jolt/host/chez/records-interop.ss
Yogthos 7a343351d6 Make clojure.spec.alpha load and run
Four general gaps, shaken out by loading clojure.spec.alpha:

- Special forms were shadowable by a same-named macro. analyze-list
  macroexpanded before checking special forms, so a ns that redefs def/and/or
  (spec excludes them via :refer-clojure :exclude) made a bare def resolve to
  the macro instead of the special form, breaking every defn after. Now a head
  in the special-form set is never macroexpanded, matching the reference
  macroexpand1 isSpecial check.

- reify dropped all but the last arity of a multi-arity protocol method (spec
  reifies (specize* [s]) and (specize* [s _])). The macro keyed methods by name
  and overwrote; now it groups arities into one multi-arity fn.

- reify instances did not implement IObj: with-meta threw and (instance?
  clojure.lang.IObj r) was false. Every Clojure reify carries metadata. with-meta
  now copies the reify to a fresh identity (shared method table) and keys its
  meta; instance? IObj/IMeta is true for any reify. This was the registry bug —
  spec's with-name returned nil for specs, so get-spec missed.

- (set! (. Class field) val) was rejected. spec toggles
  clojure.lang.RT/checkSpecAsserts this way; the analyzer now lowers it to a
  jolt.host/set-static-field! call over a mutable-statics table, and a plain
  Class/field read consults that table.

Also: .name/.getName on a Namespace and .ns/.sym on a Var (spec's ns-qualify /
->sym). analyzer + reify are seed sources (re-minted). spec.alpha now does
valid?/conform/cat/keys/explain-str/check-asserts. tick.alpha.interval-test still
needs time-literals data readers (separate).
2026-06-24 19:46:22 -04:00

