Shaking the ring-app example's real library stack out against jolt surfaced a
batch of divergences from JVM Clojure, the biggest being evaluation order.
backend_scheme: call and recur arguments were emitted as bare Scheme operands,
so Chez's unspecified (right-to-left) order won out. Clojure evaluates left to
right, which selmer's reader loop relies on: (recur (add-node ... rdr) (read-char
rdr)) consumed a char early and dropped the first chars of every {{tag}}. Bind
operands to fresh temps in a let* (only when two or more can have side effects,
so hot calls over locals/consts stay un-wrapped). emit-ordered already did this
for collection literals; generalize it.
host-contract: syntax-quote now resolves the alias part of a qualified symbol
(impl/foo -> clojure.tools.logging.impl/foo) instead of leaving it bare, which
limped along via short-name matching until two loaded namespaces (reitit.impl,
clojure.tools.logging.impl) shared the short name and it broke.
collections: key-hash masks with bitwise-and, not fxand — jolt-hash is set!-
decorated per type (records return their own hash) and Chez's equal-hash can be a
bignum, so a key's hash isn't always a fixnum.
seq: even?/odd? handle bignums (JVM accepts any integer; the fxand crashed).
records: Keyword/Symbol .sym/.getName/.toString (honeysql's :clj branch reads
(.sym k)); Throwable .getMessage/.toString over a Chez condition.
host-static: __register-class-ctor!/__register-class-statics! so a host shim
(reitit.trie-jolt) can mirror a Java class.
natives-str: String.intern returns the string.
sqlite: jdbc.core fetch/fetch-one kebab-case column keys (the jolt-lang/db
convention; created_at -> :created-at).
io: a relative io/file path resolves against JOLT_PWD (the user's cwd), not the
repo root the launcher cd'd to — matches JVM cwd semantics, so config.edn loads.
cli: render an uncaught jolt throw (ex-info message + ex-data, or a condition)
instead of Chez's opaque "non-condition value" dump.
334 lines
17 KiB
Scheme
334 lines
17 KiB
Scheme
;; host-contract.ss (jolt-hs9n, Phase 3 inc6) — the jolt.host contract on Chez.
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;;
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;; The portable seam between jolt-core (analyzer/IR/emitter, cross-compiled to
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;; Scheme) and the host. Every
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;; contract fn is def-var!'d into the "jolt.host" namespace so the cross-compiled
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;; jolt.analyzer / jolt.backend-scheme — whose unqualified form-*/resolve-global/
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;; ... refs lower to (var-deref "jolt.host" ...) — resolve here at runtime.
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;;
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;; This is what puts analyze->IR->emit ON CHEZ (the zero-Janet spine). It runs
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;; over the Chez data reader's forms (reader.ss): symbols are symbol-t, lists are
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;; cseq (list?), () is empty-list-t, vectors/maps are pvec/pmap, sets and #tag/
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;; regex/inst/uuid are pmaps tagged :jolt/type, chars are NATIVE Chez chars.
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;;
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;; Loaded after rt.ss + reader.ss + the core prelude; before the compiler image.
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;; --- the analyze ctx --------------------------------------------------------
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;; ctx is opaque to the analyzer (only ever threaded to these contract fns); we
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;; make it a box carrying the compile namespace. The var/ns registry it consults
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;; is the global var-table (rt.ss).
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(define-record-type chez-actx (fields (mutable cns)) (nongenerative chez-actx-v1))
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(define (make-analyze-ctx ns) (make-chez-actx ns))
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;; Interned keywords reused for form tags + resolve-global's result map.
