I feel like there might be a bug somewhere in the Android GC, JavaScriptCore, or maybe Genymotion. I'm testing a React Native app on Android, so all of my code is written in JavaScript (not Java). I am trying to figure out a crash that I have reproduced on the following Android Emulators:

  • Samsung Galaxy S6 - 6.0.0 - API 23
  • Google Nexus 5X - 7.1.0 - API 25

I noticed that my app was always crashing after I used it for around 5 minutes. After looking at the logs with adb logcat, I noticed that it was always crashing immediately after a GC run. It was only crashing on Android, and the crash has never happened on iOS. It was also only happening when "Debug JS Remotely" was turned off, and I just realized why. It's because when "Debug JS Remotely" is enabled, all the JS is being run inside Chrome on my laptop, in the V8 engine. (Which made this quite hard to debug!)

I am using the reselect library, but I'm using a branch with a configurable "cacheSize" to store multiple results, instead of just caching a single result. You can see my new defaultMemoize function here. My first thought is that I've done something wrong in here, but I'm not using a WeakMap or something like that. I'm just storing the cached results in a normal array, and I'm always holding a reference to the selector, so I don't think the GC should be clearing the memory.

I'll describe some more details about my app. I have a LookupTable class, which references a Matrix class. The lookup table pre-calculates some things for faster lookups.

My lookup table code looks something like this:

// @flow
import autobind from 'autobind-decorator'

export default class LookupTable {
  matrix: Matrix

  constructor(state) {
    this.generateLookupTable(state)
  }

  @autobind
  valueAt(x: number, y: number) {
    this.matrix.get(x, y)
  }

  @autobind
  generateLookupTable() {
    // generates the Matrix at this.matrix
  }
}

My original selector code looked like this:

import Immutable from 'immutable'
import { createSelectorCreator, defaultMemoize } from 'reselect'

const createImmutableSelector = (cacheSize = 1, ...args) =>
  createSelectorCreator(defaultMemoize, Immutable.is, cacheSize)(...args)

export const lookupTableSelector = createImmutableSelector(3,
  firstSelector,
  secondSelector,
  thirdSelector,
  fourthSelector,
  (one, two, three, four) =>
    new LookupTable(one, two, three, four))

If you're not familiar with reselect or immutable-js, I'm just memoizing some calculations (similar to lodash's memoize), and I'm using Immutable.is to check argument equality.

Finally, I would call the selector like this:

const lookupTable = lookupTableSelector(state)
const value = lookupTable.valueAt(x, y)

After the Android GC runs, valueAt was causing a crash, because this.matrix was undefined. Interestingly, the lookupTable.generateLookupTable function was also undefined. In fact, everything in the instance was undefined. It's like the selector was just returning a shell of a LookupTable instance, where all of the data and methods were gone.

So here is my attempt at a workaround:

export const lookupTableSelectorWithoutGCFix = createImmutableSelector(3,
  firstSelector,
  secondSelector,
  thirdSelector,
  fourthSelector,
  (one, two, three, four) =>
    new LookupTable(one, two, three, four))


export const lookupTableSelector = (gameState: Map) => {
  const lookupTable = lookupTableSelectorWithoutGCFix(gameState)

  if (lookupTable.matrix == null) {
    console.warn('LookupTable selector returned an instance with an undefined matrix.' +
      'This might be a GC bug on Android. Will clear the cache and generate a new instance.')
    lookupTableSelectorWithoutGCFix.clearCache()
    return lookupTableSelectorWithoutGCFix(gameState)
  }

  return lookupTable
}

Now the weird thing is that this code is never actually called. I never see the console warning in adb logcat, and it never shows up as a yellow box in the emulator. Before this, the crash was happening after every GC run. But after this change, I tested the app through 5 GC runs, and everything just worked perfectly. So whatever I did here, I guess it changed the behavior of the Android GC, and it's no longer wiping out the memory for my LookupTable instances.

Can you see a reason why this would be happening? Or is this probably a reference counting bug in the Android GC?

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