jolt/host/chez/ns.ss
Yogthos c18f8087f0 Real nREPL interrupt + thread-local *ns* (jolt-amzy, jolt-6rld)
Two nREPL divergences the library shakeout surfaced — both have a real host
mechanism on Chez.

Interrupt (jolt-amzy): Chez's engine timer (set-timer + thread-local
timer-interrupt-handler) is polled at procedure-call / loop back-edges, so a
running computation — even a tight loop — can be aborted from another thread.
concurrency.ss adds jolt.host/{make-interrupt, interrupt!, run-interruptible}: an
interrupt token is a shared box; run-interruptible arms a periodic timer whose
handler escapes (call/cc) when the token is set, throwing {:jolt/interrupted true}.
The eval thread is reused, not abandoned. (A thread blocked in a __collect_safe
foreign call only sees it on return — like the JVM not killing native code.)

Thread-local *ns* (jolt-6rld): chez-current-ns is now a Chez thread-parameter, so
each session worker / future has its own current ns (vars stay global, only the
pointer is per-thread). *ns* reads derive from it (dyn-binding.ss), and a bound
*ns* drives chez-current-ns — so (binding [*ns* the-ns] (load-string code))
resolves against the-ns, and concurrent in-ns across threads don't clobber each
other. Single-threaded behaviour is unchanged. All runtime .ss — no re-mint.
2026-06-22 18:57:16 -04:00

352 lines
19 KiB
Scheme

;; namespaces (jolt-yxqm, Phase 2) — the namespace value model.
;;
;; Chez has no ctx, so the ctx-coupled seed natives (find-ns/resolve/in-ns/…) are
;; reimplemented over the rt.ss var-table (cells carry ns + name + defined?) and
;; the multimethods.ss chez-current-ns box. A namespace VALUE is a `jns` record
;; carrying its name string — distinct from a map/record so (map? ns) is #f, but
;; the overlay's `ns-name` reads (get ns :name); that's overridden natively in
;; post-prelude.ss (loads after the overlay clobbers it).
;;
;; Loaded LAST from rt.ss. SCOPE (jolt-yxqm): the read/resolve/in-ns/*ns* ops.
;; use/require cross-ns SWITCHING is deferred (Phase 3) — the analyzer bakes a
;; def's target ns at compile time, so a runtime in-ns can't redirect later defs.
(define-record-type jns (fields name) (nongenerative chez-jns-v1))
;; registry: name-string -> jns. Seeded with the two always-present namespaces;
;; grown by in-ns / create-ns. find-ns ALSO derives existence from the var-table
;; (any cell with that ns), so a namespace that only ever had vars def'd into it
;; is still found.
(define ns-registry (make-hashtable string-hash string=?))
(define (intern-ns! name)
(or (hashtable-ref ns-registry name #f)
(let ((n (make-jns name))) (hashtable-set! ns-registry name n) n)))
(intern-ns! "user")
(intern-ns! "clojure.core")
;; --- namespace aliases (jolt-qjr0) -----------------------------------------
;; (require '[ns :as a]) registers a -> ns so the analyzer can resolve a/foo to
;; ns/foo. Keyed by (compile-ns . alias). On the zero-Janet spine the requires are
;; pre-registered at analyze time (compile-eval.ss) — analysis precedes eval, so a
;; runtime require no-op is fine. Also drives jolt-ns-aliases below.
(define ns-alias-table (make-hashtable equal-hash equal?))
(define (chez-register-alias! cns alias target)
(hashtable-set! ns-alias-table (cons cns alias) target))
(define (chez-resolve-alias cns alias)
(hashtable-ref ns-alias-table (cons cns alias) #f))
;; :refer brings an UNQUALIFIED name into cns, resolving to target-ns/name.
(define ns-refer-table (make-hashtable equal-hash equal?))
