;; natives-reader.ss — reader/macro runtime-support natives: the #?() reader feature ;; set, the reader-conditional + re-matcher tagged-map constructors, and macroexpand. ;; ;; Loaded late (after ns.ss): macroexpand forward-refs the runtime macro table ;; (host-contract hc-macro?/hc-expand-1) + the analyzer ctx, resolved at call time ;; after the spine loads. The hash / transient? / rseq / cat natives that used to ;; live here moved to natives-misc, transients, natives-seq, and natives-transduce. ;; --- reader feature set (for #?() conditionals) — mutable list of name strings, ;; default jolt + default. __reader-features returns the strings; -set! replaces. (define nr-reader-features (list "jolt" "default")) (define (nr-reader-features-get) (list->cseq nr-reader-features)) (define (nr-reader-features-set! names) (set! nr-reader-features (map (lambda (n) (cond ((keyword-t? n) (keyword-t-name n)) ((string? n) n) (else (jolt-pr-str n)))) (seq->list (jolt-seq names)))) jolt-nil) ;; --- reader-conditional: a tagged map (reader-conditional? is an overlay ;; tagged-value predicate that reads :jolt/type). re-matcher / re-find / re-groups ;; are the stateful matcher API in regex.ss. (define nr-kw-type (keyword "jolt" "type")) (define nr-kw-rc (keyword "jolt" "reader-conditional")) (define nr-kw-form (keyword #f "form")) (define nr-kw-spl (keyword #f "splicing?")) (define (nr-reader-conditional form splicing?) (jolt-hash-map nr-kw-type nr-kw-rc nr-kw-form form nr-kw-spl splicing?)) ;; --- macroexpand-1 / macroexpand: expand a (quoted) call form via the runtime ;; macro table (host-contract hc-macro?/hc-expand-1; forward-referenced, resolved ;; at call time after the spine loads). macroexpand loops until the head is no ;; longer a macro (subforms are not expanded, matching Clojure). (define (nr-macroexpand-1 form) (if (and (cseq? form) (cseq-list? form) (symbol-t? (seq-first form))) (let ((ctx (make-analyze-ctx (chez-current-ns)))) (if (hc-macro? ctx (seq-first form)) (hc-expand-1 ctx form) form)) form)) (define (nr-macroexpand form) (let loop ((cur form)) (let ((nxt (nr-macroexpand-1 cur))) (if (eq? cur nxt) cur (loop nxt))))) (def-var! "clojure.core" "__reader-features" nr-reader-features-get) (def-var! "clojure.core" "__reader-features-set!" nr-reader-features-set!) (def-var! "clojure.core" "reader-conditional" nr-reader-conditional) (def-var! "clojure.core" "macroexpand-1" nr-macroexpand-1) ;; letfn is a special form (the analyzer lowers it to letrec*, checked before any ;; macro), but on the JVM it is also a clojure.core macro that (resolve 'letfn) ;; finds — like let / loop / fn here. Intern a var so resolution matches; the value ;; is never invoked (the analyzer handles every (letfn …) form), and it is NOT ;; marked a macro, so macroexpand leaves a letfn form alone (it is special). (def-var! "clojure.core" "letfn" (lambda args (jolt-throw (jolt-ex-info "letfn is a special form" (jolt-hash-map))))) (def-var! "clojure.core" "macroexpand" nr-macroexpand)