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More transducers and reducing functions for Clojure(script)!

Transducers can be classified in three groups: regular ones, higher-order ones (which accept other transducers as arguments) and aggregators (transducers which emit only 1 item out no matter how many went in). Aggregators generally only make sense in the context of a higher-order transducer.

In net.cgrand.xforms:

  • regular ones: partition (1 arg), reductions, for, take-last, drop-last, sort, sort-by, wrap, window and window-by-time
  • higher-order ones: by-key, into-by-key, multiplex, transjuxt, partition (2+ args), time
  • aggregators: reduce, into, without, transjuxt, last, count, avg, sd, min, minimum, max, maximum, str

In net.cgrand.xforms.io:

  • sh to use any process as a reducible collection (of stdout lines) or as a transducers (input as stdin lines, stdout lines as output).

Reducing functions

  • in net.cgrand.xforms.rfs: min, minimum, max, maximum, str, str!, avg, sd, last and some.
  • in net.cgrand.xforms.io: line-out and edn-out.

(in net.cgrand.xforms)

Transducing contexts:

  • in net.cgrand.xforms: transjuxt (for performing several transductions in a single pass), iterator (clojure only), into, without, count, str (2 args) and some.
  • in net.cgrand.xforms.io: line-out (3+ args) and edn-out (3+ args).
  • in net.cgrand.xforms.nodejs.stream: transformer.

Reducible views (in net.cgrand.xforms.io): lines-in and edn-in.

Note: it should always be safe to update to the latest xforms version; short of bugfixes, breaking changes are avoided.

Add as a dependency

For specific coordinates see the Releases page.

Usage

=> (require '[net.cgrand.xforms :as x])

str and str! are two reducing functions to build Strings and StringBuilders in linear time.

=> (quick-bench (reduce str (range 256)))
             Execution time mean : 58,714946 µs
=> (quick-bench (reduce rf/str (range 256)))
             Execution time mean : 11,609631 µs

for is the transducing cousin of clojure.core/for:

=> (quick-bench (reduce + (for [i (range 128) j (range i)] (* i j))))
             Execution time mean : 514,932029 µs
=> (quick-bench (transduce (x/for [i % j (range i)] (* i j)) + 0 (range 128)))
             Execution time mean : 373,814060 µs

You can also use for like clojure.core/for: (x/for [i (range 128) j (range i)] (* i j)) expands to (eduction (x/for [i % j (range i)] (* i j)) (range 128)).

by-key and reduce are two new transducers. Here is an example usage:

;; reimplementing group-by
(defn my-group-by [kfn coll]
  (into {} (x/by-key kfn (x/reduce conj)) coll))

;; let's go transient!
(defn my-group-by [kfn coll]
  (into {} (x/by-key kfn (x/into [])) coll))

=> (quick-bench (group-by odd? (range 256)))
             Execution time mean : 29,356531 µs
=> (quick-bench (my-group-by odd? (range 256)))
             Execution time mean : 20,604297 µs

Like by-key, partition also takes a transducer as last argument to allow further computation on the partition.

=> (sequence (x/partition 4 (x/reduce +)) (range 16))
(6 22 38 54)

Padding is achieved as usual:

=> (sequence (x/partition 4 4 (repeat :pad) (x/into [])) (range 9))
([0 1 2 3] [4 5 6 7] [8 :pad :pad :pad])

avg is a transducer to compute the arithmetic mean. transjuxt is used to perform several transductions at once.

=> (into {} (x/by-key odd? (x/transjuxt [(x/reduce +) x/avg])) (range 256))
{false [16256 127], true [16384 128]}
=> (into {} (x/by-key odd? (x/transjuxt {:sum (x/reduce +) :mean x/avg :count x/count})) (range 256))
{false {:sum 16256, :mean 127, :count 128}, true {:sum 16384, :mean 128, :count 128}}

window is a new transducer to efficiently compute a windowed accumulator:

;; sum of last 3 items
=> (sequence (x/window 3 + -) (range 16))
(0 1 3 6 9 12 15 18 21 24 27 30 33 36 39 42)

=> (def nums (repeatedly 8 #(rand-int 42)))
#'user/nums
=> nums
(11 8 32 26 6 10 37 24)

;; avg of last 4 items
=> (sequence
     (x/window 4 rf/avg #(rf/avg %1 %2 -1))
     nums)
(11 19/2 17 77/4 18 37/2 79/4 77/4)

;; min of last 3 items
=> (sequence
        (x/window 3
          (fn
            ([] (sorted-map))
            ([m] (key (first m)))
            ([m x] (update m x (fnil inc 0))))
          (fn [m x]
            (let [n (dec (m x))]
              (if (zero? n)
                (dissoc m x)
                (assoc m x (dec n))))))
        nums)
(11 8 8 8 6 6 6 10)

On Partitioning

Both by-key and partition takes a transducer as parameter. This transducer is used to further process each partition.

It's worth noting that all transformed outputs are subsequently interleaved. See:

=> (sequence (x/partition 2 1 identity) (range 8))
(0 1 1 2 2 3 3 4 4 5 5 6 6 7)
=> (sequence (x/by-key odd? identity) (range 8))
([false 0] [true 1] [false 2] [true 3] [false 4] [true 5] [false 6] [true 7])

That's why most of the time the last stage of the sub-transducer will be an aggregator like x/reduce or x/into:

=> (sequence (x/partition 2 1 (x/into [])) (range 8))
([0 1] [1 2] [2 3] [3 4] [4 5] [5 6] [6 7])
=> (sequence (x/by-key odd? (x/into [])) (range 8))
([false [0 2 4 6]] [true [1 3 5 7]])

Simple examples

(group-by kf coll) is (into {} (x/by-key kf (x/into []) coll)).

