5

I saw it used on all Density methods, and it got me curious.

The annotation docs state that When applied to a function or a property, the Stable annotation indicates that the function will return the same result if the same parameters are passed in., but does this actually affect performance?

I tried testing it (thinking it will skip/cache the result of a function, like if it was called inside remember) with the below snippet

class MainActivity : ComponentActivity() {
    override fun onCreate(savedInstanceState: Bundle?) {
        super.onCreate(savedInstanceState)
        setContent {
            var counter by remember {
                mutableStateOf(0)
            }
            val key = foo(counter > 0)
            LaunchedEffect(key){
                while (isActive){
                    delay(1000)
                    counter++
                }
            }
        }
    }
}

@Stable
fun foo(toReturn: Boolean): Boolean{
    Log.d("TEST", toReturn.toString())
    return toReturn
}

But it's logging every second, so this annotation didn't affect anything?

1 Answer 1

7

The @Stable annotation on a function implies that it is a pure function and the compiler plugin make assumptions about the result of the function from its parameters.

This is primarily used in the compiler for inferring if a value is static or equal. For example, the Double.dp extension function is marked as @Stable. This means that the compiler can infer that, since 42 is a literal, its value will never change. Therefore, since .dp is stable, it can infer that the expression 42.dp will also never change.

The compiler will give up on most operator expression as this is only trivially safe for simple expressions.

@Stable never implies skipping or memoizing the result of a function as it doesn't modify what the function does, rather, it is a declaration of what the compiler can assume the function already does (an also a promise by the author of the function that it will always be stable). Only @Composable implies rewriting the function to introduce skipping.

If you want to avoid calling foo (assuming that foo is expensive) you should use remember as in val key = remember(counter > 0) { foo(counter > 0) } which will use positional memoization to only call foo when the value of the expression counter > 0 changes.

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