divide function is not total: some values from its input domain have no image.
Make the function total
Change the output domain so that it can return either an error or a number.
The caller is responsible for checking whether the value is really a number, or an error.
In a dynamically typed language like Clojure, you could return
nil, but any other value could work too, as long as you can distinguish it from a number.
In a statically typed language like Haskell, use
Data.Either or your own datatype if you need.
The check is done consistently and statically in Haskell. You must do the check every time, even if you are sure the divisor can't be null. However, you can also have a wrapper function,
must-divide, which then would throws an exception on errors.
In Clojure, you may forget to check for
nil, either from a bug or because you have more information about the divisor than the compiler. You could however force a consistent checking by exporting a
divide macro that requires you to consider the error path:
(divide x y :on-error (throw ...))
(divide x y :on-error default-value)
... could be respectively expanded as:
(or (maybe-divide x y) (throw ...))
(or (maybe-divide x y) default-value)
(defn maybe-divide [dividend divisor]
(and (not (zero? divisor))
(or (not= Integer/MIN_VALUE dividend)
(not= -1 divisor))
(/ dividend divisor)))
Throw an exception
Mathematical operations are composed to form bigger expressions: adding an explicit error handling path inside them can quickly become unreadable.
Also, you may expect most of your operations to call
divide with valid inputs, and don't want to check if the result is valid each time you call it (e.g. some mathematical equation come with a proof that the divisor won't possibly ever be null). In that case, Clojure and Haskell support exceptions. This allows you to catch errors higher up in the call stack in case you have bugs.