[swift-evolution] [Proposal] Uniform Initialization Syntax

Gor Gyolchanyan gor at gyolchanyan.com
Sun Jun 11 10:34:34 CDT 2017


I just didn't want to use the commonly proposed `factory` word, because it implies a specific semantic tied to the factory method pattern.
I gave it another thought and I'm thinking maybe we can forego the annotation and have the compiler deduce it automatically.
There are only two places where an indirect initializer can exist:
* Protocol extensions, returning a conforming type.
* Classes, returning an instance.
It doesn't make sense to have this on value types, since they do not have subtypes of any kind.
Indirect initializers are very unambiguous in protocol extensions, because the only other way of implementing an initializer in a protocol extension is via delegating initialization, so the indirect-ness of the initializer can be statically determined by whether or not there is a delegating initializer involved.
If the initializer in a protocol extension has a delegating initialization on any execution path, then returning an instance is disallowed and vice versa. This will ensure strict separation of initializer types for the compiler to generate code for.
If a failable initializer in a protocol extension unconditionally returns `nil`, then no initialization takes place anyway, so it doesn't matter, which one the compiler chooses.
In classes this is a bit difficult, because besides delegating initializers, they also can initialize the members directly.
So, in addition to the distinguishing rule for the protocol extensions, classes will also check whether any member is assigned to on any execution path.

What do you think?

> On Jun 11, 2017, at 5:53 PM, Xiaodi Wu <xiaodi.wu at gmail.com> wrote:
> 
> On Sun, Jun 11, 2017 at 8:49 AM, Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
> Can you recall the reasons why the removal of access modifiers on extensions was rejected?
> 
> It was an unassailable reason, really: people found this shorthand useful and wanted to continue to use it--it is the only way to specify that multiple members are public without explicitly labeling each one. The core team agreed it was useful.
> 
> My takeaway from the whole episode (I was greatly in favor of removing this shorthand, as it's highly inconsistent with all other access modifier rules) is that in general, since the bar for new syntax is so high, if a shorthand made it into the language (and especially if it's kind of an inconsistent shorthand) the general presumption must be that it is highly desired.
> 
> Also, do you think `indirect init` is confusing inside an `indirect enum`?
> 
> I do. These are unrelated definitions of "indirect," and I'm puzzled why you'd actively choose to run into issues with the same word meaning two things when you could choose another word.
> 
>> On Jun 11, 2017, at 4:40 PM, Xiaodi Wu <xiaodi.wu at gmail.com <mailto:xiaodi.wu at gmail.com>> wrote:
>> 
>> Removal of access modifiers on extensions has been proposed, reviewed, and rejected, so that’s that.
>> 
>> In general, Swift uses distinct keywords for distinct concepts, unlike Rust which likes to reuse keywords in clever ways; if you’re finding that things are getting confusing with one word meaning two things, that shouldn’t be an invitation to rip out existing syntax but is probably a good sign you shouldn’t be repurposing that keyword.
>> 
>> 
>> On Sun, Jun 11, 2017 at 03:28 Adrian Zubarev via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>> Yeah, well I messed up my proposal from last year about removing the access modifier on extensions and wish now I wasn’t that confused back than and made it right.
>> 
>> The indirect keyword is literally the same story. The docs only says that this is only a shortcut.
>> 
>> „To enable indirection for all the cases of an enumeration, mark the entire enumeration with the indirect modifier—this is convenient when the enumeration contains many cases that would each need to be marked with the indirect modifier.“
>> 
>> If you really wish to reuse that keyword here we might need to remove such shortcuts from the language (indirect enum, access modifier on extensions, anything else?).
>> 
>> 
>> 
>> 
>> -- 
>> Adrian Zubarev
>> Sent with Airmail
>> 
>> Am 11. Juni 2017 um 10:12:38, Gor Gyolchanyan (gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>) schrieb:
>> 
>>> I always wondered, why is `indirect` allowed on the `enum` itself? Wouldn't it make more sense to apply it to individual cases that recursively refer to the `enum`?
