I have problem in understanding the performance of a Common Lisp function (I am still a novice). I have two versions of this function, which simply computes the sum of all integers up to a given n.

Non-tail-recursive version:

```
(defun addup3 (n)
(if (= n 0)
0
(+ n (addup (- n 1)))))
```

Tail-recursive version

```
(defun addup2 (n)
(labels ((f (acc k)
(if (= k 0)
acc
(f (+ acc k) (- k 1)))))
(f 0 n)))
```

I am trying to run these functions in CLISP with input n = 1000000. Here is the result

```
[2]> (addup3 1000000)
500000500000
[3]> (addup2 1000000)
*** - Program stack overflow. RESET
```

I can run both successfully in SBCL, but the non-tail-recursive one is faster (only by a little, but that seems strange to me). I've searched the Stackoverflow questions but couldn't find something similar. Why do I get a stack overflow although the tail-recursive function is designed NOT to put all recursive function calls on the stack? Do I have to tell the interpreter/compiler to optimise tail calls? (I read something like `(proclaim '(optimize (debug 1))`

to set the debug level and optimize at the cost of tracing abilities, but I don't know what this does).
Maybe the answer is obvious and the code is bullshit, but I just can't figure it out.
Help is appreciated.

Edit: danlei pointed out the typo, it should be a call to `addup3`

n the first function, so it is recursive. If corrected, both versions overflow, but not his one

```
(defun addup (n)
"Adds up the first N integers"
(do ((i 0 (+ i 1))
(sum 0 (+ sum i)))
((> i n) sum)))
```

While it may be a more typical way to do it, I find it strange that tail recursion is not always optimised, considering my instructors like to tell me it's so much more efficient and stuff.