(define (chez-register-refer! cns name target)
(hashtable-set! ns-refer-table (cons cns name) target))
;; refer-all (a bare `use`): cns -> list of fully-referred target ns names. A name
;; not found per-name resolves to the first refer-all target that defines it.
(define ns-refer-all-table (make-hashtable equal-hash equal?))
(define (chez-register-refer-all! cns target)
(let ((cur (hashtable-ref ns-refer-all-table cns '())))
(unless (member target cur)
(hashtable-set! ns-refer-all-table cns (cons target cur)))))
(define (chez-resolve-refer cns name)
(or (hashtable-ref ns-refer-table (cons cns name) #f)
(let loop ((ts (hashtable-ref ns-refer-all-table cns '())))
(cond ((null? ts) #f)
((let ((c (var-cell-lookup (car ts) name))) (and c (var-cell-defined? c))) (car ts))
(else (loop (cdr ts)))))))
;; parse a require/use spec FORM and register its :as alias + :refer names under
;; `cns`. spec: [ns :as a :refer [x y] ...] / (ns ...) / bare ns. opts are
;; keyword/value pairs after the ns symbol.
(define (chez-register-spec! cns spec)
(let ((items (cond ((pvec? spec) (seq->list spec))
((or (cseq? spec) (empty-list-t? spec)) (seq->list spec))
(else '()))))
(when (and (pair? items) (symbol-t? (car items)))
(let ((target (symbol-t-name (car items))))
(let loop ((xs (cdr items)))
(when (and (pair? xs) (pair? (cdr xs)))
(let ((k (car xs)) (v (cadr xs)))
(when (keyword? k)
(cond
((string=? (keyword-t-name k) "as")
(when (symbol-t? v) (chez-register-alias! cns (symbol-t-name v) target)))
;; :refer (require) and :only (use) both bring unqualified names
;; into cns resolving to target/name.
((or (string=? (keyword-t-name k) "refer") (string=? (keyword-t-name k) "only"))
(cond
;; :refer :all — bring in every public var (require :refer :all)
((and (keyword? v) (string=? (keyword-t-name v) "all"))
(chez-register-refer-all! cns target))
((pvec? v)
(for-each (lambda (n)
(when (symbol-t? n) (chez-register-refer! cns (symbol-t-name n) target)))
(seq->list v))))))))
(loop (cddr xs))))))))
;; a namespace designator -> its name string (a jns or a symbol; the corpus never
;; passes a bare string).
(define (ns-desig->name d)
(if (jns? d) (jns-name d) (symbol-t-name d)))
(define (ns-has-vars? nm)
(let ((found #f))
(vector-for-each
(lambda (c) (when (and (not found) (string=? (var-cell-ns c) nm)) (set! found #t)))
(hashtable-values var-table))
found))
(define (jolt-find-ns desig)
(let ((nm (ns-desig->name desig)))
(or (hashtable-ref ns-registry nm #f)
(and (ns-has-vars? nm) (intern-ns! nm))
jolt-nil)))
(define (jolt-the-ns desig)
(if (jns? desig) desig
(let ((n (jolt-find-ns desig)))
(if (jns? n) n (error #f "No namespace" desig)))))
(define (jolt-create-ns desig) (intern-ns! (ns-desig->name desig)))
;; in-ns: register + switch the current ns + re-bind *ns* + return the jns. NOTE
;; (Phase-3 deferral): this updates only the RUNTIME current ns — subsequent defs
;; in the same program were already ns-baked by the analyzer, so it does not
;; redirect them. It is enough for *ns* / str-of-ns to track the switch.
(define (jolt-in-ns desig)
(let* ((nm (ns-desig->name desig)) (n (intern-ns! nm)))
;; set the THREAD-LOCAL current ns; *ns* reads derive from it (dyn-binding.ss),
;; so this is per-thread — concurrent nREPL sessions don't clobber each other.
