diff --git a/Makefile b/Makefile index 9d34ba2..134fef2 100644 --- a/Makefile +++ b/Makefile @@ -4,7 +4,7 @@ # build step. `make test` is the full gate. `make remint` rebuilds the seed after a # source change. -.PHONY: test ci values corpus unit smoke buildsmoke selfhost sci certify ffi transient remint +.PHONY: test ci values corpus unit smoke buildsmoke selfhost sci certify ffi transient infer remint # Full gate (dev machine). Includes the self-host byte-fixpoint, which only holds # on the same Chez that minted the seed. @@ -15,7 +15,7 @@ test: selfhost ci # lockfile) — it RUNS correctly on any Chez, but `selfhost` rebuilds it and a # different Chez version may emit byte-different (gensym/order) output, so the # byte-fixpoint is a dev-machine check, not a CI one (jolt-8479). -ci: values corpus unit smoke buildsmoke sci ffi transient certify +ci: values corpus unit smoke buildsmoke sci ffi transient infer certify @echo "OK: CI gates passed" # Self-host fixpoint: bootstrap.ss rebuild == checked-in seed. @@ -55,6 +55,12 @@ ffi: transient: @chez --script test/chez/transient-test.ss +# Inference / success-type checking: drive jolt.passes.types directly and assert +# diagnostic counts + collected calls/escapes (the optimization pass the other +# gates don't exercise). +infer: + @chez --script host/chez/run-infer.ss + # JVM oracle: certify the corpus against reference Clojure. Skips if clojure absent. certify: @if command -v clojure >/dev/null 2>&1; then \ diff --git a/ffi_smoke.clj b/ffi_smoke.clj new file mode 100644 index 0000000..b862010 --- /dev/null +++ b/ffi_smoke.clj @@ -0,0 +1,13 @@ +(ns ffi-smoke + (:require [jolt.ffi :as ffi])) +(ffi/load-library "libglib-2.0.dylib") +(prn :sizeof-pointer (ffi/sizeof :pointer)) +(prn :null (ffi/null)) +(prn :null? (ffi/null? (ffi/null))) +(ffi/defcfn g-get-monotonic-time "g_get_monotonic_time" [] :int64) +(prn :monotonic-time (g-get-monotonic-time)) +(let [p (ffi/alloc 16)] + (ffi/write p :int64 0 42) + (prn :wrote-and-read (ffi/read p :int64 0)) + (ffi/free p)) +(prn :done) diff --git a/host/chez/async.ss b/host/chez/async.ss index c77f093..b988bcf 100644 --- a/host/chez/async.ss +++ b/host/chez/async.ss @@ -21,20 +21,39 @@ (define (jolt-async-sliding-buffer n) (make-async-buffer n 'sliding)) ;; --- channels --------------------------------------------------------------- -;; items: a FIFO list of (value . box); box is #f for a buffered value or a 1-slot -;; vector for an unbuffered rendezvous put (set #t when taken, waking the putter). +;; items: an amortized-O(1) FIFO held as a mutable #(out in len) — `out` is the +;; front (pop from its head), `in` holds pushed entries reversed onto it, `len` is +;; the count (an append-to-a-list FIFO is O(n) per push and O(n) to measure). +;; Each entry is (value . box); box is #f for a buffered value or a 1-slot vector +;; for an unbuffered rendezvous put (set #t when taken, waking the putter). ;; cap 0 + kind 'unbuffered = rendezvous; cap>0 with kind fixed/dropping/sliding. (define-record-type async-chan (fields mu cv (mutable items) cap kind (mutable closed?) (mutable xrf)) (nongenerative async-chan-v1)) -(define (ac-qlen ch) (length (async-chan-items ch))) -(define (ac-qempty? ch) (null? (async-chan-items ch))) -(define (ac-qpush! ch entry) (async-chan-items-set! ch (append (async-chan-items ch) (list entry)))) +(define (ac-qnew) (vector '() '() 0)) +(define (ac-qlen ch) (vector-ref (async-chan-items ch) 2)) +(define (ac-qempty? ch) (fx=? 