What is an algorithm to get the nth element of a rectangular tiled spiral?

Here's a short and sweet answer using just simple math in pseudocode. No conditionals and no iteration. Given
Here's a fiddle to see it in action. 


First, find out which ring your desired element is in (hint: until you get to the outer ring, your spiral is made up of nested squares), then which side (of the 4) it is on, then you're just left with its position on that side. 


Similar questions exist already... See my nonlooping version. You may need to swap and/or negate X/Y coordinates and change the There's also more canonical looping versions. 


As nobody answered, there is a solution:
This simulates a walk through the desired path. You start at position (0,0), walk 1 step to the right, 1 step down, 3 steps left, 3 steps up, and so on, following the spiral. To code this, notice that we are changing our direction on steps of numbers 1, 2, 4, 6, 9, 12, 16, 20 and so on. https://oeis.org/ reveals this is the quartersquare integer sequence. So all we need is a loop where each iteration simulates a step, adding the direction to the position and turning it 90º when the step count is part of the sequence. 


Here's my solution in javascript using inverse sum of 8 and edge numbering Complexity : O(1) no iteration loop
Demo : Fiddle 