(set-chez-ns! nm)
n))
;; ns-name: a namespace's name as a (no-ns) symbol. Overrides the overlay (which
;; reads (get ns :name) = nil on a jns record) — wired in via post-prelude.ss.
(define (jolt-ns-name desig)
(jolt-symbol #f (jns-name (jolt-the-ns desig))))
(define (jolt-all-ns)
(let ((seen (make-hashtable string-hash string=?)))
(vector-for-each (lambda (k) (hashtable-set! seen k #t)) (hashtable-keys ns-registry))
(vector-for-each (lambda (c) (hashtable-set! seen (var-cell-ns c) #t)) (hashtable-values var-table))
(list->cseq (map intern-ns! (vector->list (hashtable-keys seen))))))
;; ns-publics / ns-map / ns-interns: a {sym -> var-cell} jolt map built by scanning
;; the var-table for defined cells in the namespace. (Private vars are not tracked
;; yet, so ns-publics == ns-interns.) ns-aliases is an empty map (map? is true).
(define (ns-vars-pmap nm)
(let ((m (jolt-hash-map)))
(vector-for-each
(lambda (c)
(when (and (string=? (var-cell-ns c) nm) (var-cell-defined? c))
(set! m (jolt-assoc m (jolt-symbol #f (var-cell-name c)) c))))
(hashtable-values var-table))
m))
(define (jolt-ns-publics desig) (ns-vars-pmap (ns-desig->name desig)))
;; ns-aliases (jolt-cf1q.7): the {alias-sym -> ns-value} registered under `desig`
;; (default the current ns) via require :as / alias. Reads ns-alias-table.
(define (jolt-ns-aliases . desig)
(let ((cns (if (pair? desig) (ns-desig->name (car desig)) (chez-current-ns)))
(m (jolt-hash-map)))
(vector-for-each
(lambda (k)
(when (string=? (car k) cns)
(set! m (jolt-assoc m (jolt-symbol #f (cdr k))
(intern-ns! (hashtable-ref ns-alias-table k #f))))))
(hashtable-keys ns-alias-table))
m))
;; ns-refers (jolt-cf1q.7): the {sym -> var} referred into `desig` via refer/use.
(define (jolt-ns-refers desig)
(let ((cns (ns-desig->name desig)) (m (jolt-hash-map)))
(vector-for-each
(lambda (k)
(when (string=? (car k) cns)
(let* ((target (hashtable-ref ns-refer-table k #f))
(c (and target (var-cell-lookup target (cdr k)))))
(when c (set! m (jolt-assoc m (jolt-symbol #f (cdr k)) c))))))
(hashtable-keys ns-refer-table))
m))
;; ns-imports: clojure.core auto-imports the 96 public java.lang classes into
;; every ns. jolt has no classloader, but returns that map (short symbol ->
;; canonical class-name token) so (count (ns-imports 'user)) = 96 like the JVM.