>>> This question also applies to access modifiers on extensions. So, what is it supposed to do? Change the default access modifier from `internal` to whatever I specify? That's just confusing, reduces readability and the syntactic gain is marginal at best.
>>> If the `indirect` confusion becomes real, I'd suggest getting rid of `indirect enum` and using `indirect case` instead.
>>> 
>>>> On Jun 11, 2017, at 11:05 AM, Adrian Zubarev via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>> 
>>>> The proposal is looking good to me. :) It will also enable easy support for custom views using XIBs in iOS development without unnecessary view nesting.
>>>> 
>>>> For instance the function from this example https://stackoverflow.com/a/43123783/4572536 <https://stackoverflow.com/a/43123783/4572536> could be used directly inside an init:
>>>> 
>>>> class MyView : UIView {
>>>>       
>>>>       indirect init() {
>>>>             return MyView.instantiateFromXib()
>>>>             // Or after SR-0068
>>>>             return Self.instantiateFromXib()
>>>>       }
>>>> }
>>>> There is still one little thing that bothers me, it might be a little bit confusing to have two different meanings of indirect on enums.
>>>> 
>>>> indirect enum ArithmeticExpression {
>>>>     case number(Int)
>>>>     case addition(ArithmeticExpression, ArithmeticExpression)
>>>>     case multiplication(ArithmeticExpression, ArithmeticExpression)
>>>>       
>>>>     // This might makes no sense, but it would still be possible after   
>>>>     // this proposal.
>>>>     indirect init(other: ArithmeticExpression) {
>>>>        return other
>>>>     }
>>>>       
>>>>     // Furthermore if the keyboard is applied to the enum
>>>>     // directly all other `indirect` uses are inferred.   
>>>>     // Will this be implicitly `indirect` because of the previous fact?   
>>>>     init() { … }
>>>> }
>>>> 
>>>> 
>>>> 
>>>> -- 
>>>> Adrian Zubarev
>>>> Sent with Airmail
>>>> 
>>>> Am 11. Juni 2017 um 00:38:56, Riley Testut via swift-evolution (swift-evolution at swift.org <mailto:swift-evolution at swift.org>) schrieb:
>>>> 
>>>>> Awesome! Updated my proposal to include what I believed to be the relevant portions of your indirect initializer idea. Let me know if there’s anything I missed or should change :-)
>>>>> 
>>>>> https://github.com/rileytestut/swift-evolution/blob/master/proposals/NNNN-factory-initializers.md <https://github.com/rileytestut/swift-evolution/blob/master/proposals/NNNN-factory-initializers.md>
>>>>>> On Jun 10, 2017, at 12:43 PM, Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
>>>>>> 
>>>>>> Hi, Riley!
>>>>>> 
>>>>>> I think that's a great idea! We can merge the second part of my proposal (the `indirect init`) into your one and refine and consolidate the prerequisite proposal (about returning from `init` and possibly in-place member initializers) and bunch them up into a proposal cluster (the way swift coders did).
>>>>>> Feel free to tear out any chunks from my proposal, while I think about a more in-depth rationale about revamping initialization syntax. 🙂
>>>>>> 
>>>>>>> On Jun 10, 2017, at 8:36 PM, Riley Testut <rileytestut at gmail.com <mailto:rileytestut at gmail.com>> wrote:
>>>>>>> 
>>>>>>> Hi Gor 👋
>>>>>>> 
>>>>>>> I’m very much in fan of a unified initialization syntax. I submitted my own proposal for factory initializers a while back, but since it wasn’t a focus of Swift 3 or 4 I haven’t followed up on it recently. In the time since last working on it, I came to my own conclusion that rather than focusing on factory initialization, the overall initialization process should be simplified, which I’m glad to see someone else has realized as well :-)
>>>>>>> 
>>>>>>> Here’s my proposal for reference: https://github.com/apple/swift-evolution/pull/247/commits/58b5a93b322aae998eb40574dee15fe54323de2e <https://github.com/apple/swift-evolution/pull/247/commits/58b5a93b322aae998eb40574dee15fe54323de2e> Originally I used the “factory” keyword, but I think your “indirect” keyword may be a better fit (since it has precedent in the language and is not limited to “just” being about factory initialization). To divide your proposal up into smaller pieces for review, maybe we could update my proposal to use your indirect keyword, and then start a separate topic/proposal for the remaining aspects of your proposal? I agree that splitting it into smaller chunks may be better for the process.
