I was wondering if someone could help me with the performance of this code snippet in Clojure 1.3. I am trying to implement a simple function that takes two vectors and does a sum of products.

So let's say the vectors are X (size 10,000 elements) and B (size 3 elements), and the sum of products are stored in a vector Y, mathematically it looks like this:

Y0 = B0*X2 + B1*X1 + B2*X0

Y1 = B0*X3 + B1*X2 + B2*X1

Y2 = B0*X4 + B1*X3 + B2*X2

and so on ...

For this example, the size of Y will end up being 9997, which corresponds to (10,000 - 3). I've set up the function to accept any size of X and B.

Here's the code: It basically takes `(count b)`

elements at a time from X, reverses it, maps `*`

onto B and sums the contents of the resulting sequence to produce an element of Y.

```
(defn filt [b-vec x-vec]
(loop [n 0 sig x-vec result []]
(if (= n (- (count x-vec) (count b-vec)))
result
(recur (inc n) (rest sig) (conj result (->> sig
(take (count b-vec))
(reverse)
(map * b-vec)
(apply +)))))))
```

Upon letting X be `(vec (range 1 10001))`

and B being `[1 2 3]`

, this function takes approximately 6 seconds to run. I was hoping someone could suggest improvements to the run time, whether it be algorithmic, or perhaps a language detail I might be abusing.

Thanks!

P.S. I have done `(set! *warn-on-reflection* true)`

but don't get any reflection warning messages.