0 (vector-ref (async-chan-items ch) 2))) +(define (ac-qpush! ch entry) + (let ((q (async-chan-items ch))) + (vector-set! q 1 (cons entry (vector-ref q 1))) + (vector-set! q 2 (fx+ 1 (vector-ref q 2))))) +(define (ac-qfront! q) ; ensure `out` is non-empty: out := reverse in + (when (null? (vector-ref q 0)) + (vector-set! q 0 (reverse (vector-ref q 1))) + (vector-set! q 1 '()))) (define (ac-qpop! ch) - (let ((e (car (async-chan-items ch)))) - (async-chan-items-set! ch (cdr (async-chan-items ch))) e)) -(define (ac-qdrop-oldest! ch) (async-chan-items-set! ch (cdr (async-chan-items ch)))) + (let ((q (async-chan-items ch))) + (ac-qfront! q) + (let ((out (vector-ref q 0))) + (vector-set! q 0 (cdr out)) + (vector-set! q 2 (fx- (vector-ref q 2) 1)) + (car out)))) +(define (ac-qdrop-oldest! ch) + (let ((q (async-chan-items ch))) + (ac-qfront! q) + (vector-set! q 0 (cdr (vector-ref q 0))) + (vector-set! q 2 (fx- (vector-ref q 2) 1)))) ;; enqueue honoring the buffer kind (used by the transducer step + buffered puts). (define (ac-buf-give! ch v) @@ -54,7 +73,7 @@ ((null? (cdr args)) (car args)) ; completion (else (ac-buf-give! ch (cadr args)) (car args))))) ; step -(define (ac-make cap kind xrf) (make-async-chan (make-mutex) (make-condition) '() cap kind #f xrf)) +(define (ac-make cap kind xrf) (make-async-chan (make-mutex) (make-condition) (ac-qnew) cap kind #f xrf)) ;; (chan) | (chan n) | (chan buf) | (chan n|buf xform) (define (jolt-async-chan . args) @@ -133,11 +152,19 @@ (else ac-poll-empty)))) ;; (alts! [ch ...]) — take from whichever channel is ready first; returns -;; [value channel] (value nil if that channel closed). Take-only. +;; [value channel] (value nil if that channel closed). Take-only: every port must +;; be a channel — put specs [ch val] and the :default option are not supported, so +;; reject them with a clear error instead of crashing inside ac-poll!. ;; Polls with a 1ms backoff — no cross-channel wait-set yet. (define ac-1ms (make-time 'time-duration 1000000 0)) (define (jolt-async-alts chans) (let ((cs (seq->list (jolt-seq chans)))) + (for-each (lambda (c) + (unless (async-chan? c) + (jolt-throw (jolt-ex-info + "alts! supports channel ports only (put specs [ch val] and :default are not supported)" + (jolt-hash-map))))) + cs) (let loop () (let try ((rest cs)) (if (null? rest) diff --git a/host/chez/bigdec.ss b/host/chez/bigdec.ss index e99b62b..598acae 100644 --- a/host/chez/bigdec.ss +++ b/host/chez/bigdec.ss @@ -68,8 +68,7 @@ (else (%bd-jolt=2 a b))))) ;; str drops the M; pr/pr-str keep it. -(define %bd-str-render jolt-str-render-one) -(set! jolt-str-render-one (lambda (x) (if (jbigdec? x) (jbigdec->string x) (%bd-str-render x)))) +(register-str-render! jbigdec? jbigdec->string) (define %bd-pr-str jolt-pr-str) (set! jolt-pr-str (lambda (x) (if (jbigdec? x) (string-append (jbigdec->string x) "M") (%bd-pr-str x)))) (define %bd-pr-readable jolt-pr-readable) diff --git a/host/chez/build.ss b/host/chez/build.ss index 13b78b7..3d52646 100644 --- a/host/chez/build.ss +++ b/host/chez/build.ss @@ -27,9 +27,12 @@ (let ((l (get-line in))) (if (eof-object? l) (begin (close-port in) - (let ((s (apply string-append (reverse acc)))) - ;; trim a trailing newline-equivalent (we joined without them) - s)) + ;; rejoin with newlines (get-line stripped them). Callers use + ;; single-line output; this just avoids silently concatenating + ;; two lines into one corrupt token if a command emits more. + (let ((ls (reverse acc))) + (if (null? ls) "" + (fold-left (lambda (s x) (string-append s "\n" x)) (car ls) (cdr ls))))) (loop (cons l acc))))))) (define (bld-system cmd) @@ -138,36 +141,16 @@ (for-each (lambda (l) (bld-inline-line l out 0)) bld-runtime-manifest)) ;; --- app emission ----------------------------------------------------------- -;; Re-emit one app namespace to a list of Scheme strings. Like emit-image's -;; ei-emit-ns but WITHOUT the silent (guard ...) wrapper — a form that fails to -;; emit must fail the build, not vanish. -(define (bld-emit-ns ns-name src) - (let loop ((forms (ei-read-all src)) (acc '())) - (if (null? forms) - (reverse acc) - (let ((f (car forms))) - (ce-scan-requires! f ns-name) - (cond - ((ei-ns-form? f) (loop (cdr forms) acc)) - ((ce-macro-form? f) - (let-values (((nm fn-form) (ce-defmacro->fn f))) - (let ((scm (let ((ctx (make-analyze-ctx ns-name))) - (jolt-ce-emit (jolt-ce-analyze ctx fn-form))))) - (loop (cdr forms) - (cons (string-append - "(def-var! " (ei-str-lit ns-name) " " (ei-str-lit nm) "\n " - scm ")\n(mark-macro! " - (ei-str-lit ns-name) " " (ei-str-lit nm) ")") - acc))))) - (else - (let* ((ctx (make-analyze-ctx ns-name)) - (scm (jolt-ce-emit (jolt-ce-analyze ctx f)))) - (loop (cdr forms) (cons scm acc))))))))) +;; Re-emit one app namespace to a list of Scheme strings: optimize (run-passes) +;; and stay strict — a form that fails to emit must fail the build, not vanish. +;; The loop itself is emit-image's ei-emit-ns* (optimize? #t, guard? #f). +(define (bld-emit-ns ns-name src) (ei-emit-ns* ns-name src #t #f)) ;; --- the build -------------------------------------------------------------- ;; entry-ns: the app's main namespace (a string). out-path: the binary to write. -;; mode: "dev" | "release" | "optimized" (recorded; optimization passes wired in a -;; later stage). Deps + source roots are already applied by the caller. +;; mode: "dev" | "release" | "optimized". Every form runs through jolt.passes/ +;; run-passes (const-fold always; inline + type inference when optimized turns on +;; direct-linking). Deps + source roots are already applied by the caller. (define (build-binary entry-ns out-path mode) (bld-check-toolchain) ;; 1. record app namespaces in dependency order as they finish loading. @@ -181,9 +164,7 @@ (error 'jolt-build (string-append "no source namespace loaded for " entry-ns " — is it on the source roots?"))) ;; 2. emit each app namespace. `optimized` turns on the inference + flatten - ;; + scalar-replace passes (closed world). release/dev stay on proven - ;; var-deref codegen until those passes are validated on Chez — they were - ;; dormant before `jolt build` (inline-enabled? was hardwired off). + ;; + scalar-replace passes (closed world); release/dev get const-fold only. (set-optimize! (string=? mode "optimized")) (let* ((app-strs (apply append (map (lambda (nf) (bld-emit-ns (car nf) (read-file-string (cdr nf)))) diff --git a/host/chez/collections.ss b/host/chez/collections.ss index aa0b8cc..c538b73 100644 --- a/host/chez/collections.ss +++ b/host/chez/collections.ss @@ -243,7 +243,8 @@ (cond ((pvec? coll) (let ((v (pvec-v coll))) (if (and (fx>=? i 0) (fx=? i 0) (fx Scheme source string (read then analyze -> emit, all on Chez). -(define (jolt-analyze-emit src ns) - (jolt-analyze-emit-form (jolt-ce-read src) ns)) - ;; --- runtime defmacro ------------------------------------------------------- ;; Shared with emit-image.ss (loaded after this). A defmacro lowers to a def of ;; its expander fn + a macro flag, exactly as the prelude emits build-time macros. diff --git a/host/chez/concurrency.ss b/host/chez/concurrency.ss index 15a79fd..71328a2 100644 --- a/host/chez/concurrency.ss +++ b/host/chez/concurrency.ss @@ -96,7 +96,6 @@ #t))))) cancelled)) -(define (jolt-future-done?