[swift-evolution] superscripts, subscripts, etc.

Swift swift at davedelong.com
Thu Oct 5 01:19:46 CDT 2017


Going a little further...

It’s not hard to imagine a situation where the order of a trailing annotation matters. Ie, that X²₃ is a different thing from X₃². (X squared sub 3 ≠ X sub 3 squared)

So i think you’d want an array of trailing annotations and an array of leading annotations, where an annotation is either a .superscript(U) or a .subscript(V). That way you’d be able to preserve the (potentially) relevant order. 

Dave

Sent from my iPhone

> On Oct 5, 2017, at 12:04 AM, John Payne via swift-evolution <swift-evolution at swift.org> wrote:
> 
> 
>>> On Oct 2, 2017, at 10:56 PM, John Payne via swift-evolution <swift-evolution at swift.org> wrote:
>>> 
>>> Chris Lattner wrote:
>>> 
>>>> Just FWIW, IMO, these make sense as operators specifically because they are commonly used by math people as operations that transform the thing they are attached to.  Superscript 2 is a function that squares its operand.  That said, perhaps there are other uses that I’m not aware of which get in the way of the utilitarian interpretation.
>>> 
>>> But there are SO MANY uses for superscripts, subscripts, and other such annotations, and they are all context specific, just in math, without getting into chemistry, physics, statistics, and so forth.
>>> 
>>> They’re really more like methods on the object to which they’re attached, or the combination of a method and an argument.  
>> 
>> I agree.
>> 
>>> Wouldn’t classing them as identifiers lend itself better to this?
>> 
>> No, making them an operator is better for this usecase.
>> 
>> You want:
>> 
>> x²  to parse as “superscript2(x)” - not as an identifier “xsuperscript2” which is distinct from x.
>> 
>> -Chris
> 
> I’m not competent to evaluate the implications of that, but let me just pass along what makes sense to me.  For all I know it may be a restatement in different words, or a higher level view which your approach enables, or I may just have no grasp at all of what’s involved.
> 
> For brevity I’ll refer to superscripts, subscripts, etc. as annotations.
> 
> An object may have more than one annotation, as with chemical elements which are usually presented at least with both their atomic number and atomic weight.  Moreover, in some circumstances it might not be possible to evaluate the significance of any single annotation without taking one or more others into account, so it might be important to present them together, as in a struct or a collection.
> 
> Taking them singly, their significance is three part: 1) the type of the object, 2) the position of the annotation, and 3) the value of the annotation.
> 
> I would parse x² as x.trailingSuperscript(2), or better yet…
> 
> where X is the type of x, X.annotations would be a struct, similar to the following
> 
> struct annotations {
>     leadingSuperscript: T?
>     leadingSubscript: U?
>     triailingSuperscript: V?
>     trailingSubscript: W?
> }
> 
> Taking this approach, x² would parse as x.annotations.trailingSuperscript = 2, and would fail if X made no allowance for trailingSuperscripts.
> 
> Annotation values are frequently variables, xⁿ for example, and this is the main reason it seems reasonable to me to class the value as anything permitted by the type associated with an annotation in that position for the overall type in question.
> 
> I’ll read any replies with interest, but I don’t think I'll have anything more to say on this subject myself.
> 
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