>>>>>>> 
>>>>>>> Let me know what you think!
>>>>>>> 
>>>>>>> Riley
>>>>>>> 
>>>>>>> 
>>>>>>>> On Jun 10, 2017, at 3:33 AM, Gor Gyolchanyan via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>>>>>> 
>>>>>>>>> 
>>>>>>>>> This is a very interesting read.
>>>>>>>>> 
>>>>>>>> 
>>>>>>>> Thanks you! I tried to make it as clear and detailed as possible. 🙂 
>>>>>>>> 
>>>>>>>>> 
>>>>>>>>> We did not discuss the 'indirect' idea at all on this list. Did you come up with it just now? In any case, my suggestion as to moving forward would be this:
>>>>>>>>> 
>>>>>>>> I was writing the proposal and was just about to write `factory init`, when it occurred to me: enums already have a keyword that does something very similar. It seemed to me that an initializer that doesn't initialize the instance in-place, but returns a completely separate instance from somewhere else, is kinda "indirectly" initializing the instance. Plus, the already established keyword and its semantic would reduce the learning curve for this new feature and separate it from a single specific use case (the "factory method" pattern).
>>>>>>>> 
>>>>>>>>> 
>>>>>>>>> - Do you feel that both halves of your draft (expanding `return` in initializers, and `indirect` initializers) should absolutely be one proposal, or can they be separated?
>>>>>>>>> 
>>>>>>>> I think the `return` can be easily implemented first, while opening up an opportunity to later implement `indirect init`. The reason why I unified them was that the `return` idea on its own has very limited merit and could the thought of as a low-priority cosmetic enhancement. I wouldn't want it to be viewed that way because the primary purpose of that idea is to enable `indirect init` (which Cocoa and Cocoa Touch developers would be very happy about). 
>>>>>>>> 
>>>>>>>>> 
>>>>>>>>> a) If they can be separated because each half has individual merit, then these ideas may be more likely to succeed as separate proposals, as each can be critiqued fully and judged independently as digestible units.
>>>>>>>>> 
>>>>>>>> 
>>>>>>>> Very good point. The challenge is to correctly separate them, without losing context in their respective proposals and without bleeding the proposals into each other.
>>>>>>>> 
>>>>>>>> 
>>>>>>>>> 
>>>>>>>> 
>>>>>>>>> b) If you intend to tackle all your ideas all at once, that's going to be a much bigger change--in terms of review effort, likely bikeshedding, and implementation effort. It'll probably be best to solicit initial feedback on this list first about `indirect` initializers, even if just to familiarize the community with the idea, before launching into a pitch of the whole proposal.
>>>>>>>>> 
>>>>>>>> 
>>>>>>>> I'd never send a pull request to swift-evolution without thoroughly discussing it here. I just though, if I'm going to write a whole proposal with examples and motivation, it would be easier to demonstrate it and discuss in with the community If I just went ahead and wrote the whole thing and sent the link. This way it would be clearer to the reader and the discussed changes would be accurately reflected by the commits I'd make to my proposal.
>>>>>>>> 
>>>>>>>> Original Message
>>>>>>>> 
>>>>>>>>> On Jun 10, 2017, at 2:38 AM, Daryle Walker via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>>>>>>> 
>>>>>>>>> On Fri, Jun 9, 2017 at 5:32 PM, Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
>>>>>>>>> Forked swift-evolution, created a draft proposal:
>>>>>>>>> 
>>>>>>>>> https://github.com/technogen-gg/swift-evolution/blob/master/proposals/NNNN-uniform-initialization.md <https://github.com/technogen-gg/swift-evolution/blob/master/proposals/NNNN-uniform-initialization.md>
>>>>>>>>> 
>>>>>>>>> This is my first proposal, so I might have missed something or composed it wrong, so please feel free to comment, fork and send pull requests. 🙂
>>>>>>>>> 
>>>>>>>>> 
>>>>>>>>> This is a very interesting read. We did not discuss the 'indirect' idea at all on this list. Did you come up with it just now? In any case, my suggestion as to moving forward would be this:
>>>>>>>>> 
>>>>>>>>> - Do you feel that both halves of your draft (expanding `return` in initializers, and `indirect` initializers) should absolutely be one proposal, or can they be separated?
