Reading paragraph about head retention in "Clojure Programming" (page 98), i couldn't figure out what happens in `split-with` example. I've tried to experiment with repl but it made me more confused.

``````(time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count a) (count b)]))
"Elapsed time: 1910.401711 msecs"
[12 9999988]

(time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count b) (count a)]))
"Elapsed time: 3580.473787 msecs"
[9999988 12]

(time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count b)]))
"Elapsed time: 3516.70982 msecs"
[9999988]
``````

As you can see from the last example, if I don't compute `a`, time consuming somehow grows. I guess, i've missed something here, but what?

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This question is a duplicate of stackoverflow.com/questions/15994316/clojure-head-retention, which gives a good answer. –  robvir Nov 22 '13 at 13:27

Count is O(1). That's why your measurements don't depend on it.

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Lists count is really O(1), but according to "Clojure Programming", seqs aren't really lists and obtaining the length of a seq carries a cost. –  Nikolay D Khodyunya Nov 8 '12 at 9:35
Sorry. I've misled you. Yes, in your case it's LazySeq and "count" is O(n). On my machine (count a) took 0.019 msecs. So for your measurements it still looks like O(1). –  mobyte Nov 8 '12 at 10:01
Please, try to check (count b), because in my case it's (count b), not (count a). –  Nikolay D Khodyunya Nov 8 '12 at 10:24
Basically using `(count b)` before `(count a)` caused the total time to increase –  Ankur Nov 8 '12 at 10:54

The `count` function is O(1) for Counted collections, which includes vectors and lists.

Sequences, on the other hand, are not counted which makes `count` O(n) for them. The important part here is that the functions `take-while` and `drop-while` return sequences. The fact that they are also lazy is not a major factor here.

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When using time a a benchmark, run the tests many times to get an accurate result

``````user> (defn example2 [] (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count a) (count b)]))
#'user/example2

user> (dorun (take 1000 (repeatedly example2)))
nil

user> (time (example2))
"Elapsed time: 614.4 msecs"
[12 9999988]
``````

I blame variance in runtime because the hotspot compiler has not yet fully optomized the generated classes. I ran the first and second examples several times and got mixed relative results:

run example one twice:

``````autotestbed.core> (time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count a) (count b)]))
"Elapsed time: 929.681423 msecs"
[12 9999988]
autotestbed.core> (time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count a) (count b)]))
"Elapsed time: 887.81269 msecs"
[12 9999988]
``````

then run example two a couple times:

``````core> (time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count a) (count b)]))
"Elapsed time: 3838.751561 msecs"
[12 9999988]
core> (time (let [r (range 1e7)
a (take-while #(< % 12) r)
b (drop-while #(< % 12) r)]
[(count a) (count b)]))
"Elapsed time: 970.397078 msecs"
[12 9999988]
``````

sometiems the second examples are just as fast

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Binding in `let` form performed even we don't use this value.

``````(let [x (println "Side effect")] 1)
``````

Code above prints "Side effect", and return 1.

In all your three examples used the same binding in let form, so I don't see any difference here. By the way, on my machine all your snippets took approximately equal time.

The real difference when you try something like this:

``````(time (let [r (range 2e7)
a (take 100 r)
b (drop 100 r)]
[(count a)]))
"Elapsed time: 0.128304 msecs"
[100]

(time (let [r (range 2e7)
a (take 100 r)
b (drop 100 r)]
[(count b)]))
"Elapsed time: 3807.591342 msecs"
[19999900]
``````

Due to fact that `b` and `a` are lazy sequences, `count` works in `O(n)` time. But in first example we don't calculate count for b, so it works almost immediately.

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In the original examples `r` `a` and `b` are immediately bound in the let statement to lazy un-evaluated sequences. Binding these names does not cause the sequences to be evaluated. –  Arthur Ulfeldt Nov 8 '12 at 18:28
@ArthurUlfeldt correct, a and b bound to lazy seqs –  mishadoff Nov 9 '12 at 8:29

the time it is showing is completely system dependent.... if you re-execute it, it will show some different elapsed time for each execution

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