# Lisp function adding odd numbers from a subset

I need to make a function in a clisp that would add all odd numbers from a set.For example subset (2,8), the result would be 15(3+5+7).any suggestions? I do have something like this, where a is the beginning of a set and b is the end of it.

(if(and(< a x) (> b x))
(if(even(x))
((setq ( x (+a 1))) (+ x 2))
((setq(x a)) (+ x 2))
)))

EDIT:

(if(and(< a x) (> b x))
(if(evenp x))
((setq ( x (+a 1))
(loop for x from a to b do (+ x 2))))
((setq(x a)) (+ x 2)
(loop for x from a to b do (+ x 2)))
))
-
Start with the first odd number at or equal to the start of the range, loop adding 2 and adding them all to the total, until you get past the end of the range. –  Barmar May 7 '13 at 7:47
well, i get how the algorithm should be working, i just don't know how to implement it in lisp –  user2167174 May 7 '13 at 7:54
Show what you've tried, we're not here to do your homework for you. –  Barmar May 7 '13 at 7:56
I have got it it shown –  user2167174 May 7 '13 at 7:57
You seem to have problems with basic Lisp syntax, e.g. (even(x)) should be (even x). You also don't have a loop in your code. Where are you setting x? –  Barmar May 7 '13 at 7:58

The most direct way to do this is with LOOP. The LOOP solution is very straightforward:

(defun sum-odds (start end)
(loop for i from start to end
when (oddp i) sum i))

(sum-odds 2 8)
=> 15

For iteration, you could also use DO, but you have to be a bit more explicit about how everything works (and you have many more options):

(defun sum-odds2 (begin end)
(do ((sum 0)
(i begin (1+ i)))
((= i end) sum)
(when (oddp i)
(incf sum i))))

(sum-odds2 2 8)
=> 15

If you do use a solution that creates a list containing the range of integers (which creates a bunch of intermediate lists to be garbage collected), as suggested in some other answers, you should consider how many times you traverse that list (there's no reason to traverse it more than once). You can use REDUCE to sum the elements of the list with a :key argument that makes odd numbers look like themselves, and even numbers look like 0:

(defun sum-odds3 (list)
(reduce '+ list
:key (lambda (n)
(if (oddp n)
n
0))))

(sum-odds3 '(2 3 4 5 6 7 8))
=> 15
-

I was going to do my usual shtick and put on the code-review hat, but having properly formatted your second attempt, there are too many problems here to take an incremental approach. You need to sit down and explain what you intended this code to do.

Specifically, what's going on with x? Is that meant to be a global binding that you're re-setting each time, or did you mean to define a local binding and accidentally forgot that both the ifs need the variable before you get around to it? What are you trying to do with those setqs, and what are you trying to do with those loops (as written, neither do anything)?

[temporarily dons code-review hat]

First up, kindly format your code properly. It's a small thing, but it increases readability by quite a bit.

(if (and (< a x) (> b x))
(if (evenp x))
((setq (x (+ a 1))
(loop for x from a to b do (+ x 2))))
((setq (x a)) (+ x 2)
(loop for x from a to b do (+ x 2)))))

And with the proper indentation level, quite a few errors just fall out at you right away.

• First off, that top if has three clauses in it (the if and two setqs for some reason).
• Second, that second if has no clauses, just a test. Which means it does nothing
• Third, you're calling some very oddly named functions in the if body. I'm willing to guarantee that ((setq (x a)) (+ x 2) (loop for x from a to b do (+ x 2))) isn't what you mean, because that's calling the function (setq (x a)) on the arguments (+ x 2) and (loop ...).
• Fourth, you invoke setq in two different incorrect ways. (setq (x (+ a 1)) this is attempting to set the result of calling the function x on (+ a 1) to NIL. (setq (x a)) (+ x 2) this is trying to set the result of calling the function x on a to NIL, then evaluating and discarding (+ x 2).
-

The simplest way I see it is to use applicative programming.

(defun range (max &key (min 0) (step 1))
(loop for n from min below max by step
collect n))

You can use the range function to generate your interval like this:

(range 8 :min 2) => (2 3 4 5 6 7)

and then filter with remove-if-not:

(remove-if-not #'oddp (range 8 :min 2)) => (3 5 7)

and apply addition to the result:

(apply #'+ (remove-if-not #'oddp (range 8 :min 2))) => 15

You can wrap the above in a function too: