# Tail recursion in ruby - what's the difference between these two implementations?

I'm new to Ruby and just started to pick up the language a couple of days back. As an exercise, I tried to implement a simple quicksort

``````class Sort
def swap(i,j)
@data[i], @data[j] = @data[j], @data[i]
end

def quicksort(lower=0, upper = @data.length - 1)
return nil if lower >= upper
m = lower
i = 0
((lower+1)..upper).each do |i|
swap(++m, i) if @data[i] < @data[lower]
end

swap(m, lower)

quicksort1(lower, m -1)
quicksort1(m+1, upper)
end
end
``````

Calling quicksort on say 10000 integers gives me a stack-level error. After googling, I figured out that tail-recursion isn't supported yet in Ruby (kind of). But then I found the following snippet (from here)

``````def qs(v)
return v if v.nil? or v.length <= 1
less, more = v[1..-1].partition { |i| i < v[0] }
qs(less) + [v[0]] + qs(more)
end
``````

Running the second snippet works perfectly well even with a million integers. Yet, as far as I can tell, there's tail recursion at the end. So what am I not understanding here?

-
You don't need `i = 0`. –  Andrew Grimm May 23 '11 at 23:41

The reason that the first method overflows the stack, but the second one does not is that the first method recurses much deeper than the second (linearly instead of logarithmically) because of a bug (`++m` just applies the unary + operator to `m` twice - it does not actually do anything to `m`).
Fascinating observation. It appears that you can write an arbitrary number of unary operators to a number: `1+++++++++2` is 3 –  Eric Hu Sep 6 '11 at 2:18