Huh. That (in my humble opinion) is a terribly misnamed function (push already has a specific meaning; what about ins, for insert, which is what it actually does?), but certainly a very useful one.
I'd be curious to see what (time (push 8 x 4)) looks like: is that also constant-time? What sort of data structure is newLISP using, if not a linked list? Linked list + end pointer, perhaps--but wouldn't that break on a push? Ah well. I (unfortunately) don't really have time to construct an in-depth analysis, but I'm still curious.
I'm not sure why the Anarki won't let you do ('(2 3 4) -1); it would indeed be useful. Mayhap there are efficiency concerns? Negative indexing works in cut.
Ruby has the opposite problem from conventional Lisp: it appends quickly, but prepends slowly:
t = Time.now; a=[2]; 99_000.times{ a.push( 8 ) }; p Time.now - t
0.14
==>nil
t = Time.now; a=[2]; 99_000.times{ a.unshift( 8 ) }; p Time.now - t
70.902
==>nil
t = Time.now; a=[0,1,2,3,4]; 99_000.times{ a.insert(2, 8) }; p Time.now - t
73.346
That's 73 seconds! NewLisp can insert in a list 1800 times as fast as Ruby can!
Right. In Ruby, pushing, unshifting, and spliceing are all different operations, as they should be. Meaningful names are important.
It's not quite as fast to insert in the middle, but much faster than it should be. This would, to me, imply that newLISP isn't even using linked lists at all, but is instead using some form of array, which is decidedly unLispy. If that is the case (if, I say), then of course this will only work with "one reference only", as you can't construct lists which share cdrs; "one reference only" being an awful idea, I would consider the speed a fair tradeoff.