(define jolt-default-import-names
'("AbstractMethodError" "Appendable" "ArithmeticException" "ArrayIndexOutOfBoundsException"
"ArrayStoreException" "AssertionError" "BigDecimal" "BigInteger" "Boolean" "Byte"
"Callable" "CharSequence" "Character" "Class" "ClassCastException" "ClassCircularityError"
"ClassFormatError" "ClassLoader" "ClassNotFoundException" "CloneNotSupportedException"
"Cloneable" "Comparable" "Compiler" "Deprecated" "Double" "Enum"
"EnumConstantNotPresentException" "Error" "Exception" "ExceptionInInitializerError" "Float"
"IllegalAccessError" "IllegalAccessException" "IllegalArgumentException"
"IllegalMonitorStateException" "IllegalStateException" "IllegalThreadStateException"
"IncompatibleClassChangeError" "IndexOutOfBoundsException" "InheritableThreadLocal"
"InstantiationError" "InstantiationException" "Integer" "InternalError" "InterruptedException"
"Iterable" "LinkageError" "Long" "Math" "NegativeArraySizeException" "NoClassDefFoundError"
"NoSuchFieldError" "NoSuchFieldException" "NoSuchMethodError" "NoSuchMethodException"
"NullPointerException" "Number" "NumberFormatException" "Object" "OutOfMemoryError" "Override"
"Package" "Process" "ProcessBuilder" "Readable" "Runnable" "Runtime" "RuntimeException"
"RuntimePermission" "SecurityException" "SecurityManager" "Short" "StackOverflowError"
"StackTraceElement" "StrictMath" "String" "StringBuffer" "StringBuilder"
"StringIndexOutOfBoundsException" "SuppressWarnings" "System" "Thread" "Thread$State"
"Thread$UncaughtExceptionHandler" "ThreadDeath" "ThreadGroup" "ThreadLocal" "Throwable"
"TypeNotPresentException" "UnknownError" "UnsatisfiedLinkError" "UnsupportedClassVersionError"
"UnsupportedOperationException" "VerifyError" "VirtualMachineError" "Void"))
(define jolt-default-imports
(let loop ((ns jolt-default-import-names) (m (jolt-hash-map)))
(if (null? ns) m
(loop (cdr ns)
(jolt-assoc m (jolt-symbol #f (car ns)) (string-append "java.lang." (car ns)))))))
(define (jolt-ns-imports . _) jolt-default-imports)
;; resolve: an unqualified symbol resolves in the current ns then clojure.core; a
;; qualified one in its own ns. Returns the var iff genuinely defined, else nil —
;; never interns an empty cell (var-cell-lookup is non-creating).
;; resolve `sym` in the current ns: a qualified ns part is read as an :as alias
;; (then a real ns); an unqualified name resolves in the current ns, its :refers,
;; then clojure.core. (ns-resolve does the same against an explicit ns.)
(define (jolt-resolve sym)
(let* ((cns (chez-current-ns))
(sns (symbol-t-ns sym)) (nm (symbol-t-name sym))
(c (if (string? sns)
(var-cell-lookup (or (chez-resolve-alias cns sns) sns) nm)
(or (var-cell-lookup cns nm)
(let ((ref (chez-resolve-refer cns nm))) (and ref (var-cell-lookup ref nm)))
(var-cell-lookup "clojure.core" nm)))))
(if (and c (var-cell-defined? c)) c jolt-nil)))
(define (jolt-find-var sym)
(let ((sns (symbol-t-ns sym)) (nm (symbol-t-name sym)))
(if (string? sns)
(let ((c (var-cell-lookup sns nm))) (if (and c (var-cell-defined? c)) c jolt-nil))
(error #f "find-var requires a fully-qualified symbol" sym))))
;; ns-unmap: clear the mapping — drop defined? and reset the root to unbound, so a
;; later resolve returns nil.
(define (jolt-ns-unmap ns-desig sym)
(let ((c (var-cell-lookup (ns-desig->name ns-desig) (symbol-t-name sym))))
(when c (var-cell-defined?-set! c #f) (var-cell-root-set! c jolt-unbound)))
jolt-nil)
;; --- ns runtime fns (jolt-cf1q.7) -------------------------------------------
;; ns-resolve: resolve `sym` as if reading it in namespace `ns-desig`. Qualified
;; syms consult that ns's :as aliases; unqualified resolve in the ns, its :refers,
;; then clojure.core. Returns the var or nil (never interns).
(define (jolt-ns-resolve ns-desig sym)
(let* ((cns (ns-desig->name ns-desig))
(sns (symbol-t-ns sym)) (nm (symbol-t-name sym))
(c (if (string? sns)
(var-cell-lookup (or (chez-resolve-alias cns sns) sns) nm)
(or (var-cell-lookup cns nm)
(let ((ref (chez-resolve-refer cns nm))) (and ref (var-cell-lookup ref nm)))
(var-cell-lookup "clojure.core" nm)))))
(if (and c (var-cell-defined? c)) c jolt-nil)))
;; remove-ns: drop the namespace from the registry AND its vars, so find-ns
;; (which also derives existence from the var-table) returns nil afterward.
