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I've attempted to solve Euler Problem 2 with the following tail recursive functions:

(defun fib (num)
  (labels ((fib-helper (num a b)
         (cond ((or (zerop num)
                    (eql num 1))
               (t (fib-helper (decf num)
                              (+ a b)
    (fib-helper num 1 1)))

(defun sum-even-fib (max)
  (labels ((helper (sum num)
         (cond ((oddp num) (helper sum (decf num)))
               ((zerop num) sum)
               (t (helper (+ sum (fib num))
                          (decf num))))))
    (helper 0 max)))

Now, when I try to print the result using the function

(defun print-fib-sum (max dir file)
         :name file
         :directory dir)
        :direction :output)
    (format fib-sum-str "~A~%" (sum-even-fib max))))

with a max value of 4000000, I get the error

     ("bignum overflow" "[Condition of type SYSTEM::SIMPLE-ARITHMETIC-ERROR]" nil)

from *slime-events*. Is there any other way to handle the number and print to the file?

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After compilation the algorithm took about 60 mins (error of a few minutes- I was monitoring top periodically). –  Bracket Sep 15 '13 at 11:37
Look at the answer of SDS and then reread the problem. I've linked it in the text. –  Rainer Joswig Sep 15 '13 at 12:34
Thanks, will do, I've been mixing terms with values in my approach. –  Bracket Sep 15 '13 at 13:15

3 Answers 3

First, a few small issues:

  1. Use time instead of top.

  2. Common Lisp standard does not require tail recursion optimization. While many implementation do it, not all of them optimize all cases (e.g., labels).

  3. Your algorithm is quadratic in max because it computes the nth Fibonacci number separately for all indexes. You should make it linear instead.

  4. You are computing the sum of even-indexed numbers, not even-valued numbers.

Now, the arithmetic error you are seeing: 4,000,000th Fibonacci number is pretty large - about 1.6^4M ~ 10^835951. Its length is about 2,776,968.

Are you sure your lisp can represent bignums this big?

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Thanks, I'll work right away to fix those problems. –  Bracket Sep 15 '13 at 13:13
Shouldn't the limitation on bignum size relate to available resources? –  Sylwester Sep 15 '13 at 13:21
@Sylwester: it does relate to the resources, but it is possible that there are other limitations, e.g., integer-length must be less than 2^31. –  sds Sep 15 '13 at 13:37
@Bracket: if you have further problems, please ask a new question. "moving target" questions are frustrating and lead to downvoting. –  sds Sep 15 '13 at 13:39

So I've solved Euler #2 with the following tail recursive code:

(defun rev-sum-even-fib (max-val)
  (labels ((helper (sum a b)
             (cond ((oddp a)
                    (helper sum (+ a b) a)) 
                   ((> a max-val)
                    (helper (+ sum a) (+ a b) a)))))
    (helper 0 1 0)))

Here, the algorithm is linear in max and evaluates in

(time (rev-sum-even-fib 4000000))

Real time: 3.4E-5 sec.
Run time: 0.0 sec.
Space: 0 Bytes

Where I've omitted the numerical answer for obvious reasons.

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Here I've used the correct Fib values; Fib(0)=0 and Fib(1)=1. –  Bracket Sep 15 '13 at 14:47
You don't need to pass max-val, since that variable is lexically available. Edited. –  Rainer Joswig Sep 15 '13 at 15:59
you don't need to quote numbers, they are self-evaluating. –  Rainer Joswig Sep 15 '13 at 16:05

Since CL does not promise that it supports TCO (for example ABCL on the JVM does not support TCO - tail call optimization), it makes sense to write it portably as a loop:

(defun rev-sum-even-fib (max-val)
  (loop for a = 1 then (+ a b) and b = 0 then a
        until (> a max-val)
        when (evenp a) sum a))
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