Rephrase comments that pointed at deleted Janet files (emit.janet, the seed
sources, 'the Janet back end punts ...') to present-tense descriptions of the
Chez behavior. Comment/docstring-only; the self-host fixpoint is unchanged
(comments don't affect the compiled seed).
Delete five files that were Janet-host shims with no Chez path: clojure.java.io
(provided natively by host/chez/io.ss), and jolt.{nrepl,png,interop,shell}
(the janet.* bridge, os/shell, janet.net — none exist on Chez).
jolt-cf1q.6
191 lines
5.7 KiB
Clojure
191 lines
5.7 KiB
Clojure
;; clojure.core — lazy tier. Canonical CLJS-based lazy seq fns.
|
|
;; Loaded after 30-macros.clj, so lazy-seq macro is available.
|
|
;;
|
|
;; Each fn ported from CLJS core.cljs, stripped of chunked-seq branches.
|
|
|
|
;; --- distinct --- (transducer + lazy collection arity; value-based dedup)
|
|
(defn distinct
|
|
([]
|
|
(fn [rf]
|
|
(let [seen (volatile! #{})]
|
|
(fn ([] (rf)) ([result] (rf result))
|
|
([result input]
|
|
(if (contains? @seen input)
|
|
result
|
|
(do (vswap! seen conj input) (rf result input))))))))
|
|
([coll]
|
|
(let [step (fn step [xs seen]
|
|
(lazy-seq
|
|
((fn [[f :as xs] seen]
|
|
(when-let [s (seq xs)]
|
|
(if (contains? seen f)
|
|
(recur (rest s) seen)
|
|
(cons f (step (rest s) (conj seen f))))))
|
|
xs seen)))]
|
|
(step coll #{}))))
|
|
|
|
|
|
;; --- keep ---
|
|
(defn keep
|
|
([f]
|
|
(fn [rf]
|
|
(fn ([] (rf)) ([result] (rf result))
|
|
([result input]
|
|
(let [v (f input)]
|
|
(if (nil? v) result (rf result v)))))))
|
|
([f coll]
|
|
(lazy-seq
|
|
(when-let [s (seq coll)]
|
|
(let [x (f (first s))]
|
|
(if (nil? x)
|
|
(keep f (rest s))
|
|
(cons x (keep f (rest s)))))))))
|
|
|
|
;; --- keep-indexed ---
|
|
(defn keep-indexed
|
|
([f]
|
|
(fn [rf]
|
|
(let [ia (volatile! -1)]
|
|
(fn ([] (rf)) ([result] (rf result))
|
|
([result input]
|
|
(let [i (vswap! ia inc)
|
|
v (f i input)]
|
|
(if (nil? v) result (rf result v))))))))
|
|
([f coll]
|
|
(letfn [(keepi [idx coll]
|
|
(lazy-seq
|
|
(when-let [s (seq coll)]
|
|
(let [x (f idx (first s))]
|
|
(if (nil? x)
|
|
(keepi (inc idx) (rest s))
|
|
(cons x (keepi (inc idx) (rest s))))))))]
|
|
(keepi 0 coll))))
|
|
|
|
;; --- map-indexed ---
|
|
(defn map-indexed
|
|
([f]
|
|
(fn [rf]
|
|
(let [i (volatile! -1)]
|
|
(fn ([] (rf)) ([result] (rf result))
|
|
([result input] (rf result (f (vswap! i inc) input)))))))
|
|
([f coll]
|
|
(letfn [(mapi [idx coll]
|
|
(lazy-seq
|
|
(when-let [s (seq coll)]
|
|
(cons (f idx (first s)) (mapi (inc idx) (rest s))))))]
|
|
(mapi 0 coll))))
|
|
|
|
;; --- cycle ---
|
|
(defn cycle [coll]
|
|
(if-let [vals (seq coll)]
|
|
(let [n (count vals)]
|
|
(letfn [(cstep [i]
|
|
(lazy-seq
|
|
(cons (nth vals (mod i n)) (cstep (inc i)))))]
|
|
(cstep 0)))
|
|
()))
|
|
|
|
;; --- repeatedly --- ((f) throws on a non-fn; (take n …) throws on a non-number
|
|
;; count — both enforced by the host (jolt-call / take), so the canonical
|
|
;; CLJ form matches the repeatedly.cljc exception cases.)
