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I just started learning APL a couple of weeks ago, so this may sound like a newbie question.

Let B be a string, which in APL terms can be either a scalor or a vector. If it's a scalar, ⍴B returns null rather than the length of the string as I want.

⍴B ⍝ returns 2

⍴B ⍝ returns null

I discovered one way around that:

⍴1↓'X',B ⍝ concatenating X and then removing it returns a value of 1

That works, but it seems a little hokey, so I'm wondering if there is a more standard way to find string length.

Is it just me or does this seem a little inconsistent? The tutorial I read said to think of a scalar as a point similar to the way it is in vector algebra. But how is it that concatenating a scalar to a scalar makes a vector, but dropping a scalar from a vector never results in a scalar?

I'm really enjoying APL, so this question isn't meant as criticism. My question is, what's the best way to find string length? And, if anyone can shed a little light on this seeming inconsistency, it would be appreciated.

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I'm not sure if I understand you correct. ⍴,B shows you the count of characters. –  CrazyMetal Jun 25 '13 at 13:26
@CrazyMetal - Thats true if there are more than 1, but if you assign B←'A', it is considered a scalar and ⍴B returns null. If you use my little trick above, it returns 1. –  Pé de Leão Jun 25 '13 at 17:32
I wrote ⍴,B. In my opinion that is the standard way to find string length. –  CrazyMetal Jun 26 '13 at 6:54
Cool! That works great. I guess I overlooked the comma. –  Pé de Leão Jun 26 '13 at 8:09

1 Answer 1

up vote 4 down vote accepted

The reasons that concatenating X and removing it works, is that the catenation produces a vector. Removing X with 1↓ then leaves it as a vector, as an empty vector to be precise. And the length of vectors can be measured with ⍴. That is also what CrazyMetal's solution does: monadic , transforms its argument (scalar or array of any dimension) into a vector. And measuring its rho gives you the answer you were looking for: the standard way to find string length.

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Thanks, but it doesn't address the inconsistency part. You can get a vector from concatenating scalars, but you can't get a scalar by dropping elements. I realize that it remains a vector, but it doesn't make sense to me why. However, I like solution. It's much neater than my solution. Thanks! –  Pé de Leão Jun 26 '13 at 8:08
Dropping an element means you changing the size ob the object, and that is all. You do not change the rank by changing the size. I see that is must be difficult to grasp initially, but once you get used to "array thinking", it will feel natural ;-) –  MBaas Jun 26 '13 at 15:25
A related observation: monadic take (sorry no APL chars on ipad keyboard!) returns the first element of a vector as a scalar. I'm afraid I'm a bit far removed from APL these days to recall the reason for apparent inconsistency cited. –  RFlack Feb 3 '14 at 22:01
Are you using Dyalog? The behaviour of monadic take there depends on quadML, the migration level. And there is a setting (sorry, travelling right now w/o manual and APL) where it would behave like the "first"-function... –  MBaas Feb 6 '14 at 15:15
Sorry MBaas just saw yr question. My main APL experience was IBM mainframe APL2. –  RFlack May 23 '14 at 3:29

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