>>>>>>>>> 
>>>>>>>>> a) If they can be separated because each half has individual merit, then these ideas may be more likely to succeed as separate proposals, as each can be critiqued fully and judged independently as digestible units.
>>>>>>>>> 
>>>>>>>>> b) If you intend to tackle all your ideas all at once, that's going to be a much bigger change--in terms of review effort, likely bikeshedding, and implementation effort. It'll probably be best to solicit initial feedback on this list first about `indirect` initializers, even if just to familiarize the community with the idea, before launching into a pitch of the whole proposal.
>>>>>>>>> 
>>>>>>>>> 
>>>>>>>>>> On Jun 9, 2017, at 3:24 PM, Xiaodi Wu <xiaodi.wu at gmail.com <mailto:xiaodi.wu at gmail.com>> wrote:
>>>>>>>>>> 
>>>>>>>>>> Cool. I have reservations about idea #3, but we can tackle that another day. (Real life things beckon.) But suffice it to say that I now really, really like your idea #2.
>>>>>>>>>> On Fri, Jun 9, 2017 at 08:06 Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
>>>>>>>>>> You know, come to think of it, I totally agree, and here's why:
>>>>>>>>>> A normal initializer (if #2 is accepted) would *conceptually* have the signature:
>>>>>>>>>> 
>>>>>>>>>> mutating func `init`(...) -> Self
>>>>>>>>>> 
>>>>>>>>>> Which would mean that both `self` and the returned result are non-optional.
>>>>>>>>>> A failable initializer could then have the signature:
>>>>>>>>>> 
>>>>>>>>>> mutating func `init`() -> Self?
>>>>>>>>>> 
>>>>>>>>>> Which would make the returned result optional, but leave `self` non-optional.
>>>>>>>>>> This would make `return nil` less out-of-place, like you said, while still leaving `self` as a set-exactly-once `inout Self`.
>>>>>>>>>> A factory initializer would then have the signature:
>>>>>>>>>> 
>>>>>>>>>> static func `init`(...) -> Self
>>>>>>>>>> 
>>>>>>>>>> or in case of a failable factory initializer:
>>>>>>>>>> 
>>>>>>>>>> static func `init`(...) -> Self?
>>>>>>>>>> 
>>>>>>>>>> Which would still make sense with the now legal `return ...` syntax, while adding the restriction of not having any `self` at all.
>>>>>>>>>> So, annotating the initializer with the keyword `factory` would cause it to change the signature as well as remove any compiler assumptions about the dynamic type of the returned instance.
>>>>>>>>>> 
>>>>>>>>>> In addition, idea #3 would be available for more deterministic in-place initialization.
>>>>>>>>>> 
>>>>>>>>>>> On Jun 9, 2017, at 2:47 PM, Xiaodi Wu <xiaodi.wu at gmail.com <mailto:xiaodi.wu at gmail.com>> wrote:
>>>>>>>>>>> 
>>>>>>>>>>> On Fri, Jun 9, 2017 at 07:33 Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
>>>>>>>>>>> So far, we've discussed two ways of interpreting `self = nil`, both of which have a sensible solution, in my opinion:
>>>>>>>>>>> 
>>>>>>>>>>> 1. It's a special rule like you said, which can be seen as counter-intuitive, but recall that `return nil` is just as much of a special rule and is also largely counter-intuitive.
>>>>>>>>>>> 
>>>>>>>>>>> `return nil` is “special,” but it doesn’t conflict with any other syntax because the initializer notionally has no return value. Personally, I have always disliked `return nil` in failable initializers for that reason, but I couldn’t come up with a better alternative.
