In Python, if you are doing something that may throw an error, there are many cases in which it is better to "apologise than to ask for permission". This means you should prefer using a try block to catch the error, instead of an if statement to prevent the error.

A Python code snippet, using a `try` statement instead of an `if`.

(If you are new here and have no idea what a Pydon't is, you may want to read the Pydon't Manifesto.)

EAFP and LBYL

"EAFP" is an acronym that stands for "Easier to Ask for Forgiveness than Permission", a coding practice that is more or less the opposite of the "LBYL", which stands for "Look Before You Leap".

LBYL means you first check if a given operation can be made successfully, and then proceed to do it. For example, if you want to ask the user for a number whose default value will be 1, you can use the code

print("Type a positive integer (defaults to 1):")
s = input(" >> ")
if s.isnumeric():
    n = int(s)
else:
    n = 1

(In the code above, we use the method str.isnumeric to check if the string is a valid integer. Try running print(str.isnumeric.__doc__) in your Python REPL.)

With EAFP, you first try to perform whatever operation it is you want to do, and then use a try block to capture an eventual exception that your operation might throw in case it is not successful. In our example, this means we simply try to convert s into an integer and in case a ValueError exception is raised, we set the default value:

print("Type a positive integer (defaults to 1):")
s = input(" >> ")
try:
    n = int(s)
except ValueError:
    n = 1

We use except ValueError because a ValueError is the exception that is raised if you try to convert to integer a string that doesn't contain an integer:

>>> int("345")
345
>>> int("3.4")
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
ValueError: invalid literal for int() with base 10: '3.4'
>>> int("asdf")
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
ValueError: invalid literal for int() with base 10: 'asdf'

EAFP instead of LBYL?

Writing code that follows the EAFP style can be advantageous in several situations, and I will present them now.

Avoid redundancy

Sometimes, coding with EAFP in mind allows you to avoid redundancy in your code. Imagine you have a dictionary from which you want to extract a value associated with a key, but that key might not exist.

With LBYL, you would do something like:

d = {"a": 1, "b": 42}
print("What key do you want to access?")
key = input(" >> ")
if key in d:
    print(d[key])
else:
    print(f"Cannot find key '{key}'")

If the key that was entered exists in the dictionary, this code performs two accesses to the dictionary: the first checks if key exists as a key, and the second retrieves its value. This is more or less like you opening a box to see if it contains something and closing it. Then, if the box was not empty, you open it again and remove whatever is inside. Would you do this in real life?

With EAFP, you can open the box and immediately empty it if you find something inside:

d = {"a": 1, "b": 42}
print("What key do you want to access?")
key = input(" >> ")
try:
    print(d[key])
except KeyError:
    print(f"Cannot find key '{key}'")

Still aligned with the EAFP mindset is a method that you should know about: dict.get! This operation I described is so common that dictionaries even come with a method that have a EAFP-like behaviour for when you want to take a value associated with a key, and use a default value if the key is not present:

d = {"a": 1, "b": 42}
print("What key do you want to access?")
key = input(" >> ")
print(d.get(key, None))

Try running the code above and type in keys that don't exist in your dictionary d. Notice that None gets printed in those cases.

EAFP can be faster

If failing is expected to happen not very often, then EAFP is faster: you just run a piece of code (your operation) instead of two (the "look" and the "leap").

As an example, let's go over the code from the example image above, using the timeit module to see what option is faster when the input can be converted to an integer:

>>> import timeit
>>> eafp = """s = "345"
... try:
...     n = int(s)
... except ValueError:
...     n = 0"""
>>> timeit.timeit(eafp)
0.1687019999999393

Here we define s as an integer immediately so that the timing does not have to take into account the time it takes for me to type an integer. Also, the timeit function is running the code a bunch of times and I don't want to have to type one million integers in the console.

Now, compare it with the LBYL approach:

>>> lbyl = """s = "345"
... if s.isnumeric():
...     n = int(s)
... else:
...     n = 0"""
>>> timeit.timeit(lbyl)
0.30682630000001154

The LBYL approach took almost twice the time. If you can make it so that the operation fails very rarely, then you are saving time by using a EAFP approach.

LBYL may still fail

When interacting with the environment, for example with the Internet or with the OS, in between the time it takes for you to do your safety check and then perform the operation, circumstances may change and your operation may no longer be viable.

For example, imagine you have a script that is reading some files. You can only read a file that exists, obviously, so an LBYL approach could entail writing code like

import pathlib

print("What file should I read?")
filepath = input(" >> ")
if pathlib.Path(filepath).exists():
    with open(filepath, "r") as f:
        contents = f.read()
    # Do something with the contents.
else:
    print("Woops, the file does not exist!")

If your script is in a computer that can be accessed by several users, or if there are other scripts working with the file system, your if statement might evaluate to True because the file was found, but then an external agent might delete the file and your with statement fails, raising an error and breaking your code. If you are writing critical code, this possibility has to be taken into account. Or if the code your executing after the check takes a long time to run.

If you use an EAFP approach, the code either reads the file or doesn't, but both cases are covered:

print("What file should I read?")
filepath = input(" >> ")
try:
    with open(filepath, "r") as f:
        contents = f.read()
except FileNotFoundError:
    print("Woops, the file does not exist!")
else:
    # Do something with the contents.
    pass

The else in the try block above ensures you only run the code that processes the contents if you are able to read the file. (I'll write a Pydon't about this, don't worry!)

Catch many types of fails

If you are trying to perform a complex operation that might fail in several ways, it might be easier to just enumerate the exceptions that might be raised instead of writing a really, really long if statement that performs all the necessary checks in advance.

For example, if you want to call a third party function that might throw several different exceptions, it is fairly simple to write an elegant try block that covers all the cases that might arise.

Imagine you have a function that takes a string, representing an integer, and then returns its inverse, but the person who wrote it performs no checks: just assumes the string represents an integer, converts it with int and then divides 1 by that integer:

def get_inverse(num_str):
    return 1 / int(num_str)

You want to use that function in your code after asking for user input, but you notice the user might type something that is not an integer, or the user might type a 0, which then gives you a ZeroDivisionError. With an EAFP approach, you write:

print("Type an integer:")
s = input(" >> ")
try:
    print(get_inverse(s))
except ValueError:
    print("I asked for an integer!")
except ZeroDivisionError:
    print("0 has no inverse!")

How would you do this with LBYL? Maybe

print("Type an integer:")
s = input(" >> ")
if s.isnumeric() and s != "0":
    print(get_inverse(s))
elif not s.isnumeric():
    print("I asked for an integer!")
else:
    print("0 has no inverse!")

But now you are using the function isnumeric twice. And isnumeric doesn't even work for negative integers. And what if the user types something like " 3"? isnumeric fails, but this is still an integer that int can convert! Or what if the user types "000"? This still evaluates to 0... I hope you get my point by now.

Conclusion

EAFP code is a very good alternative to LBYL code, even being superior in various alternatives, like the ones I mentioned above. When writing code, try to weigh the different pros and cons of the several approaches you can take, and don't forget to consider writing EAFP code!

EAFP is not the absolute best way to go in every single situation, but EAFP code can be very readable and performant!


If you liked this Pydon't be sure to leave a reaction below and share this with your friends and fellow Pythonistas. Do you have a nice example of some EAFP code that would be terrible with LBYL? Or maybe the other way around? Share with all of us by writing it in the comments below!

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References

Online references consulted on the 19th of January of 2021.

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