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(define hc-kw-jolt-type (keyword "jolt" "type"))
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(define hc-kw-jolt-set (keyword "jolt" "set"))
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(define hc-kw-jolt-tagged (keyword "jolt" "tagged"))
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(define hc-kw-value (keyword #f "value"))
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(define hc-kw-tag (keyword #f "tag"))
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(define hc-kw-form (keyword #f "form"))
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(define hc-kw-kind (keyword #f "kind"))
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(define hc-kw-ns (keyword #f "ns"))
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(define hc-kw-name (keyword #f "name"))
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(define hc-kw-var (keyword #f "var"))
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(define hc-kw-unresolved (keyword #f "unresolved"))
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(define hc-kw-regex (keyword #f "regex"))
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(define hc-kw-inst (keyword #f "#inst"))
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(define hc-kw-uuid (keyword #f "#uuid"))
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(define hc-kw-bigdec (keyword #f "bigdec"))
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;; --- form predicates --------------------------------------------------------
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(define (hc-sym? x) (symbol-t? x))
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;; ANY non-empty seq is a list form for analysis (a macro/eval form built via
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;; concat/map/cons is a lazy cseq with list?=#f, but evaluating it still means
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;; calling its head) — not just reader-built lists (jolt-cf1q.7).
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(define (hc-list? x) (or (empty-list-t? x) (cseq? x)))
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(define (hc-vec? x) (pvec? x))
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(define (hc-map? x) (and (pmap? x) (jolt-nil? (jolt-get x hc-kw-jolt-type))))
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;; A set form is the reader's tagged map {:jolt/type :jolt/set :value <pvec>} OR a
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;; real pset value — a macro template's #{...} expansion (syntax-quote.ss jolt-sqset)
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;; produces a pset, which the analyzer must still read as a set literal (jolt-r9lm).
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(define (hc-set? x)
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(or (pset? x)
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(and (pmap? x) (eq? (jolt-get x hc-kw-jolt-type) hc-kw-jolt-set))))
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(define (hc-char? x) (char? x))
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(define (hc-keyword? x) (keyword? x))
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(define (hc-literal? x)
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(or (jolt-nil? x) (boolean? x) (number? x) (string? x) (keyword-t? x) (char? x)))
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(define (hc-tagged-of x tag)
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(and (pmap? x)
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(eq? (jolt-get x hc-kw-jolt-type) hc-kw-jolt-tagged)
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(eq? (jolt-get x hc-kw-tag) tag)))
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(define (hc-regex? x) (hc-tagged-of x hc-kw-regex))
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(define (hc-inst? x) (hc-tagged-of x hc-kw-inst))
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(define (hc-uuid? x) (hc-tagged-of x hc-kw-uuid))
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(define (hc-bigdec? x) (hc-tagged-of x hc-kw-bigdec))
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(define (hc-bigdec-source x) (jolt-get x hc-kw-form))
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;; A live namespace value spliced into a form (e.g. `(str ~*ns*) in a macro):
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;; the analyzer can't carry an opaque runtime value, so recognize a jns and
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;; reconstruct it by name at the call site (jolt-8sha).
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(define (hc-ns-value? x) (jns? x))
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(define (hc-ns-value-name x) (jns-name x))
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;; --- form accessors ---------------------------------------------------------
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(define (hc-char-code x) (char->integer x)) ; native Chez char -> codepoint
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(define (hc-sym-name x) (symbol-t-name x))
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;; The reader stores an unqualified symbol's ns inconsistently (#f, '(), or
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;; jolt-nil — see converters.ss). The contract is jolt-nil for unqualified (the
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;; analyzer tests (nil? ns)), so normalize; a real ns string passes through.
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(define (hc-sym-ns x)
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(let ((ns (symbol-t-ns x)))
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(if (and ns (not (jolt-nil? ns)) (not (null? ns))) ns jolt-nil)))
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(define (hc-sym-meta x)
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(let ((m (symbol-t-meta x)))
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(if (and m (not (jolt-nil? m)) (not (null? m))) m jolt-nil)))
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;; list items -> jolt vector (pvec); the analyzer mapv's over the result.
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(define (hc-elements x)
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(cond ((empty-list-t? x) empty-pvec)
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((cseq? x) (make-pvec (list->vector (seq->list x))))
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(else empty-pvec)))
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(define (hc-vec-items x) x) ; already a pvec
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(define (hc-set-items x)
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(if (pset? x)
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(apply jolt-vector (pset-fold x cons '()))
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(jolt-get x hc-kw-value)))
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(define (hc-map-pairs x)
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(let ((kv (hashtable-ref rdr-map-order x #f)))
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(if kv
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;; reader-built map literal: emit pairs in SOURCE order (kv = k1 v1 k2 v2 …)
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;; so the analyzer evaluates the values left-to-right (jolt-qjr0).
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(let loop ((kv kv) (acc '()))
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(if (null? kv) (apply jolt-vector (reverse acc))
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(loop (cddr kv) (cons (jolt-vector (car kv) (cadr kv)) acc))))
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;; a runtime/non-reader map: pmap iteration order
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(let loop ((ks (if (jolt-nil? (jolt-seq (jolt-keys x))) '()
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(seq->list (jolt-seq (jolt-keys x))))) (acc '()))
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(if (null? ks) (apply jolt-vector (reverse acc))
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(loop (cdr ks) (cons (jolt-vector (car ks) (jolt-get x (car ks))) acc)))))))
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(define (hc-regex-source x) (jolt-get x hc-kw-form))
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(define (hc-inst-source x) (jolt-get x hc-kw-form))
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(define (hc-uuid-source x) (jolt-get x hc-kw-form))
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;; The Chez reader does not record source offsets yet (jolt-q2kg).
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(define (hc-form-position x) jolt-nil)
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;; --- special forms ----------------------------------------------------------
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;; Mirrors host_iface special-names + interop-head? — forms the analyzer marks
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;; uncompilable (the handled specials are dispatched in analyze-list BEFORE this).
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;; `eval` is NOT here: it is a clojure.core FUNCTION on the spine (compile-eval.ss
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;; def-var!s it), so it must resolve as an ordinary var, not punt (jolt-r8ku).
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;; `defmacro` stays special — the spine intercepts it before analysis.
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(define hc-special-names
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'("quote" "syntax-quote" "unquote" "unquote-splicing" "do" "if" "def"
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"defmacro" "fn*" "let*" "loop*" "recur" "throw" "try" "set!" "new"
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"." "gen-class" "monitor-enter" "monitor-exit" "letfn"))
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(define (hc-interop-head? name)
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(let ((n (string-length name)))
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(and (> n 1)
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(not (string=? name "..")) ; the .. threading macro, not an interop form
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(or (char=? (string-ref name 0) #\.)
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(char=? (string-ref name (- n 1)) #\.)))))
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(define (hc-special? name)
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(if (or (member name hc-special-names) (hc-interop-head? name)) #t #f))
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;; --- compile-time environment -----------------------------------------------
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(define (hc-current-ns ctx) (chez-actx-cns ctx))
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(define (hc-late-bind? ctx) #t) ; Chez has no interpreter to punt to
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;; Resolve a global symbol to its var cell against the compile ns then clojure.core
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;; (a qualified ns wins). Shared by resolve-global / form-macro? / form-expand-1.
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;; Normalizes the reader's unqualified-ns sentinel (#f / '() / jolt-nil) like
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;; hc-sym-ns, so an unqualified symbol never looks up a bogus "#f" namespace.
