclass
class Person:
name: str
age: int
```
Usage:
```python
p = Person("Bob", 30)
print(p)
```
```
Person(name='Bob', age=20)
```

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---
title: "Quick Python: Getters and Setters"
date: 2020-04-08T18:15:21-04:00
draft: false
tags: ["python"]
---
One of the hidden gems in Python classes are seamless getters and setters. I discovered this through the book [Effective Python by Brett Slatkin](https://effectivepython.com/). Though the example I'll use is different and shorter than the one he uses in his book.
Let's create a class representing a person. The only information we're going to store is their age and we'll make it optional to provide it.
```python
class Person:
def __init__(self, age=None):
self._age = None
@property
def age(self):
if self._age is None:
raise ValueError("age must be set before accessing it.")
return self._age
@age.setter
def age(self, age):
if age < 0:
raise ValueError("age must be at least zero.")
self._age = age
```
The second function in the class decorated by `@property` will be the getter function for the attribute `_age`. The name of the function will be what we expect the user to access it as. The setter is then decorated with `age.setter` where `age` is the name of the attribute. As such the name chosen in the getter function name, setter function name, and decorator must all match.
Now let's try using it
```python
bobby = Person()
bobby.age
```
```
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
File "/home/user/test.py", line 7, in age
raise ValueError("age must first be set before accessing it")
ValueError: age must first be set before accessing it
```
```python
bobby.age = 5
bobby.age
```
```
5
```