Let's say I have the following J expression:

# 3 ((|=0:)#]) 1+i.1000

This counts the number of numbers between 1 and 1000 that are evenly divisible by 3. (Now, before anyone points out that there's an easier way to do this, this question is about *the syntax of J*, and *not* mathematics.)

Let's say I define a monadic function for this, as follows:

f =: monad define # y ((|=0:)#]) 1+i.1000 )

This works great with a single argument, e.g.,

f 4 250

If I pass a list in, I get a length error:

f 1 2 3 |length error: f

Now, I completely understand why I get the length error. When you substitute the list `1 2 3`

for the `y`

argument of the monad, you get:

# 1 2 3 ((|=0:)#]) 1+i.1000

If you know anything about J, it's pretty clear why the length error is occurring. So, I don't need an explanation of that.

I want to define the function such that when I pass a list, it returns a list, e.g.,

f 1 2 3 1000 500 333

How can I either (a) redefine this function to take a list and return a list or (b) get the function to work on a list as-is without being redefined, perhaps using some adverb or other technique?

`f"0 ] 1 2 3`

using therankconjunction. (The superfluous`]`

prevents me from having to use parentheses.) – Gregory Higley Jun 2 '10 at 21:36