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(define (hc-resolve-cell ctx sym)
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(let* ((nm (symbol-t-name sym))
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(sns (symbol-t-ns sym))
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(qualified (and sns (not (jolt-nil? sns)) (not (null? sns)) sns)))
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(if qualified
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;; a qualified ns may be a require :as alias (s/split -> clojure.string/split)
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(let ((target (or (chez-resolve-alias (chez-actx-cns ctx) qualified) qualified)))
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(var-cell-lookup target nm))
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(or (var-cell-lookup (chez-actx-cns ctx) nm)
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;; a :refer'd name resolves to its source ns
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(let ((ref (chez-resolve-refer (chez-actx-cns ctx) nm)))
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(and ref (var-cell-lookup ref nm)))
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(var-cell-lookup "clojure.core" nm)))))
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;; Runtime macros (jolt-r9lm, inc6b): a defmacro is emitted into the prelude as a
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;; def-var! of its cross-compiled expander fn plus (mark-macro! ns name), so the
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;; var cell is flagged a macro (rt.ss var-macro-table). form-macro? checks the
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;; flag; form-expand-1 applies the expander to the unevaluated arg forms (the rest
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;; of the list), and the analyzer re-analyzes the returned form.
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(define (hc-macro? ctx sym)
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(macro-var? (hc-resolve-cell ctx sym)))
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(define (hc-expand-1 ctx form)
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(let* ((items (seq->list form))
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(head (car items))
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(args (cdr items))
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(expander (var-cell-root (hc-resolve-cell ctx head))))
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(apply jolt-invoke expander args)))
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;; Classify a global (non-local) symbol reference against the var registry:
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;; {:kind :var :ns NS :name NAME} — a defined var (compile ns / clojure.core)
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;; {:kind :unresolved :name NAME} — not found (late-bind -> var-ref @ compile ns;
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;; a qualified one -> host-static in the analyzer)
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;; No :host branch: there is no Janet-style native-op env on Chez — the hot
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;; clojure.core primitives (+,-,map,...) are declared in clojure.core below so
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;; they classify as :var and the emitter's native-op path lowers them.
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(define (hc-resolve-global ctx sym)
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(let* ((nm (symbol-t-name sym))
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(cell (hc-resolve-cell ctx sym)))
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(if (and cell (var-cell-defined? cell))
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(jolt-hash-map hc-kw-kind hc-kw-var
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hc-kw-ns (var-cell-ns cell)
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hc-kw-name (var-cell-name cell))
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(jolt-hash-map hc-kw-kind hc-kw-unresolved hc-kw-name nm))))
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(define (hc-intern! ctx ns-name nm) (declare-var! ns-name nm) jolt-nil)
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;; --- syntax-quote lowering (jolt-qjr0, inc7) ---------------------------------
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;; Lowers a `form
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;; to CONSTRUCTION CODE — Chez reader forms calling __sqcat/__sqvec/__sqmap/
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;; __sqset/__sq1 + quote — that the analyzer re-analyzes, so a backtick compiles
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;; with zero runtime cost (read -> macroexpand -> compile). Symbols resolve to
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;; clojure.core / the compile ns; a foo# auto-gensym is stable within one `.
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(define hc-special-symbols
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'("quote" "syntax-quote" "unquote" "unquote-splicing" "do" "if" "def"
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"defmacro" "fn*" "let*" "loop*" "recur" "throw" "try" "set!" "var"
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"new" "."))
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(define (hc-special-symbol? nm) (and (member nm hc-special-symbols) #t))
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(define hc-sq-gensym-counter 0)
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(define (hc-sq-gensym base)
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(set! hc-sq-gensym-counter (+ hc-sq-gensym-counter 1))
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(jolt-symbol #f (string-append base "__" (number->string hc-sq-gensym-counter) "__auto")))
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(define (hc-sym nm) (jolt-symbol #f nm))
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;; is `x` a non-empty list FORM whose head is the unqualified symbol `nm`?
