[swift-evolution] Revisiting SE-0110

Paul Cantrell cantrell at pobox.com
Fri Jun 16 16:09:08 CDT 2017


> On Jun 16, 2017, at 3:43 PM, Mark Lacey <mark.lacey at apple.com> wrote:
> 
> 
>> On Jun 16, 2017, at 1:21 PM, Mark Lacey <mark.lacey at apple.com <mailto:mark.lacey at apple.com>> wrote:
>> 
>>> 
>>> On Jun 16, 2017, at 11:13 AM, Paul Cantrell via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>> 
>>>> 
>>>> On Jun 15, 2017, at 7:17 PM, Xiaodi Wu via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>> 
>>>> 
>>>> On Thu, Jun 15, 2017 at 19:03 Víctor Pimentel <vpimentel at tuenti.com <mailto:vpimentel at tuenti.com>> wrote:
>>>> On 16 Jun 2017, at 01:55, Xiaodi Wu via swift-evolution <swift-evolution at swift.org <mailto:swift-evolution at swift.org>> wrote:
>>>> 
>>>>> On Thu, Jun 15, 2017 at 17:43 David Hart <david at hartbit.com <mailto:david at hartbit.com>> wrote:
>>>>> 
>>>>> By the way, I’m not attempting to deduce that nobody uses this feature by the fact I didn’t know about it. But I think it’s one interesting datapoint when comparing it to SE-0110.
>>>>> 
>>>>> 
>>>>> SE-0110, **in retrospect**, has had impacts on a lot of users; prospectively, it was thought to be a minor change, even after review and acceptance.
>>>>> 
>>>>> Keep in mind that this proposed change would also eliminate inline tuple shuffle. For instance, the following code will cease to compile:
>>>>> 
>>>>> let x = (a: 1.0, r: 0.5, g: 0.5, b: 0.5)
>>>>> func f(color: (r: Double, g: Double, b: Double, a: Double)) {
>>>>>   print(color)
>>>>> }
>>>>> f(color: x)
>>>>> 
>>>>> It is an open question how frequently this is used. But like implicit tuple destructuring, it currently Just Works(TM) and users may not realize they’re making use of the feature until it’s gone.
>>>> 
>>>> It's much much less used, by looking at open source projects I doubt that a significant portion of projects would have to change code because of this.
>>>> 
>>>> The reason that I’m urging caution is because, if I recall correctly, that is also what we said about SE-0110 on this list. Then, as now, we were discussing an issue with something left over from the Swift 1 model of tuples. Then, as now, we believed that the feature in question was rarely used. Then, as now, we believed that removing that feature would improve consistency in the language, better both for the compiler and for users. Then, as now, leaving it in was thought to prevent moving forward with other features that could improve Swift.
>>> 
>>> Data:
>>> 
>>> I hacked up a regexp that will catch most uses of labeled tuples in pattern matches, e.g. “let (foo: bar) = baz”. That’s what we’re talking about, right?
>> 
>> That’s the obvious example that people find confusing.
>> 
>> Less obvious places that labeled tuple patterns show up are ‘case let’ and ‘case’ (see below).
> 
> Okay, I should have looked at your regex and read further. It looks like you were already trying to match these.

I did walk the grammar for all occurrences of _pattern_.

I’m only matching named tuple patterns that immediately follow one of the keywords which a pattern follows (for, case, let, var, and catch). As I mentioned, I’m not matching patterns that come later in comma-separated lists. I’m also not matching named tuples inside nested patterns, e.g. let ((a: b), (c: d)).

But again, if even the most basic form of this construct is so rare, I doubt more robust matching would turn up that much more usage.

> I’m surprised you’re not seeing any uses of ‘case’ with labels.

Me too. But I just verified that my pattern does match them.

P

> 
> Mark
> 
>> Fortunately we do not appear to allow shuffling in these cases. I’m not sure if the human disambiguation is easier here because of the context (‘case let’ and ‘case’), but I don’t recall seeing complain about these being confusing (having said that it’s entirely possible they are very confusing the first time someone sees them, in particular ‘cast let’ and the binding form of ‘case’.
>> 
>> enum X {
>>   case e(i: Int, f: Float)
>> }
>> 
>> let x = X.e(i: 7, f: 12)
>> 
>> if case let X.e(i: hi, f: bye) = x {
>>   print("(i: \(hi), f: \(bye))")
>> }
>> 
>> func test(_ x: X, _ a: Int, _ b: Float) {
>>   switch x {
>>   case .e(i: a, f: b):
>>     print("match values")
>>   case .e(i: let _, f: let _):
>>     print("bind values")
>>   default:
>>     break
>>   }
>> }
>> 
>> test(X.e(i: 1, f: 2), 1, 2)
>> test(X.e(i: 1, f: 2), 3, 4)
>> 
>> 
>>> 
>>> I ran that against all 55 projects in swift-source-compat-suite, comprising about over 400,000 lines of Swift code, and found … drumroll … exactly one match:
>>> 
>>> 
>>> neota (swift-source-compat-suite)$ find project_cache -name '*.swift' -print0 | xargs -0 pcregrep -M '(for|case|let|var|catch)\s+\([a-zA-Z0-9_]+\s*:'
>>> project_cache/RxSwift/RxExample/RxExample-iOSTests/TestScheduler+MarbleTests.swift:                let (time: _, events: events) = segments.reduce((time: 0, events: [RecordedEvent]())) { state, event in
>>> 
>>> 
>>> Caveats about this method:
>>> 
>>> • My regexp won’t match second and third patterns in a comma-separated let or case, e.g.:
>>> 
>>>    let a = b, (c: d) = e
>>> 
>>> • It doesn’t match non-ascii identifiers.
>>> 
>>> • This experiment only considers labeled tuples in pattern matches, what I took Chris’s original puzzler to be about. Label-based tuple shuffling is a separate question.
>>> 
>>> Still, even if it’s undercounting slightly, one breakage in half a million lines of code should put to rest concerns about unexpected widespread impact.
>>> 
>>> (Anything else I’m missing?)
>>> 
>>> • • •
>>> 
>>> Aside for those who know the tools out there: what would it take to run inspections like this against ASTs instead of using a regex? Could we instrument the compiler as Brent suggested?
>> 
>> If you want to catch *all* of these cases then the patch below will do it by failing the AST verifier when it hits a pattern with labels. If you only want to find the plain let-binding versions of this and not the ‘case let’ and ‘case’ ones, I’d suggest looking at the parser to see if there’s an easy place to instrument (I don’t know offhand).
>> 
>> Mark
>> 
>> diff --git a/lib/AST/ASTVerifier.cpp b/lib/AST/ASTVerifier.cpp
>> index b59a7ade23..ba4b2a245d 100644
>> --- a/lib/AST/ASTVerifier.cpp
>> +++ b/lib/AST/ASTVerifier.cpp
>> @@ -2772,6 +2772,13 @@ public:
>>      }
>>  
>>      void verifyParsed(TuplePattern *TP) {
>> +      for (auto &elt : TP->getElements()) {
>> +        if (!elt.getLabel().empty()) {
>> +          Out << "Labeled tuple patterns are offensive!\n";
>> +          abort();
>> +        }
>> +      }
>> +
>>        PrettyStackTracePattern debugStack(Ctx, "verifying TuplePattern", TP);
>>        verifyParsedBase(TP);
>>      }
>> 
>> 
>> 
>> 
>>> Or can SourceKit / SourceKitten give a full AST? Or has anybody written a Swift parser in Swift?
>>> 
>>> Cheers,
>>> 
>>> Paul
>>> 
>>> _______________________________________________
>>> 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>

-------------- next part --------------
An HTML attachment was scrubbed...
URL: <https://lists.swift.org/pipermail/swift-evolution/attachments/20170616/a1cd5534/attachment.html>


More information about the swift-evolution mailing list