Shake-out from the conformance-library sweep. Host-side fixes (runtime .ss, no re-mint) plus one analyzer change (re-minted): - Exception fidelity: ex-info and host-constructed throwables (RuntimeException. etc.) now carry their JVM class, so (class e), instance? across the exception hierarchy, .getMessage, and clojure.test thrown?/thrown-with-msg? all work. - .getBytes returns a seqable/countable byte-array and honors UTF-16/UTF-32; String. decodes them. ->bytevector accepts byte-arrays (Base64). - Universal .getClass / .toString / .indexOf / .lastIndexOf on any value/seq. - record? uses the host jrec? predicate (the old (get x :jolt/deftype) crashed on a sorted-map by invoking its comparator). - extend-protocol to abstract host types (clojure.lang.Fn/IFn/APersistentVector, java.net.URI) dispatches. - New host classes: clojure.lang.PersistentQueue, java.util.ArrayList, java.net.URI, java.io.File / java.util.UUID ctors, Double/Float ctors+statics, regex instance? Pattern, System/setProperty. - *assert* / *print-readably* are real settable/bindable vars. - (symbol "ns/name") splits the namespace at the last slash. - letfn fn params desugar destructuring (analyzer; re-minted). unit.edn gains exinfo/hostobj/queue/hostctor/destructure regression rows.
73 lines
4.2 KiB
Scheme
73 lines
4.2 KiB
Scheme
;; natives-queue.ss (jolt-b8he) — clojure.lang.PersistentQueue for the Chez host.
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;;
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;; A functional queue: a `front` Scheme list (the dequeue end, head = front of the
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;; queue) + a reversed `rear` Scheme list (the enqueue end, head = most recent).
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;; conj adds to rear; peek/first read front; pop drops the front, rebalancing
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;; rear->front when front empties — amortized O(1). A queue is jolt-sequential?, so
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;; seq=?/seq-hash give cross-type equality (= [1 2 3] (queue 1 2 3)) for free, like
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;; the JVM. Loaded after seq/collections/lazy-bridge/records/host-table so every
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;; dispatcher it chains is at its latest binding.
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(define-record-type jolt-queue (fields front rear cnt) (nongenerative jolt-queue-v1))
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(define jolt-queue-empty (make-jolt-queue '() '() 0))
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(define (queue-conj q x)
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(if (null? (jolt-queue-front q))
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(make-jolt-queue (list x) '() (fx+ (jolt-queue-cnt q) 1))
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(make-jolt-queue (jolt-queue-front q) (cons x (jolt-queue-rear q)) (fx+ (jolt-queue-cnt q) 1))))
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(define (queue->list q) (append (jolt-queue-front q) (reverse (jolt-queue-rear q))))
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(define (queue-peek q) (if (null? (jolt-queue-front q)) jolt-nil (car (jolt-queue-front q))))
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(define (queue-pop q)
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(let ((f (jolt-queue-front q)))
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(cond ((null? f) (error 'pop "can't pop empty queue"))
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((null? (cdr f)) (make-jolt-queue (reverse (jolt-queue-rear q)) '() (fx- (jolt-queue-cnt q) 1)))
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(else (make-jolt-queue (cdr f) (jolt-queue-rear q) (fx- (jolt-queue-cnt q) 1))))))
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;; --- extend the collection dispatchers to see a jolt-queue ------------------
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(define %q-seq jolt-seq)
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(set! jolt-seq (lambda (x) (if (jolt-queue? x)
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(let ((l (queue->list x))) (if (null? l) jolt-nil (list->cseq l)))
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(%q-seq x))))
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(define %q-count jolt-count)
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(set! jolt-count (lambda (x) (if (jolt-queue? x) (jolt-queue-cnt x) (%q-count x))))
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(define %q-empty? jolt-empty?)
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(set! jolt-empty? (lambda (x) (if (jolt-queue? x) (fx=? 0 (jolt-queue-cnt x)) (%q-empty? x))))
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(define %q-peek jolt-peek)
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(set! jolt-peek (lambda (x) (if (jolt-queue? x) (queue-peek x) (%q-peek x))))
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(define %q-pop jolt-pop)
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(set! jolt-pop (lambda (x) (if (jolt-queue? x) (queue-pop x) (%q-pop x))))
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(define %q-conj1 jolt-conj1)
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(set! jolt-conj1 (lambda (coll x) (if (jolt-queue? coll) (queue-conj coll x) (%q-conj1 coll x))))
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;; sequential => seq=?/seq-hash handle queue equality + hashing.
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(define %q-sequential? jolt-sequential?)
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(set! jolt-sequential? (lambda (x) (or (jolt-queue? x) (%q-sequential? x))))
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;; printing: render the elements as a parenthesized list (delegate to the seq path).
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(define (jolt-seq-or-empty x) (let ((s (jolt-seq x))) (if (jolt-nil? s) jolt-empty-list s)))
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(define %q-pr-readable jolt-pr-readable)
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(set! jolt-pr-readable (lambda (x) (if (jolt-queue? x) (%q-pr-readable (jolt-seq-or-empty x)) (%q-pr-readable x))))
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(define %q-str-render-one jolt-str-render-one)
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(set! jolt-str-render-one (lambda (x) (if (jolt-queue? x) (%q-str-render-one (jolt-seq-or-empty x)) (%q-str-render-one x))))
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;; class / type / instance? recognize a queue.
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(define %q-class jolt-class)
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(set! jolt-class (lambda (x) (if (jolt-queue? x) "clojure.lang.PersistentQueue" (%q-class x))))
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(def-var! "clojure.core" "class" jolt-class)
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(define %q-instance-check instance-check)
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(set! instance-check
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(lambda (type-sym val)
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(if (jolt-queue? val)
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(let ((tn (cond ((string? type-sym) type-sym)
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((symbol-t? type-sym) (symbol-t-name type-sym)) (else ""))))
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(and (member (last-dot tn)
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'("PersistentQueue" "IPersistentCollection" "Sequential" "Collection" "Object"))
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#t))
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(%q-instance-check type-sym val))))
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(def-var! "clojure.core" "instance-check" instance-check)
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;; clojure.lang.PersistentQueue/EMPTY + a queue? predicate.
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(register-class-statics! "PersistentQueue" (list (cons "EMPTY" jolt-queue-empty)))
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(register-class-statics! "clojure.lang.PersistentQueue" (list (cons "EMPTY" jolt-queue-empty)))
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(def-var! "clojure.core" "queue?" (lambda (x) (jolt-queue? x)))
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;; the FQ class token self-evaluates (for (instance? clojure.lang.PersistentQueue …)).
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(def-var! "clojure.core" "clojure.lang.PersistentQueue" "clojure.lang.PersistentQueue")
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