10

I am learning Kotlin coroutines. I've read that runBlocking is the way to bridge synchronous and asynchronous code. But what is the performance gain if the runBlocking stops the UI thread? For example, I need to query a database in Android:

    val result: Int
    get() = runBlocking { queryDatabase().await() }

private fun queryDatabase(): Deferred<Int> {
    return async {
        var cursor: Cursor? = null
        var queryResult: Int = 0
        val sqlQuery = "SELECT COUNT(ID) FROM TABLE..."
        try {
            cursor = getHelper().readableDatabase.query(sqlQuery)
            cursor?.moveToFirst()
            queryResult = cursor?.getInt(0) ?: 0
        } catch (e: Exception) {
            Log.e(TAG, e.localizedMessage)
        } finally {
            cursor?.close()
        }
        return@async queryResult
    }
}

Querying the database would stop the main thread, so it seems that it would take the same amount of time as synchronous code? Please correct me if I am missing something.

9

Actually you use runBlocking to call suspending functions in "blocking" code that otherwise wouldn't be callable there or in other words: you use it to call suspend functions outside of the coroutine context (in your example the block passed to async is the suspend function). Also (more obvious, as the name itself implies already), the call then is a blocking call. So in your example it is executed as if there wasn't something like async in place. It waits (blocks interruptibly) until everything within the runBlocking-block is finished.

For example assume a function in your library as follows:

suspend fun demo() : Any = TODO()

This method would not be callable from, e.g. main. For such a case you use runBlocking then, e.g.:

fun main(args: Array<String>) {
  // demo() // this alone wouldn't compile... Error:() Kotlin: Suspend function 'demo' should be called only from a coroutine or another suspend function
  // whereas the following works as intended:
  runBlocking {
    demo()
  } // it also waits until demo()-call is finished which wouldn't happen if you use launch
}

Regarding performance gain: actually your application may rather be more responsive instead of being more performant (sometimes also more performant, e.g. if you have multiple parallel actions instead of several sequential ones). In your example however you already block when you assign the variable, so I would say that your app doesn't get more responsive yet. You may rather want to call your query asynchronously and then update the UI as soon as the response is available. So you basically just omit runBlocking and rather use something like launch. You may also be interested in Guide to UI programming with coroutines.

  • could you please explain what does "call suspend functions outside of the coroutine context." mean? you mean that suspend is outside the runBlocking context? I agree, but the runBlocking would return only after the suspend function returns, so there is no speed gain in my optionion. The only difference is that the query is executed on a different thread – Angelina Sep 14 '18 at 12:02
  • added a sample what I mean... if it's not clear, just ask – Roland Sep 14 '18 at 12:06
  • note also that for cases where you actually want to run asynchronously you don't use runBlocking... – Roland Sep 14 '18 at 12:07
  • updated my answer a bit... also regarding the performance gain... note that your current code is actually nearly the same as a synchronous variant without coroutines... just try to omit runBlocking and use launch and you basically experience the asynchronous call ;-) – Roland Sep 14 '18 at 12:36
25

runBlocking is the way to bridge synchronous and asynchronous code

I keep bumping into this phrase and it's very misleading.

runBlocking is almost never a tool you use in production. It undoes the asynchronous, non-blocking nature of coroutines. You can use it if you happen to already have some coroutine-based code that you want to use in a context where coroutines provide no value: in blocking calls. One typical use is JUnit testing, where the test method must just sit and wait for the coroutine to complete.

You can also use it while playing around with coroutines, inside your main method.

The misuse of runBlocking has become so widespread that the Kotlin team actually tried to add a fail-fast check which would immediately crash your code if you call it on the UI thread. By the time they did this, it was already breaking so much code that they had to remove it.

  • 3
    The misuse of runBlocking has become so widespread that the Kotlin team have actually had to revert change with fail-fast :) – qwwdfsad Sep 14 '18 at 15:35
  • It was too late :) – Marko Topolnik Sep 14 '18 at 15:56
  • This explanation of revert fail-fast is actually misleading, it's not only problem of a misuasage (which defenetely exist), problem was that there are valid use cases, such as application start, resources cleanup etc, you can see discussion of it on coroutines issue tracker, solution with additional param "yes, block, I know what I'm doing, please do not crash" wouldn't be better imo. One more problem was that it failed on release code, but not on debug, which is wrong strategy which cause bugs, not prevent them – gildor May 10 at 15:42
  • What should be used instead of runBlocking to call coroutines without blocking? – Trevor Nov 14 at 21:56
  • @Trevor You should launch a coroutine. – Marko Topolnik Nov 15 at 7:15

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.