>>>>>>>>>>> 
>>>>>>>>>>> Your proposed idea to allow returning any value is interesting because, in the case of a failable initializer, `return nil` continues to have the same meaning if we consider the return value of the initializer to be of type `Self?`. For that reason, I think your idea #2 is quite clever, and it would go a long way in making `return nil` a lot less odd. It also increases the expressivity of initializers because it allows one to set the value of self and also return in one statement, clearly demonstrating the intention that no other code in the initializer should be run before returning.
>>>>>>>>>>> 
>>>>>>>>>>> For all of those reasons, I think idea #2 is a winning idea.
>>>>>>>>>>> 
>>>>>>>>>>> The benefit of `self = nil` is that it's much more in line with initialization semantics, it provides more uniform syntax and it's a bit less restrictive.
>>>>>>>>>>> 
>>>>>>>>>>> 2. It's an `inout Self!`, like Greg said, which can be seen as more cumbersome. Implicitly unwrapped optionals are a bit difficult, but this "variation" of it is much more restrictive then the normal ones, because unlike normal implicitly unwrapped optionals, this one cannot be accessed after being assigned nil (and it also cannot be indirectly assigned `nil`, because escaping `self` is not allowed before full initialization), so there is only one possible place it can be set to nil and that's directly in the initializer. This means that `self` can be safely treated as `inout Self` before being set to nil (and after being set to nil, it doesn't matter any more because you aren't allowed to access it, due to not being fully initialized).
>>>>>>>>>>> 
>>>>>>>>>>> I have to say, I don’t like either of these explanations at all. I think having a “special” IUO is a difficult sell; it is just conceptually too complicated, and I don’t agree that it gains you much.
>>>>>>>>>>> 
>>>>>>>>>>> By your own admission, `self = nil` is wonky, and making the language wonkier because it currently has a parallel wonky feature in `return nil` seems like the wrong way to go. In addition, there’s nothing gained here that cannot be done with a defer statement; of course, defer statements might not be very elegant, but it would certainly be less wonky than inventing a new variation on an IUO to allow assignment of nil to self... For those reasons, I conclude that I’m not excited about your idea #1.
>>>>>>>>>>> 
>>>>>>>>>>> Overall, I'd go with #2 because it involves much less confusing magic and the restrictions of `self as inout Self!` are imposed by already existing and well-understood initialization logic, so the provided guarantees don't really come at the cost of much clarity.
>>>>>>>>>>> 
>>>>>>>>>>>> On Jun 9, 2017, at 2:23 PM, Xiaodi Wu <xiaodi.wu at gmail.com <mailto:xiaodi.wu at gmail.com>> wrote:
>>>>>>>>>>>> 
>>>>>>>>>>>> 
>>>>>>>>>>>> On Fri, Jun 9, 2017 at 07:12 Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
>>>>>>>>>>>> I think a good approach would be to have `self = nil` only mean `the initializer is going to fail` because if your type is ExpressibleByNilLiteral, it means that the `nil` of your type already carries the same meaning as if your type was not ExpressibleByNilLiteral and was an optional instead, so having a failable initializer doesn't really make sense in that case (since you could've initialized `self` to its own `nil` in case of failure). Still, some valid use cases may exist, so the natural (and quite intuitive) way to circumvent this would be to call `self.init(nilLiteral: ())` directly.
>>>>>>>>>>>> 
>>>>>>>>>>>> So you would create a special rule that `self = nil` means a different thing in an initializer than it does in a function? Essentially, then, you’re creating your own variation on an implicitly unwrapped optional, where `self` is of type `inout Self?` for assignment in initializers only but not for any other purpose. Implicitly unwrapped optionals are hard to reason about, and having a variation on it would be even harder to understand. I don’t think this is a workable design.
>>>>>>>>>>>> 
>>>>>>>>>>>> It might be possible to have `self` be of type `inout Self?`; however, I do think Greg is right that it would create more boilerplate than the current situation.