(define (jolt-remove-ns desig)
(let ((nm (ns-desig->name desig)))
(hashtable-delete! ns-registry nm)
(vector-for-each
(lambda (k) (let ((c (hashtable-ref var-table k #f)))
(when (and c (string=? (var-cell-ns c) nm)) (hashtable-delete! var-table k))))
(hashtable-keys var-table))
jolt-nil))
;; intern: create/set a var ns/sym to val (or an unbound cell). Returns the var.
(define (jolt-intern ns-desig sym . vopt)
(let ((nm (ns-desig->name ns-desig)) (s (symbol-t-name sym)))
(if (pair? vopt) (def-var! nm s (car vopt)) (declare-var! nm s))))
;; alias / ns-unalias: register/drop an :as alias under the current (or given) ns.
;; A runtime alias is registered into the SAME table the analyzer consults, so a
;; later form in the program resolves alias/foo (the spine analyzes form by form).
(define (jolt-alias alias-sym ns-sym)
(chez-register-alias! (chez-current-ns) (symbol-t-name alias-sym) (ns-desig->name ns-sym))
jolt-nil)
(define (jolt-ns-unalias ns-desig alias-sym)
(hashtable-delete! ns-alias-table (cons (ns-desig->name ns-desig) (symbol-t-name alias-sym)))
jolt-nil)
;; refer: bring every public var of `ns-sym` into the current ns as an unqualified
;; name (filters accepted/ignored — the corpus uses the bare form). refer-clojure
;; is a no-op (clojure.core always resolves on Chez).
(define (jolt-refer ns-sym . _filters)
(let ((target (ns-desig->name ns-sym)) (cns (chez-current-ns)))
(vector-for-each
(lambda (c) (when (and (string=? (var-cell-ns c) target) (var-cell-defined? c))
(chez-register-refer! cns (var-cell-name c) target)))
(hashtable-values var-table))
jolt-nil))
(define (jolt-refer-clojure . _) jolt-nil)
;; alter-meta! / reset-meta!: update a var's metadata (var-meta-table, rt.ss).
(define (jolt-alter-meta! ref f . args)
(let* ((cur (or (hashtable-ref var-meta-table ref #f) (jolt-hash-map)))
(new (apply jolt-invoke f cur args)))
(hashtable-set! var-meta-table ref new)
new))
(define (jolt-reset-meta! ref m) (hashtable-set! var-meta-table ref m) m)
;; --- RESOLVE FRICTION: native-op cells -------------------------------------
;; Native-op primitives (+ map reduce …) are INLINED at emit, so they have no
;; var-cell and (resolve '+) would be nil — diverging from Clojure where it is a
;; var. def-var! each to its value-position procedure so it has a real, defined
;; cell (calls still inline, so no perf hit; #'+ deref and ((resolve '+) 1 2) also
;; work now). The clojure.core prelude, loaded AFTER rt.ss, overwrites the cells
;; for names it also defines in the overlay (map/filter/…); the purely-inlined
;; scalars (+/-/</inc/…) keep these.
(for-each
(lambda (p) (def-var! "clojure.core" (car p) (cdr p)))
(list
(cons "+" jolt-add) (cons "-" jolt-sub) (cons "*" jolt-mul) (cons "/" jolt-div)
(cons "<" <) (cons ">" >) (cons "<=" <=) (cons ">=" >=)
(cons "=" jolt=) (cons "inc" jolt-inc) (cons "dec" jolt-dec) (cons "not" jolt-not)
(cons "min" min) (cons "max" max)
(cons "mod" modulo) (cons "rem" remainder) (cons "quot" quotient)
(cons "vector" jolt-vector) (cons "hash-map" jolt-hash-map) (cons "hash-set" jolt-hash-set)
(cons "conj" jolt-conj) (cons "get" jolt-get) (cons "nth" jolt-nth) (cons "count" jolt-count)
(cons "assoc" jolt-assoc) (cons "dissoc" jolt-dissoc) (cons "contains?" jolt-contains?)