* f) (and (jolt-future? f) (jolt-future-done? f))) (define (jolt-native-future-done? x) (if (jolt-future? x) (jolt-future-done? x) (jolt-throw (jolt-ex-info "future-done? requires a future" (jolt-hash-map))))) @@ -158,22 +157,34 @@ (let loop ((o opts) (validator jolt-nil)) (cond ((or (null? o) (null? (cdr o))) - (make-jolt-agent state jolt-nil validator '() #f (make-mutex) (make-condition))) + (make-jolt-agent state jolt-nil validator (vector '() '()) #f (make-mutex) (make-condition))) ((and (keyword-t? (car o)) (string=? (keyword-t-name (car o)) "validator")) (loop (cddr o) (cadr o))) (else (loop (cddr o) validator))))) +;; The action queue is an amortized-O(1) FIFO held as a mutable #(out in): `out` is +;; the front, `in` holds sends reversed onto it (an append-to-a-list send was O(n)). +;; All three helpers run under the agent mutex. +(define (jagent-q-empty? a) + (let ((q (jolt-agent-queue a))) (and (null? (vector-ref q 0)) (null? (vector-ref q 1))))) +(define (jagent-q-push! a entry) + (let ((q (jolt-agent-queue a))) (vector-set! q 1 (cons entry (vector-ref q 1))))) +(define (jagent-q-pop! a) + (let ((q (jolt-agent-queue a))) + (when (null? (vector-ref q 0)) + (vector-set! q 0 (reverse (vector-ref q 1))) (vector-set! q 1 '())) + (let ((out (vector-ref q 0))) (vector-set! q 0 (cdr out)) (car out)))) + ;; Drain the queue, applying each action (f state arg*) outside the lock (an action ;; may send/deref the same agent). A validator rejection or a thrown action puts the ;; agent in an error state and halts the queue (JVM :fail mode). (define (jolt-agent-worker a) (let loop () (let ((act (with-mutex (jolt-agent-mu a) - (if (or (not (jolt-nil? (jolt-agent-err a))) (null? (jolt-agent-queue a))) + (if (or (not (jolt-nil? (jolt-agent-err a))) (jagent-q-empty? a)) (begin (jolt-agent-running?-set! a #f) (condition-broadcast (jolt-agent-cv a)) #f) - (let ((x (car (jolt-agent-queue a)))) - (jolt-agent-queue-set! a (cdr (jolt-agent-queue a))) x))))) + (jagent-q-pop! a))))) (when act (guard (e (#t (with-mutex (jolt-agent-mu a) (jolt-agent-err-set! a e) @@ -190,7 +201,7 @@ ;; the JVM's fixed/cached pool split.) (define (jolt-agent-send a f . args) (with-mutex (jolt-agent-mu a) - (jolt-agent-queue-set! a (append (jolt-agent-queue a) (list (cons f args)))) + (jagent-q-push! a (cons f args)) (unless (jolt-agent-running? a) (jolt-agent-running?-set! a #t) (fork-thread (lambda () (jolt-agent-worker a))))) @@ -202,7 +213,7 @@ (lambda (a) (with-mutex (jolt-agent-mu a) (let loop () - (when (or (jolt-agent-running? a) (pair? (jolt-agent-queue a))) + (when (or (jolt-agent-running? a) (not (jagent-q-empty? a))) (condition-wait (jolt-agent-cv a) (jolt-agent-mu a)) (loop))))) agents) jolt-nil) diff --git a/host/chez/converters.ss b/host/chez/converters.ss index 5f5e589..04bf7c4 100644 --- a/host/chez/converters.ss +++ b/host/chez/converters.ss @@ -3,8 +3,19 @@ ;; the printer. int/long truncate toward zero to an exact integer; compare returns ;; an exact -1/0/1; double yields a flonum. -;; str: nil -> "", string raw, char bare (not \c), regex -> raw source, else the -;; printer (which renders collections with readable elements). +;; str rendering for the value types not handled by the fast arms below. A host +;; shim loaded later (records, host-table, inst-time, …) registers an arm with +;; register-str-render! instead of set!