jolt/host/chez/natives-transduce.ss
Yogthos 960d8b6e24 refactor: consolidate transducers, dissolve natives-parity.ss (jolt-jcs7)
natives-parity.ss was a grab-bag (its own header called it 'parity'). Dissolve it
into homes that say what they hold:
  - cat            -> natives-transduce.ss (was natives-xform.ss, renamed for the
                      whole transducer surface: volatiles + cat + transduce/sequence)
  - transient?     -> transients.ss
  - rseq           -> natives-seq.ss
  - hash family    -> natives-misc.ss (the public hash API over jolt-hash)
The remainder — the #?() feature set, the reader-conditional + re-matcher tagged-map
ctors, and macroexpand — is a coherent reader/macro runtime-support unit, kept as
natives-reader.ss (np- prefix -> nr-). rt.ss loads + two comment refs updated.

Runtime .ss, no re-mint. make test green; hash/transient?/rseq/cat/macroexpand and
#?() reader features all verified.
2026-06-23 23:50:42 -04:00

63 lines
3 KiB
Scheme

;; natives-transduce.ss — the transducer surface: volatiles, the `cat` transducer,
;; and sequence / transduce application.
;;
;; `sequence` and `transduce` are seed natives. The stateful transducer arities
;; (take-nth/map-indexed/partition-by/dedupe/distinct, all overlay) use
;; volatile!/vswap!/vreset!/deref, shimmed here.
;;
;; Volatiles are a native mutable box (jvol) — the overlay vreset!/vswap! drive a
;; volatile through jolt.host/ref-put!+get, but a Chez volatile is a record, not a
;; tagged table, so those overlay versions are overridden natively in
;; post-prelude.ss. transduce/sequence build on the existing into-xform / reduce-
;; seq machinery (natives-seq.ss / seq.ss). Loaded after those + atoms.ss (deref).
;; --- volatiles ---------------------------------------------------------------
(define-record-type jvol (fields (mutable v)) (nongenerative chez-jvol-v1))
(define (jolt-volatile! x) (make-jvol x))
(define (jolt-vreset! vol x) (jvol-v-set! vol x) x)
(define (jolt-vswap! vol f . args)
(let ((nv (apply jolt-invoke f (jvol-v vol) args))) (jvol-v-set! vol nv) nv))
(define (jolt-volatile-pred? x) (jvol? x))
;; deref reads a volatile too (partition-all/-by transducers @-deref their box).
(define %xf-deref jolt-deref)
(set! jolt-deref (lambda (x) (if (jvol? x) (jvol-v x) (%xf-deref x))))
(def-var! "clojure.core" "volatile!" jolt-volatile!)
(def-var! "clojure.core" "deref" jolt-deref)
;; --- transduce / sequence ----------------------------------------------------
;; (transduce xform f coll) / (transduce xform f init coll): build the transformed
;; reducing fn (xform f), reduce it over coll (reduce-seq honors `reduced`), then
;; run the completion (1-arg) arity. The 3-arg init defaults to (f) — the rf's
;; 0-arity, e.g. (+) = 0, (conj) = [].
(define jolt-transduce
(case-lambda
((xform f coll) (jolt-transduce xform f (jolt-invoke f) coll))
((xform f init coll)
(let* ((xf (jolt-invoke xform f))
(res (reduce-seq xf init (jolt-seq coll))))
(jolt-invoke xf res)))))
;; (sequence coll) -> a seq; (sequence xform coll) -> coll transformed by xform.
;; Materialized eagerly through into-xform then seq'd (corpus inputs are finite; a
;; fully-lazy pull is future work). Honors reduced via into-xform/reduce-seq.
(define jolt-sequence
(case-lambda
((coll) (jolt-seq coll))
((xform coll) (jolt-seq (into-xform (jolt-vector) xform coll)))))
(def-var! "clojure.core" "transduce" jolt-transduce)
(def-var! "clojure.core" "sequence" jolt-sequence)
;; --- cat ---------------------------------------------------------------------
;; cat transducer: each input item is itself a collection, concatenated into the
;; downstream reducing fn.
(define (jolt-cat rf)
(lambda a
(cond
((null? a) (jolt-invoke rf))
((null? (cdr a)) (jolt-invoke rf (car a)))
(else
(let loop ((xs (seq->list (jolt-seq (cadr a)))) (acc (car a)))
(if (null? xs) acc (loop (cdr xs) (jolt-invoke rf acc (car xs)))))))))
(def-var! "clojure.core" "cat" jolt-cat)