How to write a function `countTo(n)`

that counts from 1 to n and prints each number without using explicit loops (only recursion)?

The solution must be asymptotically optimal in space and time, *even without tail call optimisation*, given arbitrarily big `n`

.

Note: the optimal time complexity is *O*(1) while the optimal space complexity is *O*(log *n*) – even in the iterative case, since the (arbitrarily large) number needs to be printed.

The question comes from lesswrong.com, and the relevant details are taken from the discussion there (otherwise the question becomes impossible to answer since their original statement makes misleading assumptions).

originalinterview question is stated wrongly. It only admits a solution once the question is stated more carefully. – Konrad Rudolph Feb 12 '12 at 20:56intendedquestion, rather than the one that was actually asked. Unfortunately, this means that all answers are now irrelevant but otherwise the question is trivially answered and rather boring. @genesiss, I hope that’s OK. It wasn’t your fault, by the way, the original formulation on LessWrong was wrong. – Konrad Rudolph Feb 12 '12 at 21:14