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(define (hc-head-is? x nm)
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(and (cseq? x) (cseq-list? x)
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(let ((h (seq-first x)))
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(and (symbol-t? h) (jolt-nil? (hc-sym-ns h)) (string=? (symbol-t-name h) nm)))))
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(define (hc-second x) (seq-first (jolt-seq (seq-more x))))
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(define (hc-sq-symbol ctx form gsmap)
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(let ((sns (hc-sym-ns form)) (nm (symbol-t-name form)))
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(if (jolt-nil? sns)
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(cond
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;; foo# -> a stable per-` auto-gensym
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((and (> (string-length nm) 0)
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(char=? (string-ref nm (- (string-length nm) 1)) #\#))
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(or (hashtable-ref gsmap nm #f)
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(let ((g (hc-sq-gensym (substring nm 0 (- (string-length nm) 1)))))
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(hashtable-set! gsmap nm g) g)))
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((hc-special-symbol? nm) form) ; special form: leave bare
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((hc-interop-head? nm) form) ; interop (.method / Class. / .-field): bare
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((var-cell-lookup "clojure.core" nm) (jolt-symbol "clojure.core" nm))
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(else (jolt-symbol (chez-actx-cns ctx) nm))) ; else: qualify to compile ns
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;; qualified: if the ns part is an :as alias in the compile ns, resolve it
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;; to the target namespace — Clojure resolves the alias part of a qualified
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;; symbol in syntax-quote, so a macro's `impl/foo` expands to its real
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;; (clojure.tools.logging.impl/foo) name and stays unambiguous even when
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;; another loaded ns shares the alias's short name (jolt-qjr0). Otherwise
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;; leave it as written (a real ns or an interop class token).
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(let ((target (chez-resolve-alias (chez-actx-cns ctx) sns)))
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(if target (jolt-symbol target nm) form)))))
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(define (hc-sq-lower ctx form gsmap)
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(cond
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((hc-head-is? form "unquote") (hc-second form))
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((hc-head-is? form "unquote-splicing")
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(jolt-throw (jolt-ex-info "~@ used outside of a list or vector in syntax-quote"
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(jolt-hash-map))))
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((hc-literal? form) form)
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((symbol-t? form) (jolt-list (hc-sym "quote") (hc-sq-symbol ctx form gsmap)))
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((hc-list? form)
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(apply jolt-list (hc-sym "__sqcat")
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(map (lambda (it) (hc-sq-lower-part ctx it gsmap)) (seq->list form))))
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((hc-vec? form)
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(apply jolt-list (hc-sym "__sqvec")
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(map (lambda (it) (hc-sq-lower-part ctx it gsmap)) (seq->list form))))
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((hc-set? form)
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(apply jolt-list (hc-sym "__sqset")
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(map (lambda (it) (hc-sq-lower-part ctx it gsmap)) (seq->list (hc-set-items form)))))
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((hc-map? form)
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(apply jolt-list (hc-sym "__sqmap")
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(let loop ((pairs (seq->list (hc-map-pairs form))) (acc '()))
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(if (null? pairs) (reverse acc)
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(let ((p (seq->list (car pairs))))
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(loop (cdr pairs)
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(cons (hc-sq-lower ctx (cadr p) gsmap)
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(cons (hc-sq-lower ctx (car p) gsmap) acc))))))))
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(else (jolt-list (hc-sym "quote") form)))) ; tagged (char/regex/...) etc.
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;; a list/vector/set element: a ~@ splice passes through (its seq is spliced by
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;; __sqcat), any other item is wrapped (__sq1 <lowered>) so __sqcat flattens it.
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(define (hc-sq-lower-part ctx item gsmap)
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(if (hc-head-is? item "unquote-splicing")
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(hc-second item)
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(jolt-list (hc-sym "__sq1") (hc-sq-lower ctx item gsmap))))
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(define (hc-syntax-quote-lower ctx inner)
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(hc-sq-lower ctx inner (make-hashtable string-hash string=?)))
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(define (hc-record-type? ctx name) #f)
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(define (hc-record-ctor-key ctx name) jolt-nil)
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(define (hc-record-shapes ctx) (jolt-hash-map))
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(define (hc-inline-enabled? ctx) #f)
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(define (hc-inline-ir ctx ns-name nm) jolt-nil)
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;; --- declare the hot clojure.core primitives so resolve-global sees them ------
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;; (mirrors backend_scheme.clj native-ops keys — the emitter lowers these inline,
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;; so the declared cell's unbound root is never deref'd.)
