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I'm trying to enrich data and the interface I have available for this is a web form. Due to the very poorly quality of the data on the remote end, I run through a chain of different searches until I get a match. Sometimes I get a hit on the first request sometimes I don't find anything even though I tried 5 different searches.

I thought I could use Clojures laziness to short circuit the searches on the first match but apparently due to side effects all 5 different searches are requested every time.

Here is a very simple reproduction of my problem:

(ns lazy-web-lookup.core
  (:require [clj-http.client :as http]))

(defn found?
  "Determines if the search was successful"
  [result]
  (= (:found result) "yes"))

(first (filter #(found? %) (map #(hash-map :no %
                                           :found (:body (http/get "http://localhost/random"))) [1 2 3 4 5])))

http://localhost/random randomly returns the string "yes" or "no".

Is there anyway I can tweak the above to do what I want or am I barking up the wrong tree?

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3 Answers 3

4

Actually only chunked seqs are realized in batches of (normally1) 32 elements. Non-chunked seqs are realized one at a time. Functions like map and filter preserve the chunked / unchunked "mode" of their seq arguments.

You may thus be able to utilize regular Clojure sequence functions without compromising any amount of laziness if you make sure that you're passing a non-chunked seq to them. There are two possible approaches here, the second one of which is probably more applicable to your case:

  1. Produce your seq without regard to whether it's going to be chunked or not; then, if it happens to be chunked, wrap it in an "unchunking seq":

    (defn unchunk [xs]
      (lazy-seq
        (if-let [xs (seq xs)]
          (cons (first xs) (unchunk (rest xs))))))
    
    user=> (->> (range 40) (unchunk) (map #(println "THIS IS" %)) first)
    THIS IS 0
    
    user=> (->> (range 40) (map #(println "THIS IS" %)) first)
    THIS IS 0
    THIS IS 1
    THIS IS 2
    ...
    

    To use this approach with the example in the question text, you'd have to unchunk the seq over the vector [1 2 3 4 5].

  2. Produce your initial seq (the innermost one in your transformation pipeline) in some way which does not happen to chunk the output. This may involve writing your own producers explicitly:

    (defn my-seq-producer [& args]
      (lazy-seq
        (if ...
          (cons (foo) (my-seq-producer ...))))
    

    The key thing to note here is that you're wrapping a cons call in a conditional inside lazy-seq. If the test in the conditional is not satisfied, the conditional will produce nil and the lazy seq will turn out to be empty upon being realized; otherwise (foo) will be produced as the first element of the output, followed by come "rest" part of the sequence, without any chunking.

    In particular, if you write your own producer of a lazy seq of items fetched over HTTP, you will be able to transform it using the core sequence functions while preserving full laziness.

The simplest way to tell which seq is chunked and which is not is to use the chunked-seq? function, although there are two caveats:

  1. You should probably use chunked-seq? on the result of calling seq on whichever seq you're interested in, rather than the original seq itself. This is because your seq might be a chunked-seq-producing thunk wrapped in a LazySeq object. In fact, this is the case with range.

    (chunked-seq? (range 40))
    ;= false
    
    (chunked-seq? (seq (range 40)))
    ;= true
    
  2. A seq may be partially chunked; for example you might cons something onto the front of a chunked seq, thereby producing a seq which is not chunked, but which nevertheless has a chunked "rest". Explicit unchunking deals with this happily, since it doesn't really check whether the underlying seq is chunked or not.


1 Consider a seq over a vector whose tail is less than 32 elements long.

2
  • This unchunking seems pretty awesome :) Personally I like the structure of the map filter better than the loop recur... do you have comment on comparing those two solutions?
    – Jacob
    Apr 14, 2013 at 7:12
  • 1
    For transforming sequences of data, I'd pretty much always go with sequence library functions first and only use loop/recur if it felt particularly clear or if I could measure a significant performance benefit. Loop/recur used to be useful for finishing certain types of transformations early, but now that reduce can be short-circuited (see (doc reduced) in Clojure >= 1.5), this is less often the case. The declarative feel of seq transforms is one reason; also, loop/recur is closed, while seq transforms are open: you can stack more on top of a pipeline without modifying it. Apr 14, 2013 at 15:53
2

As mentioned in other answer, lazy sequences are realized in batch mode where batch size is 32, for your specific problem you can use plain old recursion:

(loop [i [1 2 3 4 5]]
  (when (seq i)
    (let [body (-> (http/get "http://localhost/random")
                   :body)]
      (if (= body "yes")
        body
        (recur (rest i))))))
1

For efficiency reasons, lazy sequences are evaluated 32 elements at a time. Try this:

> (defn f [i] (= i 2))
#'sandbox10079/f
> (defn g [i] (println "THIS IS" i) i))
#'sandbox10079/g
> (defn h [x] (first (filter f (map g x))))
#'sandbox10079/h
> (h (range 40))
THIS IS 0
THIS IS 1
THIS IS 2
THIS IS 3
THIS IS 4
THIS IS 5
  ...
THIS IS 28
THIS IS 29
THIS IS 30
THIS IS 31
2
>  
0

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