-wrapping jolt-str-render-one — the arms +;; are type-disjoint, so the full behavior is the base arms here plus the +;; registry, gathered in one place rather than scattered across a set! chain. +;; Newest registration is checked first (matches the old outermost-wins order). +(define str-render-registry '()) ; list of (pred . render), checked front-to-back +(define (register-str-render! pred render) + (set! str-render-registry (cons (cons pred render) str-render-registry))) + +;; str: nil -> "", string raw, char bare (not \c), regex -> raw source, a +;; registered host type via its arm, else the printer (which renders collections +;; with readable elements). (define (jolt-str-render-one v) (cond ((jolt-nil? v) "") @@ -16,7 +27,12 @@ ((and (flonum? v) (fl= v +inf.0)) "Infinity") ((and (flonum? v) (fl= v -inf.0)) "-Infinity") ((and (flonum? v) (not (fl= v v))) "NaN") - (else (jolt-pr-str v)))) + (else + (let loop ((rs str-render-registry)) + (cond + ((null? rs) (jolt-pr-str v)) + (((caar rs) v) ((cdar rs) v)) + (else (loop (cdr rs)))))))) (define (jolt-str . xs) (let loop ((xs xs) (acc '())) (if (null? xs) diff --git a/host/chez/emit-image.ss b/host/chez/emit-image.ss index 9c0fdf1..d59ca6e 100644 --- a/host/chez/emit-image.ss +++ b/host/chez/emit-image.ss @@ -35,7 +35,27 @@ ;; + alias tables, not ctx-accumulated state, so this matches the spine's per-form ;; analyze. A defmacro emits its expander fn as (def-var! ns name ) + ;; (mark-macro! ns name) so the on-Chez analyzer can expand it. -(define (ei-emit-ns ns-name src) +;; Analyze -> (optionally run passes) -> emit one form. optimize? runs +;; jolt.passes/run-passes (build optimizes; the seed minter stays un-optimized so +;; the self-host fixpoint is independent of the passes). +(define (ei-compile-form ctx f optimize?) + (let ((ir (jolt-ce-analyze ctx f))) + (jolt-ce-emit (if optimize? (jolt-ce-run-passes ir ctx) ir)))) + +;; The emitted `(def-var! …)(mark-macro! …)` pair for a defmacro, guard-wrapped +;; (tolerant) or bare (strict) to match guard?. +(define (ei-macro-string ns-name nm scm guard?) + (if guard? + (string-append "(guard (e (#t #f))\n (def-var! " (ei-str-lit ns-name) " " (ei-str-lit nm) + "\n " scm ")\n (mark-macro! " (ei-str-lit ns-name) " " (ei-str-lit nm) "))") + (string-append "(def-var! " (ei-str-lit ns-name) " " (ei-str-lit nm) "\n " scm + ")\n(mark-macro! " (ei-str-lit ns-name) " " (ei-str-lit nm) ")"))) + +;; Cross-compile one namespace's source to a list of Scheme strings — shared by +;; the seed minter (ei-emit-ns: optimize? #f, guard? #t — tolerant, skips a form +;; that fails to emit) and `jolt build` (bld-emit-ns: optimize? #t, guard? #f — +;; strict, a failing form errors the build). +(define (ei-emit-ns* ns-name src optimize? guard?) (let loop ((forms (ei-read-all src)) (acc '())) (if (null? forms) (reverse acc) @@ -45,35 +65,38 @@ ((ei-ns-form? f) (loop (cdr forms) acc)) ((ce-macro-form? f) (let-values (((nm fn-form) (ce-defmacro->fn f))) - (let ((scm (guard (e (#t #f)) - (let ((ctx (make-analyze-ctx ns-name))) - (jolt-ce-emit (jolt-ce-analyze ctx fn-form)))))) + (let ((scm (if guard? + (guard (e (#t #f)) (ei-compile-form (make-analyze-ctx ns-name) fn-form optimize?)) + (ei-compile-form (make-analyze-ctx ns-name) fn-form optimize?)))) (loop (cdr forms) - (if scm - (cons (string-append - "(guard (e (#t #f))\n (def-var! " - (ei-str-lit ns-name) " " (ei-str-lit nm) "\n " - scm ")\n (mark-macro! " - (ei-str-lit ns-name) " " (ei-str-lit nm) "))") - acc) - acc))))) + (if (and guard? (not scm)) acc + (cons (ei-macro-string ns-name nm scm guard?) acc)))))) (else - (let* ((ctx (make-analyze-ctx ns-name)) - (scm (guard (e (#t #f)) (jolt-ce-emit (jolt-ce-analyze ctx f))))) + (let ((scm (if guard? + (guard (e (#t #f)) (ei-compile-form (make-analyze-ctx ns-name) f optimize?)) + (ei-compile-form (make-analyze-ctx ns-name) f optimize?)))) (loop (cdr forms) - (if scm - (cons (string-append "(guard (e (#t #f))\n " scm ")") acc) - acc))))))))) + (if (and guard? (not scm)) acc + (cons (if guard? (string-append "(guard (e (#t #f))\n " scm ")") scm) acc)))))))))) + +(define (ei-emit-ns ns-name src) (ei-emit-ns* ns-name src #f #t)) ;; Scheme string literal for a ns/name — uses the runtime's own writer ;; (printable ASCII identifiers only here). (define (ei-str-lit s) (with-output-to-string (lambda () (write s)))) -;; The compiler namespaces, in load order. +;; The compiler namespaces, in load order. The passes (fold/inline/types + the +;; jolt.passes façade) load after ir so run-passes is available to the back end; +;; fold/inline/types come before the façade that :refers them. (define ei-compiler-ns-files (list (cons "jolt.ir" "jolt-core/jolt/ir.clj") (cons "jolt.analyzer" "jolt-core/jolt/analyzer.clj") - (cons "jolt.backend-scheme" "jolt-core/jolt/backend_scheme.clj"))) + (cons "jolt.backend-scheme" "jolt-core/jolt/backend_scheme.clj") + (cons "jolt.passes.fold" "jolt-core/jolt/passes/fold.clj") + (cons "jolt.passes.inline" "jolt-core/jolt/passes/inline.clj") + (cons "jolt.passes.types.lattice" "jolt-core/jolt/passes/types/lattice.clj") + (cons "jolt.passes.types" "jolt-core/jolt/passes/types.clj") + (cons "jolt.passes" "jolt-core/jolt/passes.clj"))) ;; The clojure.core tiers + stdlib namespaces, in load order. ;; Re-emitting these on Chez is the @@ -81,7 +104,7 @@ (define ei-prelude-ns-files (append (map (lambda (tf) (cons "clojure.core" (string-append "jolt-core/clojure/core/" tf ".clj"))) - '("00-syntax" "00-kernel" "10-seq" "20-coll" "25-sorted" "30-macros" "40-lazy" "50-io")) + '("00-syntax" "00-kernel" "10-seq" "20-coll" "21-coll" "22-coll" "25-sorted" "30-macros" "40-lazy" "50-io")) (list (cons "clojure.string" "stdlib/clojure/string.clj") (cons "clojure.walk" "stdlib/clojure/walk.clj") (cons "clojure.template" "stdlib/clojure/template.clj") diff --git a/host/chez/host-static-objects.ss b/host/chez/host-static-objects.ss new file mode 100644 index 0000000..c0fffc4 --- /dev/null +++ b/host/chez/host-static-objects.ss @@ -0,0 +1,502 @@ +;; host-static-objects.ss — host object classes (ArrayList, HashMap, the +;; String/Reader/Writer/Tokenizer shims, BigInteger/MapEntry ctors, URL codecs) +;; and the tagged-table method dispatch + pluggable instance? hook. Continues +;; host-static-statics.ss; loaded last of the three. + +;; ---- java.util.ArrayList ---------------------------------------------------- +;; A mutable list backed by a growable Scheme vector. State is #(backing count); +;; .add amortizes O(1) and .get is O(1) (a list backing made both O(n)). medley's +;; stateful transducers (window / partition-between) build one with .add / .size / +;; .toArray / .clear / .remove. (ArrayList.) | (ArrayList. n) | (ArrayList. coll). +(define al-min-cap 8) +(define (al-vec self) (vector-ref (jhost-state self) 0)) +(define (al-cnt self) (vector-ref (jhost-state self) 1)) +(define (al-cnt! self n) (vector-set! (jhost-state self) 1 n)) +(define (make-arraylist xs) ; xs: a Scheme list of initial elements + (let* ((n (length xs)) (cap (fxmax al-min-cap n)) (v (make-vector cap jolt-nil))) + (let loop ((i 0) (xs xs)) (when (pair? xs) (vector-set! v i (car xs)) (loop (fx+ i 