clojure - 实现 Clojure 条件/分支转换器

Question

我正在尝试在 Clojure 中制作一个条件转换器，如下所示：

(defn if-xf
  "Takes a predicate and two transducers.
   Returns a new transducer that routes the input to one of the transducers
   depending on the result of the predicate."
  [pred a b]
  (fn [rf]
    (let [arf (a rf)
          brf (b rf)]
      (fn
        ([] (rf))
        ([result]
           (rf result))
        ([result input]
           (if (pred input)
             (arf result input)
             (brf result input)))))))

它非常有用，因为它可以让你做这样的事情：

;; multiply odd numbers by 100, square the evens.  
(= [0 100 4 300 16 500 36 700 64 900]
    (sequence
          (if-xf odd? (map #(* % 100)) (map (fn [x] (* x x))))
          (range 10)))

但是，此条件转换器不适用于在其 1-arity 分支中执行清理的转换器：

;; negs are multiplied by 100, non-negs are partitioned by 2
;; BUT! where did 6 go?
;; expected: [-600 -500 -400 -300 -200 -100 [0 1] [2 3] [4 5] [6]]
;;
(= [-600 -500 -400 -300 -200 -100 [0 1] [2 3] [4 5]]
 (sequence
  (if-xf neg? (map #(* % 100)) (partition-all 2))
  (range -6 7)))

是否可以调整定义if-xf以处理带有清理的传感器的情况？

我正在尝试这个，但有奇怪的行为：

(defn if-xf
  "Takes a predicate and two transducers.
   Returns a new transducer that routes the input to one of the transducers
   depending on the result of the predicate."
  [pred a b]
  (fn [rf]
    (let [arf (a rf)
          brf (b rf)]
      (fn
        ([] (rf))
        ([result]
           (arf result) ;; new!
           (brf result) ;; new!
           (rf result))
        ([result input]
           (if (pred input)
             (arf result input)
             (brf result input)))))))

具体来说，冲洗发生在最后：

;; the [0] at the end should appear just before the 100.
(= [[-6 -5] [-4 -3] [-2 -1] 100 200 300 400 500 600 [0]]
      (sequence
       (if-xf pos? (map #(* % 100)) (partition-all 2))
       (range -6 7)))

有没有办法在不将整个输入序列存储在该转换器内的本地状态中的情况下制作这个分支/条件转换器（即在清理时在 1-arity 分支中进行所有处理）？

Answer 1

这个想法是在每次换能器切换时完成。IMO这是不缓冲的唯一方法：

(defn if-xf
  "Takes a predicate and two transducers.
   Returns a new transducer that routes the input to one of the transducers
   depending on the result of the predicate."
  [pred a b]
  (fn [rf]
    (let [arf (volatile! (a rf))
          brf (volatile! (b rf))
          a? (volatile! nil)]
      (fn
        ([] (rf))
        ([result]
         (let [crf (if @a? @arf @brf)]
           (-> result crf rf)))
        ([result input]
         (let [p? (pred input)
               [xrf crf] (if p? [@arf @brf] [@brf @arf])
               switched? (some-> @a? (not= p?))]
           (if switched?
             (-> result crf (xrf input))
             (xrf result input))
           (vreset! a? p?)))))))
(sequence (if-xf pos? (map #(* % 100)) (partition-all 2)) [0 1 0 1 0 0 0 1])
; => ([0] 100 [0] 100 [0 0] [0] 100)

Answer 2

我认为你的问题定义不明确。当传感器有状态时，你到底想发生什么？例如，您希望这样做：

(sequence
  (if-xf even? (partition-all 3) (partition-all 2))
  (range 14))

此外，有时减少函数在开始和结束时都有工作，不能随意重新启动。例如，这是一个计算均值的 reducer：

(defn mean
  ([] {:count 0, :sum 0})
  ([result] (double (/ (:sum result) (:count result))))
  ([result x]
   (update-in
     (update-in result [:count] inc)
     [:sum] (partial + x))))
(transduce identity mean [10 20 40 40]) ;27.5

现在让我们取平均值，低于 20 的任何东西都算作 20，但其他所有东西都减 1：

(transduce
  (if-xf
    (fn [x] (< x 20))
    (map (constantly 20))
    (map dec))
  mean [10 20 40 40]) ;29.25

我的回答如下：我认为您的原始解决方案是最好的。使用它效果很好map，这就是您首先说明条件转换器的有用性的方式。