3.3 KiB
Specter is useful for navigating through nested data structures, and then returning (selecting) or transforming what it finds. Specter can also work its magic recursively. Many of Specter's most important and powerful use cases in your codebase will require you to use Specter's recursive features. However, just as recursion can be difficult to grok at first, using Specter recursively can be challenging. This guide is designed to help you feel at home using Specter recursively.
Table of Contents
A Review of Recursion
Before we review how recursion works with Specter, it might be worth a brief refresher on recursion more broadly. If you're familiar with this material, feel free to skip this section. But a brief review will allow us to separate reviewing the concept of recursion from learning how to combine that concept with Specter's functionality.
Most simple functions do not call themselves. For example:
(defn square [x] (* x x))
Instead of calling square, itself, square calls another function, * or multiply. This, of course, serves the purpose of squaring the input. You don't always need recursion.
But sometimes you need a function to call itself - to recur. To take another example from mathematics, you need recursion to implement factorials. Factorials are equal to the product of every positive number equal to or less than the number. For example, the factorial of 5 ("5!") is 5 * 4 * 3 * 2 * 1 = 120.
Here is a simple implementation of factorials in Clojure:
=> (defn factorial [x]
(if (< x 2)
1
(* x (factorial (dec x)))))
#'playground.specter/factorial
=> (factorial 5)
120
Here, the function definition calls itself with the symbol factorial. You still supply input - the value x - but producing the function's return value requires calling the function itself.
We can see that there are up to three elements to basic recursion:
- a name or symbol for the recursion point or function (defn function-name)
- optional input arguments
- the body of the recursion - what you do recursively - and, at some point, calling the function by its name
Using Specter Recursively
The main way that Specter enables recursion is through the parameterized macro, recursive-path. recursive-path takes the following form:
(recursive-path params self-sym path)
You can see that there are three arguments, which match onto our list above. (They are, however, in a different order.) The self-sym is the name; the params are the optional input arguments; and the path is the body of the recursion. This path can be recursive, referencing itself by the self-sym.
(NOTE: QUESTION: Is there a reason why the self-sym is the second argument?)
Rather than providing a recursive function, recursive-path provides a recursive path that can be composed with other navigators. Accordingly, it is often useful - but not necessary - to define a recursive-path using def, so that it can be called in multiple places, not just the place where you initially need it.