>>>>>>>>>>>> 
>>>>>>>>>>>>> On Jun 9, 2017, at 2:07 PM, Xiaodi Wu <xiaodi.wu at gmail.com <mailto:xiaodi.wu at gmail.com>> wrote:
>>>>>>>>>>>>> 
>>>>>>>>>>>>> 
>>>>>>>>>>>>> On Fri, Jun 9, 2017 at 06:56 Gor Gyolchanyan <gor at gyolchanyan.com <mailto:gor at gyolchanyan.com>> wrote:
>>>>>>>>>>>>> The type of `self` could remain `inout Self` inside the failable initializer. The ability to assign nil would be a compiler magic (much like `return nil` is compiler magic) that is meant to introduce uniformity to the initialization logic.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> The idea is to define all different ways initialization can take place and expand them to be used uniformly on both `self` and all its members, as well as remove the ways that do not make sense for their purpose.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> Currently, there are 3 ways of initializing self as a whole:
>>>>>>>>>>>>> 1. delegating initializer
>>>>>>>>>>>>> 2. assigning to self
>>>>>>>>>>>>> 3. returning nil
>>>>>>>>>>>>> 
>>>>>>>>>>>>> #1: The delegating initializer is pretty much perfect at this point, in my opinion, so no changes there.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> #2: The only exception in assigning to self is the `nil` inside failable initializers.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> #3:  The only thing that can be returned from an initializer is `nil`, which is compiler magic, so we can thing of it as a misnomer (because we aren't really **returning** anything).
>>>>>>>>>>>>> 
>>>>>>>>>>>>> If, for a second, we forget about potential factory initializers, returning anything from an initializer doesn't make much sense, because an initializer is conceptually meant to bring an existing object in memory to a type-specific valid state. This semantic was very explicitly in Objective-C with `[[MyType alloc] init]`. Especially since even syntactically, the initializer does not specify any return type, the idea of returning from an initializer is counter-intuitive both syntactically and semantically.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> The actual *behavior* of `return nil` is very sensible, so the behavior, I imagine `self = nil`, would largely mean the same (except not needed to return immediately and allowing non-self-accessing code to be executed before return). Being able to assign `nil` to a non-optional (ExpressibleByNilLiteral doesn't count) may feel a bit wonky,
>>>>>>>>>>>>> 
>>>>>>>>>>>>> What happens when Self is ExpressibleByNilLiteral and you want to initialize self to nil? That is what `self = nil` means if `self` is of type `inout Self`. If `self` is of type `inout Self` and Self is not ExpressibleByNilLiteral, then it must be an error to assign nil to self. Anything else does not make sense, unless `self` is of type `inout Self?`.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> but not as wonky as returning nil from something that is meant to initialize an object in-place and doesn't look like it should return anything.
>>>>>>>>>>>>> 
>>>>>>>>>>>>> # Factory Initializers
>>>>>>>>>>>>> 
>>>>>>>>>>>>> In case of factory initializers, the much discussed `factory init` syntax could completely flip this logic, but making the initializer essentially a static function that returns an object. In this case the initializer could be made to specify the return type (that is the supertype of all possible factory-created objects) and assigning to self would be forbidden because there is not self yet:
>>>>>>>>>>>>> 
>>>>>>>>>>>>> extension MyProtocol {
>>>>>>>>>>>>> 
>>>>>>>>>>>>> public factory init(weCool: Bool) -> MyProtocol {
>>>>>>>>>>>>> self = MyImpl() // error: cannot assign to `self` in a factory initializer
>>>>>>>>>>>>> self.init(...) // error: cannot make a delegating initializer call in a factory initializer
>>>>>>>>>>>>> if weCool {
>>>>>>>>>>>>> return MyCoolImpl()
>>>>>>>>>>>>> } else {
>>>>>>>>>>>>> return MyUncoolImpl()
>>>>>>>>>>>>> }
>>>>>>>>>>>>> }
>>>>>>>>>>>>> 
>>>>>>>>>>>>> }
>>>>>>>>>>>>> 
>>>>>>>>>>>>> # In-place Member Initializers
>>>>>>>>>>>>> 
>>>>>>>>>>>>> In addition, member initialization currently is only possible with #2 (as in `self.member = value`), which could be extended in a non-factory initializer to be initializable in-place like this:
>>>>>>>>>>>>> 
>>>>>>>>>>>>> self.member.init(...)
