I’ve been working with Kotlin for a little over a year. From writing tutorials about Kotlin to giving talks at local meet-ups and conferences, it’s safe to say I at least feel comfortable with the language. One thing I never fully grasped with Kotlin were higher order functions. It’s not that I didn’t understand how to use them, however I didn’t understand why I’d inject functionality into another function, it just seemed strange.
I recently transitioned away from Android at work and started working in Ruby. I think Kotlin gave me a solid foundation for understanding some of the concepts behind Ruby. One of those concepts I learned about are called blocks which essentially work like higher order functions, Ruby Koans gives it the friendly name of sandwich code. That’s when I finally connected the dots and understood the pratical usage of higher order functions. Aside from doubling numbers (ask Nick Cruz about that), you can also wrap a function around boring code such as database transactions, or ensuring when you open a file you also close it.
You had me at practical use…
I’m currently working on benchmarking programming languages to determine which one would perform the best for API related activities (interacting with a database, marshaling objects, handling network requests, etc), part of that means I have to record how long a given function runs. Kotlin makes that code incredibly efficient through higher order functions. Let’s say I want to determine how long it takes to create and print 100,000 Person instances. I could simply write code that looks like this:
val startTime = System.currentTimeMillis()
for (i in 0..100000) {
println("Person: ${Person()}")
}
val endTime = System.currentTimeMillis()
println("Executed in ${endTime - startTime}ms")
That works great except the code that deals with the calculating runtime has to be copied and pasted everytime I want to benchmark something else. However since we can pass blocks of code into functions with Kotlin we can simply create a Benchmark class that will handle the beginning and end, all you have to do is supply what goes in the middle.
class Benchmark {
fun benchmark(block: () -> Unit): Long {
val startTime = System.currentTimeMillis()
block.invoke()
return System.currentTimeMillis() - startTime
}
}
The foreign things about the above code is mostly with how we pass in the function and then invoke the function. Whenever you want to take a function as an argument you will give it the type of () -> Unit which says that this function doesn’t take any parameters and returns the type of Unit (the default return type in Kotlin). Certainly you could change the type but for this article let’s keep it simple.
So how do you invoke the function? In this case I’ve assigned it to a variable named block as it’s representing a block of code. So you’ll notice that I then call block.invoke() which is the way you tell Kotlin to run the function.
Then the code we want to benchmark can be updated to look like this:
val runtime = benchmark.benchmark {
for (i in 0..100000) {
println("Person: ${Person()}")
}
}
println("Executed in ${runtime}ms")
This of course isn’t the DRYest code, we could also include the println as part of our benchmark function, however I feel like this example should get main point across. When you find yourself copying code to encapsulate other code (acting like the bread of a sandwich) it might be a good idea to move that code into it’s own class that just takes a function.
This isn’t the only use for higher order functions, and if you have other examples I’d be happy to read about them in the responses. However in my case this is something that helped me understand why I would want to use a higher order function.