|
|
(defn repeatedly
|
|
([f] (lazy-seq (cons (f) (repeatedly f))))
|
|
([n f] (take n (repeatedly f))))
|
|
|
|
;; --- repeat ---
|
|
(defn repeat
|
|
([x] (lazy-seq (cons x (repeat x))))
|
|
([n x] (take n (repeat x))))
|
|
|
|
;; --- iterate ---
|
|
(defn iterate [f x]
|
|
(lazy-seq (cons x (iterate f (f x)))))
|
|
|
|
|
|
;; --- partition-all --- (transducer + [n coll] + [n step coll])
|
|
;; The collection arities realize EXACTLY n per chunk via a first/rest loop and
|
|
;; continue from the advanced cursor (not a re-drop / nthrest), so they realize
|
|
;; minimally — the §6.3 laziness counters depend on this.
|
|
;; (A take/nthrest form is correct but over-realizes.)
|
|
(defn partition-all
|
|
([n]
|
|
(fn [rf]
|
|
(let [a (volatile! [])]
|
|
(fn
|
|
([] (rf))
|
|
([result]
|
|
(let [result (if (zero? (count @a))
|
|
result
|
|
(let [v @a] (vreset! a []) (unreduced (rf result v))))]
|
|
(rf result)))
|
|
([result input]
|
|
(vswap! a conj input)
|
|
(if (= n (count @a))
|
|
(let [v @a] (vreset! a []) (rf result v))
|
|
result))))))
|
|
([n coll]
|
|
(letfn [(go [s]
|
|
(lazy-seq
|
|
(when (seq s)
|
|
(loop [i 0 chunk [] cur s]
|
|
(if (and (< i n) (seq cur))
|
|
(recur (inc i) (conj chunk (first cur)) (rest cur))
|
|
(cons chunk (go cur)))))))]
|
|
(go coll)))
|
|
([n step coll]
|
|
(letfn [(go [s]
|
|
(lazy-seq
|
|
(when (seq s)
|
|
(cons (take n s) (go (nthrest s step))))))]
|
|
(go coll))))
|
|
|
|
;; --- Phase 2 leaf batch 3 (jolt-ded): canonical lazy + transducer arities ----
|
|
|
|
(defn interpose
|
|
([sep]
|
|
(fn [rf]
|
|
(let [started (volatile! false)]
|
|
(fn
|
|
([] (rf))
|
|
([result] (rf result))
|
|
([result input]
|
|
(if (deref started)
|
|
(let [sepr (rf result sep)]
|
|
(if (reduced? sepr)
|
|
sepr
|
|
(rf sepr input)))
|
|
(do (vreset! started true)
|
|
(rf result input))))))))
|
|
([sep coll]
|
|
(drop 1 (interleave (repeat sep) coll))))
|
|
|
|
(defn take-nth
|
|
([n]
|
|
(fn [rf]
|
|
(let [iv (volatile! -1)]
|
|
(fn
|
|
([] (rf))
|
|
([result] (rf result))
|
|
([result input]
|
|
(let [i (vswap! iv inc)]
|
|
(if (zero? (rem i n))
|
|
(rf result input)
|
|
result)))))))
|
|
([n coll]
|
|
(lazy-seq
|
|
(when-let [s (seq coll)]
|
|
(cons (first s) (take-nth n (drop n s)))))))
|
|
|
|
;; --- pmap family (jolt-oeu): parallel map over real-thread futures ----------
|
|
;; Each element's work runs on its own OS thread with SNAPSHOT semantics
|
|
;; (futures marshal captured state — pure fns only, mutations don't propagate
|
|
;; back). All futures are spawned up front (doall), then derefed in order:
|
|
;; coarse-grained work only, as with Clojure's pmap.
|
|
|
|
(defn pmap
|
|
([f coll]
|
|
(map deref (doall (map (fn [x] (future (f x))) coll))))
|
|
([f coll & colls]
|
|
(pmap (fn [xs] (apply f xs)) (apply map vector coll colls))))
|
|
|
|
(defn pcalls [& fns] (pmap (fn [f] (f)) fns))
|