>>>>>>>>>>>>> 
>>>>>>>>>>>>> This would compliment the delegating initialization syntax, while giving a more reliable performance guarantee that this member will not be copy-initialized.
>>>>>>>>>>>>> 
>>>>>>>>>>>>>> On Jun 9, 2017, at 1:32 PM, Xiaodi Wu <xiaodi.wu at gmail.com <mailto:xiaodi.wu at gmail.com>> wrote:
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> If `self` is not of type `inout Self?`, then what is the type of `self` such that you may assign it a value of `nil`?
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> It certainly cannot be of type `inout Self`, unless `Self` conforms to `ExpressibleByNilLiteral`, in which case you are able to assign `self = nil` an unlimited number of times–but that has a totally different meaning.
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> Could `self` be of type `inout Self!`? Now that implicitly unwrapped optionals are no longer their own type, I’m not sure that’s possible. But even if it were, that seems unintuitive and potentially error-prone.
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> So I think Greg is quite right that, to enable this feature, `self` would have to be of type `inout Self?`–which is intriguing but potentially more boilerplatey than the status quo.
>>>>>>>>>>>>>> On Fri, Jun 9, 2017 at 05:24 Gor Gyolchanyan via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>>>>>>>>>>>> Good point, but not necessarily.
>>>>>>>>>>>>>> Since you cannot access `self` before it being fully initialized and since `self` can only be initialized once, this would mean that after `self = nil`, you won't be allowed to access `self` in your initializer at all.You'll be able to do any potential, cleanup though.
>>>>>>>>>>>>>> Also, since there can be only one `self = nil`, there's no reason to treat `self` as `inout Self?`, because the only place it can be `nil` is the place it cannot be accessed any more.
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>> On Jun 9, 2017, at 7:45 AM, Greg Parker <gparker at apple.com <mailto:gparker at apple.com>> wrote:
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>>> On Jun 8, 2017, at 5:09 AM, Gor Gyolchanyan via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>>> 1. Arbitrary `self` Assignments In Intializers
>>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>>> The first ideas is to allow `self = nil` inside failable initializers (essentially making `self` look like `inout Self?` instead of `inout Self` with magical `return nil`), so that all initializers uniformly can be written in `self = ...` form for clarity and convenience purposes. This should, theoretically, be nothing but a `defer { return nil }` type of rewrite, so I don't see any major difficulties implementing this. This is especially useful for failable-initializing enums where the main switch simply assigns to self in all cases and the rest of the initializer does some post-processing.
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>> I don't see how to avoid source incompatibility and uglification of failable initializer implementations here. Allowing `self = nil` inside a failable initializer would require `self` to be an optional. That in turn would require every use of `self` in the initializer to be nil-checked or forced. I don't think that loss everywhere outweighs the gain of `self = nil` in some places.
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>> -- 
>>>>>>>>>>>>>>> Greg Parker     gparker at apple.com <mailto:gparker at apple.com>     Runtime Wrangler
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> 
>>>>>>>>>>>>>> _______________________________________________
>>>>>>>>>>>>>> swift-evolution mailing list
>>>>>>>>>>>>>> swift-evolution at swift.org <mailto:swift-evolution at swift.org>
>>>>>>>>>>>>>> https://lists.swift.org/mailman/listinfo/swift-evolution <https://lists.swift.org/mailman/listinfo/swift-evolution>
>>>>>>>>>>> 
>>>>>>>>>> 
>>>>>>>>> 
>>>>>>>>> 
>>>>>>>> 
>>>>>>>> _______________________________________________
>>>>>>>> swift-evolution mailing list
>>>>>>>> swift-evolution at swift.org <mailto:swift-evolution at swift.org>
>>>>>>>> https://lists.swift.org/mailman/listinfo/swift-evolution <https://lists.swift.org/mailman/listinfo/swift-evolution>
>>>>>>> 
>>>>>> 
>>>>> 
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