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(for-each (lambda (nm) (declare-var! "clojure.core" nm))
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'("+" "-" "*" "/" "<" ">" "<=" ">=" "=" "inc" "dec" "not" "min" "max"
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"mod" "rem" "quot" "vector" "hash-map" "hash-set" "conj" "get" "nth" "count"
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"assoc" "dissoc" "contains?" "empty?" "peek" "pop" "first" "rest" "next" "seq"
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"cons" "list" "reverse" "last" "map" "filter" "remove" "reduce" "into" "concat"
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"apply" "range" "take" "drop" "keys" "vals" "even?" "odd?" "pos?" "neg?"
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"zero?" "identity" "ex-info"))
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;; --- install: bind the contract into the jolt.host namespace -----------------
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(define (hc-install!)
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(def-var! "jolt.host" "form-sym?" hc-sym?)
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(def-var! "jolt.host" "form-sym-name" hc-sym-name)
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(def-var! "jolt.host" "form-sym-ns" hc-sym-ns)
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(def-var! "jolt.host" "form-sym-meta" hc-sym-meta)
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(def-var! "jolt.host" "form-list?" hc-list?)
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(def-var! "jolt.host" "form-vec?" hc-vec?)
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(def-var! "jolt.host" "form-map?" hc-map?)
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(def-var! "jolt.host" "form-set?" hc-set?)
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(def-var! "jolt.host" "form-char?" hc-char?)
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(def-var! "jolt.host" "form-char-code" hc-char-code)
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(def-var! "jolt.host" "form-literal?" hc-literal?)
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(def-var! "jolt.host" "form-keyword?" hc-keyword?)
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(def-var! "jolt.host" "form-regex?" hc-regex?)
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(def-var! "jolt.host" "form-inst?" hc-inst?)
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(def-var! "jolt.host" "form-uuid?" hc-uuid?)
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(def-var! "jolt.host" "form-ns-value?" hc-ns-value?)
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(def-var! "jolt.host" "form-ns-value-name" hc-ns-value-name)
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(def-var! "jolt.host" "form-bigdec?" hc-bigdec?)
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(def-var! "jolt.host" "form-bigdec-source" hc-bigdec-source)
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(def-var! "jolt.host" "form-elements" hc-elements)
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(def-var! "jolt.host" "form-vec-items" hc-vec-items)
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(def-var! "jolt.host" "form-set-items" hc-set-items)
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(def-var! "jolt.host" "form-map-pairs" hc-map-pairs)
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(def-var! "jolt.host" "form-regex-source" hc-regex-source)
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(def-var! "jolt.host" "form-inst-source" hc-inst-source)
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(def-var! "jolt.host" "form-uuid-source" hc-uuid-source)
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(def-var! "jolt.host" "form-position" hc-form-position)
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(def-var! "jolt.host" "form-special?" hc-special?)
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(def-var! "jolt.host" "compile-ns" hc-current-ns)
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(def-var! "jolt.host" "late-bind?" hc-late-bind?)
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(def-var! "jolt.host" "form-macro?" hc-macro?)
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(def-var! "jolt.host" "form-expand-1" hc-expand-1)
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(def-var! "jolt.host" "resolve-global" hc-resolve-global)
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(def-var! "jolt.host" "host-intern!" hc-intern!)
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(def-var! "jolt.host" "form-syntax-quote-lower" hc-syntax-quote-lower)
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(def-var! "jolt.host" "record-type?" hc-record-type?)
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(def-var! "jolt.host" "record-ctor-key" hc-record-ctor-key)
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(def-var! "jolt.host" "record-shapes" hc-record-shapes)
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(def-var! "jolt.host" "inline-enabled?" hc-inline-enabled?)
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(def-var! "jolt.host" "inline-ir" hc-inline-ir))
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(hc-install!)
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