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Modifications

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Revision as of 15:46, 13 August 2011 by Annevk (talk | contribs) (missed some arguments)
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Pro
  • It's conceptually the easiest thing to understand. The following *always* hold:
    • For calling code: When any DOM operation I make completes, all observers will have run.
    • For notified code: If I'm being called, the operation which caused this is below me on the stack.
  • It's conceptually close to fully synchronous. For simple uses (specifically, setting aside the case of making DOM operations within a mutation callback), it has the advantages of Option 1, without its disadvantages. Because of this, it's similar to the behavior of current Mutation Events.
  • Semantics are consistent: delivery happens right before the outermost DOM operation returns.
  • Easier transition from mutation events to the new API.
  • Not bound to tasks. Side effects, like problems related to spinning event loop are per mutation callback, not per whole task.
  • No code is at risk for having its assumptions invalidated while it is trying to do work. All participants (main application script, libraries which are implemented using DOM mutation observation) are allowed to complete whatever work (DOM operations) they wish before another participant starts doing work.
  • Can batch more, since the callbacks are called later than in option 2.
  • Creates (and requires use of -- creates a "pit of success") a time to run which is ideal in two ways:
    • Performance: The main script is finished doing its work. The observer can minimize work by reacting to only the net-effect of what happened. I.e. not do work in intermediate states which ultimately become irrelevant. E.g. a widget library which needs to "destruct" widgets which are removed from the document. If a widget is removed but later added elsewhere in the same script event, the library would prefer to avoid destructing the widget and just allow it to be moved.
    • Correctness: The observer isn't at risk for attempting to act when the main script has put the DOM (temporarily) in an inconsistent state. E.g. a templating library which depends upon the value of two attributes of a single element. If script wishes to change both values but cannot do so without creating a temporarily nonsensical state, the library would prefer not to have to react to the nonsensical state and simply wait for the consistent (final) state.
  • Conceptually easy to understand
  • Easy to implement.
Con Because mutations must be delivered for some DOM operations before the operation is complete, UAs must tolerate all ways in which script may invalidate their assumptions before they do further work.
  • The timing delays delivery just long enough to guarantee that DOM operations don't have to worry about having their work interfered with, but encourages application script to leave itself exposed to exactly the same risk.
  • The semantics of delivery are inconsistent. Delivery of mutations is synchronous if calling operation is performed outside of a mutation callback and async if performed inside a mutation callback.
  • Behaves quite differently from the current mutation events.
  • Since the approach is bound to tasks, it is not clear what should happen if event loop spins while handling the task. What if some other task modifies the DOM, when should the mutation callbacks fire? Because of this issue, tasks, which may spin event loop, should not also modify DOM since that may cause some unexpected result.
  • Callback handling is moved far away from the actual mutation.
It's too late. Most use cases for mutation observation require that observers run before a paint occurs. E.g. a widget library which watches for special attributes. Script may create a
and an observer will react to this by decorating the div as a FooButton. It is unacceptable (creates visual artifacts/flickering) to have the div be painted before the widget library has decorated it as a FooButton.

Both of these options appear to be non-starters. Option 1 has been shown by experience to be an unreasonable implementation burden for UAs. Option 4 clearly doesn't handle properly important use cases.