(cons "empty?" jolt-empty?) (cons "peek" jolt-peek) (cons "pop" jolt-pop)
(cons "first" jolt-first) (cons "rest" jolt-rest) (cons "next" jolt-next) (cons "seq" jolt-seq)
(cons "cons" jolt-cons) (cons "list" jolt-list) (cons "reverse" jolt-reverse) (cons "last" jolt-last)
(cons "map" jolt-map) (cons "filter" jolt-filter) (cons "remove" jolt-remove)
(cons "reduce" jolt-reduce) (cons "into" jolt-into) (cons "concat" jolt-concat) (cons "apply" jolt-apply)
(cons "range" jolt-range) (cons "take" jolt-take) (cons "drop" jolt-drop)
(cons "keys" jolt-keys) (cons "vals" jolt-vals)
(cons "even?" jolt-even?) (cons "odd?" jolt-odd?) (cons "pos?" jolt-pos?) (cons "neg?" jolt-neg?)
(cons "zero?" jolt-zero?) (cons "identity" jolt-identity)
(cons "ex-info" jolt-ex-info)))
;; --- bindings + *ns* --------------------------------------------------------
(def-var! "clojure.core" "find-ns" jolt-find-ns)
(def-var! "clojure.core" "the-ns" jolt-the-ns)
(def-var! "clojure.core" "create-ns" jolt-create-ns)
(def-var! "clojure.core" "in-ns" jolt-in-ns)
(def-var! "clojure.core" "all-ns" jolt-all-ns)
(def-var! "clojure.core" "ns-publics" jolt-ns-publics)
(def-var! "clojure.core" "ns-map" jolt-ns-publics)
(def-var! "clojure.core" "ns-interns" jolt-ns-publics)
(def-var! "clojure.core" "ns-aliases" jolt-ns-aliases)
(def-var! "clojure.core" "ns-refers" jolt-ns-refers)
(def-var! "clojure.core" "ns-imports" jolt-ns-imports)
(def-var! "clojure.core" "resolve" jolt-resolve)
(def-var! "clojure.core" "ns-resolve" jolt-ns-resolve)
(def-var! "clojure.core" "find-var" jolt-find-var)
(def-var! "clojure.core" "ns-unmap" jolt-ns-unmap)
(def-var! "clojure.core" "remove-ns" jolt-remove-ns)
(def-var! "clojure.core" "intern" jolt-intern)
(def-var! "clojure.core" "alias" jolt-alias)
(def-var! "clojure.core" "ns-unalias" jolt-ns-unalias)
(def-var! "clojure.core" "refer" jolt-refer)
(def-var! "clojure.core" "refer-clojure" jolt-refer-clojure)
(def-var! "clojure.core" "alter-meta!" jolt-alter-meta!)
(def-var! "clojure.core" "reset-meta!" jolt-reset-meta!)
;; *ns* starts at the user namespace (the current ns for -e user code). in-ns
;; re-binds it. (ns-name is overridden natively in post-prelude.ss.)
(def-var! "clojure.core" "*ns*" (intern-ns! "user"))
;; --- printer patches: a namespace renders as its name (str / pr-str / -e) ----
(define %ns-pr-str jolt-pr-str)
(set! jolt-pr-str (lambda (x) (if (jns? x) (jns-name x) (%ns-pr-str x))))
(define %ns-pr-readable jolt-pr-readable)
(set! jolt-pr-readable (lambda (x) (if (jns? x) (jns-name x) (%ns-pr-readable x))))
(define %ns-str-render-one jolt-str-render-one)
(set! jolt-str-render-one (lambda (x) (if (jns? x) (jns-name x) (%ns-str-render-one x))))