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I am a beginner in Java 8.

Non-interference is important to have consistent Java stream behaviour. Imagine we are process a large stream of data and during the process the source is changed. The result will be unpredictable. This is irrespective of the processing mode of the stream parallel or sequential.

The source can be modified till the statement terminal operation is invoked. Beyond that the source should not be modified till the stream execution completes. So handling the concurrent modification in stream source is critical to have a consistent stream performance.

The above quotations are taken from here.

Can someone do some simple example that would shed lights on why mutating the stream source would give such big problems?

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Well the oracle example is self-explanatory here. First one is this:

List<String> l = new ArrayList<>(Arrays.asList("one", "two"));
 Stream<String> sl = l.stream();
 l.add("three");
 String s = l.collect(Collectors.joining(" "));

If you change l by adding one more elements to it before you call the terminal operation (Collectors.joining) you are fine; but notice that the Stream consists of three elements, not two; at the time you created the Stream via l.stream().

On the other hand doing this:

  List<String> list = new ArrayList<>();
  list.add("test");
  list.forEach(x -> list.add(x));

will throw a ConcurrentModificationException since you can't change the source.

And now suppose you have an underlying source that can handle concurrent adds:

ConcurrentHashMap<String, Integer> cMap = new ConcurrentHashMap<>();
cMap.put("one", 1);
cMap.forEach((key, value) -> cMap.put(key + key, value + value));
System.out.println(cMap);

What should the output be here? When I run this it is:

 {oneoneoneoneoneoneoneone=8, one=1, oneone=2, oneoneoneone=4}

Changing the key to zx (cMap.put("zx", 1)), the result is now:

{zxzx=2, zx=1}

The result is not consistent.

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    I just thought about the ambiguity of list.forEach(x -> list.add(x));, if it didn’t throw a ConcurrentModificationException, but it’s a great idea to demonstrate it by comparing with a ConcurrentHashMap – Holger Jun 1 '17 at 12:05
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    In the absence of updates made by other threads, CHM forEach will not notice new state when the capacity has been increased. You may try ConcurrentHashMap<Integer, Integer> cMap = new ConcurrentHashMap<>(1000, 1f); cMap.put(1, 1); cMap.forEach((key, value) -> cMap.put(key + 1, 0)); and play with the initial capacity. You’ll see that the iteration stops when the capacity is increased (it’s rounded up to the next power of two). – Holger Jun 1 '17 at 12:30
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    If you want more than 65535 iterations, you have to adapt the key to the effect of CHM’s spread function, e.g. ConcurrentHashMap<Integer, Integer> cMap = new ConcurrentHashMap<>(200_000_000, 1f); cMap.put(1, 1); cMap.forEach((key, value) -> cMap.put(++value^(value>>>16), value)); runs for minutes now on my machine, already consuming several GB, don’t know whether or when it will bail out… – Holger Jun 1 '17 at 12:56
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    @Didier L: the specification says that this is equivalent to the loop for ((Map.Entry<K, V> entry : map.entrySet()) action.accept(entry.getKey(), entry.getValue());, which implies that the behavior should as weakly consistent as the entryset iterator. – Holger Jun 1 '17 at 14:21
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    @Eugene: well, you could also have interference between functions, but that’s discussed in the Stream API by discouraging “stateful behavioral parameters” and “side-effects in behavioral parameters” in general. – Holger Jun 1 '17 at 14:58

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