(plumbing/map-vals f m) is (into {} (x/by-key (map f)) m).

My faithful (reduce-by kf f init coll) is now (into {} (x/by-key kf (x/reduce f init))).

(frequencies coll) is (into {} (x/by-key identity x/count) coll).

On key-value pairs

Clojure reduce-kv is able to reduce key value pairs without allocating vectors or map entries: the key and value are passed as second and third arguments of the reducing function.

Xforms allows a reducing function to advertise its support for key value pairs (3-arg arity) by implementing the KvRfable protocol (in practice using the kvrf macro).

Several xforms transducers and transducing contexts leverage reduce-kv and kvrf. When these functions are used together, pairs can be transformed without being allocated.

fnkvs in?kvs out?
`for`when first binding is a pairwhen `body-expr` is a pair
`reduce`when is `f` is a kvrfno
1-arg `into`
(transducer)
when `to` is a mapno
3-arg `into`
(transducing context)
when `from` is a mapwhen `to` is a map
`by-key`
(as a transducer)
when is `kfn` and `vfn` are unspecified or `nil`when `pair` is `vector` or unspecified
`by-key`
(as a transducing context on values)
nono
;; plain old sequences
=> (let [m (zipmap (range 1e5) (range 1e5))]
     (crit/quick-bench
       (into {}
         (for [[k v] m]
           [k (inc v)]))))
Evaluation count : 12 in 6 samples of 2 calls.
             Execution time mean : 55,150081 ms
    Execution time std-deviation : 1,397185 ms

;; x/for but pairs are allocated (because of into) 
=> (let [m (zipmap (range 1e5) (range 1e5))]
     (crit/quick-bench
       (into {}
         (x/for [[k v] _]
           [k (inc v)])
         m)))
Evaluation count : 18 in 6 samples of 3 calls.
             Execution time mean : 39,119387 ms
    Execution time std-deviation : 1,456902 ms
    
;; x/for but no pairs are allocated (thanks to x/into) 
=> (let [m (zipmap (range 1e5) (range 1e5))]
     (crit/quick-bench (x/into {}
               (x/for [[k v] %]
                 [k (inc v)])
               m)))
Evaluation count : 24 in 6 samples of 4 calls.
             Execution time mean : 24,276790 ms
    Execution time std-deviation : 364,932996 µs

Changelog

0.19.6

  • Fix regression in 0.19.5 #54

0.19.5

  • Support ClojureDart

0.19.4

  • Fix ClojureScript compilation broken in 0.19.3 #49
  • Fix x/sort and x/sort-by for ClojureScript #40

0.19.3

  • Add deps.edn to enable usage as a git library
  • Bump macrovich to make Clojure and ClojureScript provided dependencies #34
  • Fix reflection warnings in xforms.io #35 #36
  • Add compatibility with babashka #42
  • Fix x/destructuring-pair? #44 #45
  • Fix x/into performance hit with small maps #46 #47
  • Fix reflection and shadowing warnings in tests

0.19.2

  • Fix infinity symbol causing issues with ClojureScript #31

0.19.0

time allows to measure time spent in one transducer (excluding time spent downstream).

=> (time ; good old Clojure time
     (count (into [] (comp
                     (x/time "mapinc" (map inc))
                     (x/time "filterodd" (filter odd?))) (range 1e6))))
filterodd: 61.771738 msecs
mapinc: 143.895317 msecs
"Elapsed time: 438.34291 msecs"
500000

First argument can be a function that gets passed the time (in ms), this allows for example to log time instead of printing it.

0.9.5

  • Short (up to 4) literal collections (or literal collections with :unroll metadata) in collection positions in x/for are unrolled. This means that the collection is not allocated. If it's a collection of pairs (e.g. maps), pairs themselves won't be allocated.

0.9.4

  • Add x/into-by-key short hand

0.7.2

  • Fix transients perf issue in Clojurescript

0.7.1

  • Works with Clojurescript (even self-hosted).

0.7.0

  • Added 2-arg arity to x/count where it acts as a transducing context e.g. (x/count (filter odd?) (range 10))
  • Preserve type hints in x/for (and generally with kvrf).

0.6.0

  • Added x/reductions
  • Now if the first collection expression in x/for is not a placeholder then x/for works like x/for but returns an eduction and performs all iterations using reduce.

Troubleshooting xforms in a Clojurescript dev environment

If you use xforms with Clojurescript and the Emacs editor to start your figwheel REPL be sure to include the cider.nrepl/cider-middleware to your figwheel's nrepl-middleware.

  :figwheel {...
             :nrepl-middleware [cider.nrepl/cider-middleware;;<= that middleware
                                refactor-nrepl.middleware/wrap-refactor
                                cemerick.piggieback/wrap-cljs-repl]
             ...}

Otherwise a strange interaction occurs and every results from your REPL evaluation would be returned as a String. Eg.:

cljs.user> 1
"1"
cljs.user>

instead of:

cljs.user> 1
1
cljs.user>

License

Copyright © 2015-2016 Christophe Grand

Distributed under the Eclipse Public License either version 1.0 or (at your option) any later version.

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Extra transducers and reducing fns for Clojure(script)

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