Hi all, lazy vars are not threadsafe in Swift 2. I saw code that uses lazy initialization in an unsafe way that introduces race conditions so often that I would be rich by now if get a penny each time. Many people use patterns like { if(_var == nil) { _var = [self _calculateVar]; } return _var; } or they just dispatch_once, but forget that they are in an instance method, and that it will all break if there is ever more than one instance of that class.
I propose to make lazy vars atomic. Optionally, the old lazy var behavior could be renamed to something like lazy_nonatomic. I want to list some pros and cons for making lazy vars threadsafe: Pros: - This proposal will not change the behavior of programs which are free from data races. I could argue that the change is therefore backwards-compatible. - I would say that programs which require lazy vars to be nonatomic in order to function correctly, are really bad style; threadsafe lazy vars behave much more deterministic. Many programs which use lazy vars incorrectly could suddenly become safe if this proposal is implemented. - The overhead would be minimal. For example, suppose we have a lazy var of type `NSImage`. We could represent that variable as a simple pointer which is initialized to NULL. The access could look something like this (this is just an example, there may be even more efficient solutions): { // we need to make sure that reads on _var are not cached: memory_read_barrier(&_var); // ^^and I'm not 100% sure that we really need that memory barrier. // (at least it's not needed for static vars, as proven by the implementation of dispatch_once()) if(_var == nil) { @synchronized(&_var) { // ^^we synchronize on &_var, and not on _var // this is semantically invalid in objc, but the objc-runtime supports it. // The point I want to make is that we don't need extra storage for the // synchronization, in many cases. if(_var != nil) { return _var; } ... some code that initializes _var } //@synchronized() already employs memory barriers, so no additional barriers are needed //maybe we should use a non-recursive lock though.. } return _var; } - Currently, if you need threadsafety, you cannot use lazy. You can of course wrap a lock around a nonatomic lazy var, but that would be much more inefficient than a native implementation. - I guess, no one will really complain if lazy var's are suddenly threadsafe. I also cannot see how it would break any code (except for contrived examples.) - In some cases, the nonatomic behavior can be used as an optimization, if it is semantically equivalent. For example, a lazy var that lives in automatic storage (i.e. not an ivar or static var, but just a local var) and that is *not* captured in a closure expression can be safely initialized in a non-threadsafe way, because the variable can not be accessed from more than one thread concurrently anyways. Cons: - This would be the first concurrency primitive built into the language (at least as far as I know) - It may suggest to users of the language that other primitives (like var's) would be threadsafe too, which is obviously not the case. - There is at least *some* runtime overhead involved. It's not zero-cost. On the other hand, lazy initialization should only be used when the cost of initialization is much higher than the cost of creating and maintaining a thunk. And in that case, I think the performance characteristics are pretty well. - It may be out of scope for Swift 3 :-( Proposed solution: public lazy var foo: Type = fn() is semantically equivalent to private var _lazy_storage_foo: Type? private var _lazy_lock_foo: Lock public var foo: Type { get { var result: Type? _lazy_lock_foo.withLock { if(_lazy_storage_foo == nil) { _lazy_storage_foo = fn() } } return _lazy_storage_foo! } } except that the builtin solution is much more efficient, and that the two private extra vars are not exposed when you use the lazy keyword. All in all, I think that threadsafe lazy vars would be a nice feature for the language. I welcome feedback and am interested in a discussion. Regards, Michael _______________________________________________ swift-evolution mailing list swift-evolution@swift.org https://lists.swift.org/mailman/listinfo/swift-evolution