116 lines
6.2 KiB
Scheme

;; records-interop.ss — JVM-emulation taxonomy split out of records.ss: the
;; ex-info class accessors, the exception supertype hierarchy, and instance-check
;; / case-string (the (instance? Class x) decision table). Loaded right after
;; records.ss; instance-check forward-refs nothing in records.ss at load time.
;; pmap? guard: ex-info maps are plain hash-maps, never sorted-map htables — and a
;; bare jolt-get on a sorted-map would invoke its comparator on :jolt/type and throw.
(define (ex-info-map? v)
(and (pmap? v) (jolt=2 (jolt-get v jolt-kw-ex-type jolt-nil) jolt-kw-ex-info)))
(define (ex-info-class v)
(let ((c (jolt-get v jolt-kw-class jolt-nil)))
(if (string? c) c "clojure.lang.ExceptionInfo")))
;; immediate-parent chain of the JVM exception hierarchy (simple names). Drives
;; instance? across exception supertypes — (instance? Throwable (ex-info …)) etc.
(define exception-parent
'(("ExceptionInfo" . "RuntimeException")
("RuntimeException" . "Exception")
("IllegalArgumentException" . "RuntimeException")
("NumberFormatException" . "IllegalArgumentException")
("IllegalStateException" . "RuntimeException")
("UnsupportedOperationException" . "RuntimeException")
("ArithmeticException" . "RuntimeException")
("NullPointerException" . "RuntimeException")
("ClassCastException" . "RuntimeException")
("IndexOutOfBoundsException" . "RuntimeException")
("ConcurrentModificationException" . "RuntimeException")
("NoSuchElementException" . "RuntimeException")
("UncheckedIOException" . "RuntimeException")
("InterruptedException" . "Exception")
("IOException" . "Exception")
("FileNotFoundException" . "IOException")
("UnsupportedEncodingException" . "IOException")
("UnknownHostException" . "IOException")
("SocketException" . "IOException")
("ConnectException" . "IOException")
("SocketTimeoutException" . "IOException")
("MalformedURLException" . "IOException")
("SSLException" . "IOException")
("Exception" . "Throwable")
("Error" . "Throwable")
("AssertionError" . "Error")
("Throwable" . "Object")))
;; Is `wanted` (simple name) `cls` or a supertype of it? ExceptionInfo also
;; implements the IExceptionInfo interface.
(define (exception-isa? cls wanted)
(let loop ((c cls))
(cond ((not c) #f)
((string=? c wanted) #t)
((and (string=? c "ExceptionInfo") (string=? wanted "IExceptionInfo")) #t)
(else (let ((p (assoc c exception-parent))) (loop (and p (cdr p))))))))
;; instance-check: (type-sym val) — type/protocol membership. Host shims loaded
;; later (io, inst-time, natives-array, natives-queue, host-static-classes)
;; register an arm with register-instance-check-arm! instead of set!-wrapping
;; instance-check; an arm returns #t/#f to decide or 'pass to defer to the next.
;; Newest arm is checked first (matches the old outermost-wins set! order).
;; instance-check-base is the JVM taxonomy fallback when no arm decides.
(define instance-check-registry '())
(define (register-instance-check-arm! f) ; f: (type-sym val) -> #t | #f | 'pass
(set! instance-check-registry (cons f instance-check-registry)))
(define (instance-check-base type-sym val)
(let ((tname (symbol-t-name type-sym)))
(cond
((jrec? val)
(let ((tag (jrec-tag val)))
(or (string=? tag tname)
(and (> (string-length tag) (string-length tname))
(string=? (substring tag (- (string-length tag) (string-length tname)) (string-length tag)) tname)))))
((jreify? val) (let ((short (last-dot tname)))
;; every Clojure reify implements IObj/IMeta (carries metadata).
(or (member short '("IObj" "IMeta"))
(and (memp (lambda (p) (string=? (last-dot p) short)) (jreify-protos val)) #t))))
((ex-info-map? val) (exception-isa? (last-dot (ex-info-class val)) (last-dot tname)))
(else (case-string tname val)))))
(define (instance-check type-sym0 val)
;; a Class value as the type arg (instance? (class x) y) -> use its name string.
(let* ((type-sym (if (jclass? type-sym0) (jclass-name type-sym0) type-sym0))
(ts (if (and (string? type-sym)
(or (= 0 (string-length type-sym))
(not (char=? (string-ref type-sym 0) #\[))))
(jolt-symbol #f type-sym)
type-sym)))
(let loop ((rs instance-check-registry))
(if (null? rs)
(instance-check-base ts val)
(let ((r ((car rs) ts val)))
(if (eq? r 'pass) (loop (cdr rs)) r))))))
(define (case-string tname val)
(cond
((member tname '("Number" "java.lang.Number")) (number? val))
((member tname '("Long" "java.lang.Long" "Integer" "java.lang.Integer"))
(and (number? val) (exact? val) (integer? val)))
((member tname '("Double" "java.lang.Double" "Float" "java.lang.Float")) (and (number? val) (flonum? val)))
((member tname '("Ratio" "clojure.lang.Ratio")) (and (number? val) (exact? val) (rational? val) (not (integer? val))))
((member tname '("String" "java.lang.String" "CharSequence" "java.lang.CharSequence")) (string? val))
((member tname '("Boolean" "java.lang.Boolean")) (boolean? val))
((member tname '("Character" "java.lang.Character")) (char? val))
((member tname '("Keyword" "clojure.lang.Keyword")) (keyword? val))
((member tname '("Symbol" "clojure.lang.Symbol")) (jolt-symbol? val))
((member tname '("Atom" "clojure.lang.Atom")) (jolt-atom? val))
((member tname '("IFn" "clojure.lang.IFn" "Fn" "clojure.lang.Fn")) (procedure? val))
((member tname '("Pattern" "java.util.regex.Pattern")) (regex-t? val))
((member tname '("URI" "java.net.URI"))
(and (jhost? val) (string=? (jhost-tag val) "uri")))
((member tname '("File" "java.io.File")) (jfile? val))
((member tname '("UUID" "java.util.UUID")) (juuid? val))
(else #f)))
;; str of a record uses a custom (Object toString) impl if the type defines one
;; (deftype with no default toString relies on this); otherwise the map form
;; without the leading # (Clojure's record .toString). converters.ss loads before
;; records.ss, so this set! sees the registry — forward refs resolve at call time.
(def-var! "clojure.core" "instance-check" instance-check)