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How can I do something like this pseudo-C++ code:

vector<int> vs = {...};
for (i = start; i < vs.size(); i += step) {
  vs[i] *= 10;
}

in Clojure? I have this code:

(defn step-do [start step v]
  (if (< start (count v))
    (recur (+ start step) step (assoc v start (* 10 (v start))))
    v))

(defn -main
  [& args]
  (println (step-do 2 3 (vec (range 1 15)))))

Or for variant:

(defn step-do [start step v]
  (last (for [i (range start (count v) step)]
          (assoc v i (* 10 (v i))))))

What is better? What is faster? Should I do something else?

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2 Answers 2

up vote 2 down vote accepted

The recur-based version is perfectly fine and likely to be among the fastest possible solutions, though you might want to use transients if it's going to operate on larger vectors.

As a possible alternative I'd suggest using reduce to handle the looping, with the input vector passed in as the initial value of the accumulator and the reduced sequence provided by range with a step argument.

(defn step-do [start step v]
  (reduce (fn [v i]
            (assoc v i (* 10 (nth v i))))
          v
          (range start (count v) step)))

From the REPL:

(def xs (vec (range 32)))

(step-do 1 2 xs)
;= [0 10 2 30 4 50 6 70 8 90 10 110 12 130 14 150 16 170 18 190 20 210 22 230 24 250 26 270 28 290 30 310]

This has the benefit of clearly separating the selection of indices at which the transformation is to be applied (here handled by range; a more involved seq producer could be used if desired) and the transformation itself (captured by the function passed to reduce; a generalized step-do could accept a a transformation function as an argument, rather than hardwire multiply-by-10).

Additionally, it should be quite performant (and since reduce is quite central to Clojure's model of data handling, it's likely to keep improving in future releases). Of course here too transients could be used to speed things up.

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Incidentally, it's entirely possible to use a native array in place of the vector here (hopefully with a type hint!). The reduction function would then use something like (aset arr i (* 10 (aget arr i))), with the collection being reduced over still coming from range. I wrote the answer in terms of vectors because of the Clojure code snippets in the question, but the pattern of using reduce to transform something in a non-trivial but predictable loop is more broadly applicable. Also worth pointing out in this connection is the recently-introduced reduced for early termination. –  Michał Marczyk Jul 24 '13 at 7:27
(def an-array (int-array 25000 (int 1)))
(time (amap ^ints an-array
                  idx
                  ret
                  (* (if (zero? (mod idx step)) (int 10) (int 1))
                  (aget ^ints an-array idx))))

"Elapsed time: 14.708653 msecs"
;; Note: without type hinting the performance of would not be good.

amap

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If I use this function, for some sequence with steps 2, 3, 4 and so on I will get O(n ** 2) performance, but my solution will run in O(n log n) time. Function amap is not what I want. –  demi Jul 24 '13 at 4:49
    
If your problem is to perform arithmetic on a native array of primitives in place this will zoom. You may want to do the experiment. –  Alister Lee Jul 24 '13 at 5:11

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