Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

While exploring various ways of computing factorials in Clojure, I came up with the following (non-idiomatic) function:

(defn factorial-using-do-dotimes [x]
  (do
    (def a 1)
    (dotimes [i x]
      (def a (* a (inc i)))))
  a)

REPL:

user=> (factorial-using-do-dotimes 5)
120

What are the concrete disadvantages of this (aside from "non-idiomatic")? Performance? Correctness (that is, possible defects)?

share|improve this question
1  
The approach given here has obvious correctness bugs, to the point that there's little need to address them. A better question (one with a less-obvious answer) would be why idiomatic clojure uses atoms rather than modifying vars' root bindings when state does need to be changed -- answer is a little more subtle, coming down to performance and futureproofing (semantics of atoms are better-defined, thus less likely to be changed in ways that break things) –  Charles Duffy Aug 23 '12 at 23:59
    
Agreed, in retrospect the defect is painfully obvious. The target audience for this question are Clojure newbies. –  noahlz Aug 24 '12 at 0:42
add comment

3 Answers 3

up vote 3 down vote accepted

Using def inside a function body is not idiomatic, sort-of-but-not-explicitly undefined behavior, and considering the way vars are implemented, using (dotimes .. (def ..)) is quite possibly slower than using (loop ... (recur ...)), especially when you're using basic types, like numbers, and type-hints.

The main reason not to do this kind of "dynamic" modification of vars, is that it complicates your code for no good reason. Some much more idiomatic combination of loop/recur and transients should under normal circumstances get you as good a performance as you can get out of clojure. And it will still be thread-safe, predictable and readable.

Edit: as a concrete defect: your example code does not work correctly when called from multiple threads concurrently.

share|improve this answer
    
Does not work correctly because def is bound to the namespace, not to the scope of the function, correct? –  noahlz Aug 23 '12 at 20:59
1  
Because vars are bound to a namespace, and def binds to the "root" value of a var. See also the documentation for binding and def. –  Joost Diepenmaat Aug 23 '12 at 21:03
add comment

If you try to run this code in parallel then the race conditions can
result in it silently producing wrong answers

first run it on it's own:

core> (factorial-using-do-dotimes 10)
3628800                                                                                                    

then run two copies but let the fast one finish well in advance:

core> (do (future (do (java.lang.Thread/sleep 5) 
                      (factorial-using-do-dotimes  1200))) 
          (factorial-using-do-dotimes 10))
3628800                                                                                                    

then run them closer together:

core> (do (future (do (java.lang.Thread/sleep 1) 
                      (factorial-using-do-dotimes 1200))) 
          (factorial-using-do-dotimes 10))
3628800    

then run them at the same time:

core> (do (future (do (java.lang.Thread/sleep 0) 
                      (factorial-using-do-dotimes 1200))) 
          (factorial-using-do-dotimes 10))
54698277723986154311681531904000000N                                                                       

which is not the answer to either of the factorials being run.
(factorial-using-do-dotimes 1200) is 3176 digits long

and the answer comes out wrong.

note: I changed the factorial-using-do-dotimes function to use *' instead of * so I could run it on a bigger example to make the timing easier to hit in the example.

share|improve this answer
add comment

Rebinding a def can have unpredictable results in an environment that requires synchronization. Consider using refs, atoms, or agents, if you need to modify state.

You can accumulate values in a for loop like so

(defn chk-key-present-in-sos
  ""
  [mapped-sos cmp-key cmp-seq-vals]
  (if (seq-of-maps? mapped-sos)
    (for [mapped-row mapped-sos
        :let [matched-rows mapped-row]
        :when (chk-one-val-present mapped-row cmp-key cmp-seq-vals)]
      matched-rows)
    nil))

You can use reduce to produce a final result.

(defn key-pres?
"This function accepts a value (cmp-val) and a vector of vectors
(parsed output from clojure-csv) and returns the match value
back if found and nil if not found.

Using reduce, the function searches every vector row to see
if cmp-val is at the col-idx location in the vector."

[cmp-val cmp-idx csv-data]
   (reduce
       (fn [ret-rc csv-row]
          (if (= cmp-val (nth csv-row col-idx nil))
            (conj ret-rc cmp-val)))
       []
       csv-data))

And you can use into to accumulate.

Finally, you can always use recursion and let the termination step return the accumulated Fibonacci value.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.