I really enjoy using the Option and Either monads in Scala. Are there any equivalent for these things in Python? If there aren't, then what is the pythonic way of handling errors or "absence of value" without throwing exceptions?
The pythonic way for a function to say "I am not defined at this point" is to raise an exception.
>>> int("blarg") Traceback (most recent call last): ... ValueError: invalid literal for int() with base 10: 'blarg' >>> dict(foo=5)['bar'] Traceback (most recent call last): ... KeyError: 'bar' >>> 1 / 0 Traceback (most recent call last): ... ZeroDivisionError: integer division or modulo by zero
This is, in part, because there's no (generally useful) static type checker for python. A Python function cannot syntactically state, at compile time, that it has a particular codomain; there's no way to force callers to match all of the cases in the function's return type.
If you prefer, you can write (unpythonically) a
class Maybe(object): def get_or_else(self, default): return self.vaue if isinstance(self, Just) else default class Just(Maybe): def __init__(self, value): self.value = value class Nothing(Maybe): pass
But I would not do this, unless you're trying to port something from Scala to Python without changing much.
mypy adds type definitions and type checking (not at runtime) over regular Python. They have an
Optional: https://docs.python.org/3/library/typing.html#typing.Optional. More here https://www.python.org/dev/peps/pep-0484/#rationale-and-goals. Intellij has plugin support which makes it all very professional and smooth.
In python, for an absence of value, the variable is None, so you can do it this way.
vars = None vars = myfunction() if vars is None: print 'No value!' else: print 'Value!'
or even just check if a value is present like this
if vars is not None: print vars
I realize this is pretty late to the party but I came to this page on top of google before deciding to implement it so maybe I can help others googling with this. I implemented it, you can get it from pypi as
pyther-maybe, it implements both Either and Maybe with Maybe as a special subclass of Either. This example should explain how it works:
import sys from pyther_maybe import * def save_div ( x, y ): if y == 0: return nothing() # alias of Maybe() else: return value(x / y) # alias of Maybe(x / y) float_test = save_div(1.0, 3.0) assert isinstance(float_test, Maybe) if float_test: #nothing tests as false: float = float_test() # calling the container with no arguments returns its value else: sys.exit("something went wrong") print float # or if you want to encode a reason: def save_div ( x, y ): if y == 0: return left("You can't divide by zero, silly") # alias of Either(left=...) else: return right(x / y) # alis of Either(...) float_test = save_div(4.2, 0.0) assert isinstance(float_test, Either) def fake_exit ( string ): print "We would have exited with:" print string return "Whatever value" if float_test: # these two are te same float = float_test() float = float_test.right() else: fake_exit(float_test.left()) # or in a shorter and more pleasant format # does the same as above float = float_test.extract(fake_exit) print float # prints "Whatever value" # Also, these containers are mutable: box = nothing() try: print box() # raises exception except RightEitherException: print "We caught an exception" def change_box(): box(4) change_box() print box() # 4
It has more features than that, some of which are pretty useless in practise (it's also an iterator for instance and has subscript notation like
pyther_maybe.either(x)[pyther_maybe.Right] == x.
A list that happens to always be of length zero or one fulfills some of the same goals as optional/maybe types. You won't get the benefits of static typing in Python, but you'll probably get a run-time error even on the happy path if you write code that tries to use the "maybe" without explicitly "unwrapping" it.