1) (cdr xs)))) + (make-jhost "arraylist" (vector v n)))) +(define (al-ensure! self need) ; grow the backing vector (doubling) to fit `need` + (let ((v (al-vec self))) + (when (fx>? need (vector-length v)) + (let grow ((cap (fxmax al-min-cap (vector-length v)))) + (if (fx? j i) (vector-set! v j (vector-ref v (fx- j 1))) (shift (fx- j 1)))) + (vector-set! v i x) (al-cnt! self (fx+ n 1))))) +(define (al-remove-at! self i) + (let ((n (al-cnt self)) (v (al-vec self))) + (let shift ((j i)) (when (fxlist self) ; first `count` elements as a Scheme list + (let ((v (al-vec self))) + (let loop ((i (fx- (al-cnt self) 1)) (acc '())) (if (fxlist (jolt-seq (car args)))))))) +(register-class-ctor! "java.util.ArrayList" + (lambda args + (cond ((null? args) (make-arraylist '())) + ((number? (car args)) (make-arraylist '())) + (else (make-arraylist (seq->list (jolt-seq (car args)))))))) +(register-host-methods! "arraylist" + (list + (cons "add" (lambda (self . a) + ;; (.add x) -> append+true; (.add i x) -> insert at i, returns nil. + (if (= 1 (length a)) + (begin (al-push! self (car a)) #t) + (begin (al-insert-at! self (jnum->exact (car a)) (cadr a)) jolt-nil)))) + (cons "add!" (lambda (self x) (al-push! self x) #t)) + (cons "get" (lambda (self i) (vector-ref (al-vec self) (jnum->exact i)))) + (cons "set" (lambda (self i x) + (let* ((idx (jnum->exact i)) (old (vector-ref (al-vec self) idx))) + (vector-set! (al-vec self) idx x) old))) + (cons "size" (lambda (self) (->num (al-cnt self)))) + (cons "isEmpty" (lambda (self) (fx=? 0 (al-cnt self)))) + (cons "remove" (lambda (self i) + (let* ((idx (jnum->exact i)) (old (vector-ref (al-vec self) idx))) + (al-remove-at! self idx) old))) + (cons "clear" (lambda (self) (vector-set! (jhost-state self) 0 (make-vector al-min-cap jolt-nil)) (al-cnt! self 0) jolt-nil)) + (cons "contains" (lambda (self x) (and (memp (lambda (e) (jolt=2 e x)) (al->list self)) #t))) + (cons "toArray" (lambda (self . _) (apply jolt-vector (al->list self)))) + (cons "iterator" (lambda (self) (make-jiterator (list->cseq (al->list self))))) + (cons "toString" (lambda (self) (jolt-pr-str (list->cseq (al->list self))))))) + +(register-class-ctor! "StringBuilder" + (lambda args (make-jhost "string-builder" + ;; a numeric first arg is a CAPACITY hint, not content. + (vector (if (and (pair? args) (not (number? (car args)))) (render-piece (car args)) ""))))) +(register-host-methods! "string-builder" + (list (cons "append" (lambda (self x) (sb-set! self (string-append (sb-str self) (render-piece x))) self)) + (cons "toString" (lambda (self) (sb-str self))) + (cons "length" (lambda (self) (->num (string-length (sb-str self))))) + (cons "charAt" (lambda (self i) (string-ref (sb-str self) (jnum->exact i)))) + (cons "setLength" (lambda (self n) + (let ((cur (sb-str self)) (n (jnum->exact n))) + (sb-set! self (if (< n (string-length cur)) + (substring cur 0 n) + (string-append cur (make-string (- n (string-length cur)) #\nul))))) + jolt-nil)))) + +;; ---- StringWriter ----------------------------------------------------------- +;; Writer.write(int) writes the CHAR for that code; append(char) appends the char. +(define (writer-piece x) (if (number? x) (string (integer->char (jnum->exact x))) (render-piece x))) +(register-class-ctor! "StringWriter" (lambda args (make-jhost "writer" (vector "")))) +(register-host-methods! "writer" + (list (cons "write" (lambda (self x) (sb-set! self (string-append (sb-str self) (writer-piece x))) jolt-nil)) + (cons "append" (lambda (self x) (sb-set! self (string-append (sb-str self) (render-piece x))) self)) + (cons "flush" (lambda (self) jolt-nil)) + (cons "close" (lambda (self) jolt-nil)) + (cons "toString" (lambda (self) (sb-str self))))) + +;; a file-backed writer (clojure.java.io/writer of a File/path): accumulates like +;; StringWriter, then persists to the path on flush/close, so +;; (with-open [w (io/writer "f")] (.write w …)) writes the file. State #(path buf). +(define (fw-path self) (vector-ref (jhost-state self) 0)) +(define (fw-buf self) (vector-ref (jhost-state self) 1)) +(define (fw-append! self s) (vector-set! (jhost-state self) 1 (string-append (fw-buf self) s))) +(define (fw-flush! self) (jolt-spit (fw-path self) (fw-buf self))) ; jolt-spit: io.ss +(register-host-methods! "file-writer" + (list (cons "write" (lambda (self x) (fw-append! self (writer-piece x)) jolt-nil)) + (cons "append" (lambda (self x) (fw-append! self (render-piece x)) self)) + (cons "flush" (lambda (self) (fw-flush! self) jolt-nil)) + (cons "close" (lambda (self) (fw-flush! self) jolt-nil)) + (cons "toString" (lambda (self) (fw-buf self))))) + +;; a writer over a real Chez port — the values *out* / *err* hold. write/append +;; push to the port (so (.write *out* s) and (binding [*out* *err*] …) work); +;; it isn't a buffer, so toString is empty. Lets libraries that touch *out*/*err* +;; (tools.logging, selmer) compile and run. +(register-host-methods! "port-writer" + (list (cons "write" (lambda (self x) (display (writer-piece x) (vector-ref (jhost-state self) 0)) jolt-nil)) + (cons "append" (lambda (self x) (display (render-piece x) (vector-ref (jhost-state self) 0)) self)) + (cons "flush" (lambda (self) (flush-output-port (vector-ref (jhost-state self) 0)) jolt-nil)) + (cons "close" (lambda (self) jolt-nil)) + (cons "toString" (lambda (self) "")))) +(def-var! "clojure.core" "*out*" (make-jhost "port-writer" (vector (current-output-port)))) +(def-var! "clojure.core" "*err*" (make-jhost "port-writer" (vector (current-error-port)))) + +;; ---- java.util.HashMap ------------------------------------------------------ +;; A mutable map keyed by jolt values (jolt-hash / jolt=2). State #(chez-hashtable). +;; Constructors: () | (capacity) | (capacity load-factor) [sizing args ignored] | +;; (Map m) [copy]. Enough of the Map surface for libraries that build a fast lookup +;; (malli's fast-registry: (doto (HashMap. 1024 0.25) (.putAll m)) then .get). +(define (hm-hash k) (let ((h (jolt-hash k))) + (bitwise-and (if (and (integer? h) (exact? h)) (abs h) 0) #x3FFFFFFF))) +(define (hm-tbl self) (vector-ref (jhost-state self) 0)) +(define (hm-hashmap? x) (and (jhost? x) (string=? (jhost-tag x) "hashmap"))) +(define (hm-copy-into! ht src) ; src: a jolt map or another hashmap + (if (hm-hashmap? src) + (vector-for-each (lambda (k) (hashtable-set! ht k (hashtable-ref (hm-tbl src) k jolt-nil))) + (hashtable-keys (hm-tbl src))) + (for-each (lambda (e) (hashtable-set! ht (jolt-nth e 0) (jolt-nth e 1))) + (seq->list (jolt-seq src))))) +(register-class-ctor! "HashMap" + (lambda args + (let ((ht (make-hashtable hm-hash jolt=2))) + (when (and (pair? args) (or (pmap? (car args)) (hm-hashmap? (car args)))) + (hm-copy-into! ht (car args))) + (make-jhost "hashmap" (vector ht))))) +(define (hm->pmap self) + (let ((m (jolt-hash-map))) + (vector-for-each (lambda (k) (set! m (jolt-assoc m k (hashtable-ref (hm-tbl self) k jolt-nil)))) + (hashtable-keys (hm-tbl self))) + m)) +(register-host-methods! "hashmap" + (list (cons "put" (lambda (self k v) (let ((old (hashtable-ref (hm-tbl self) k jolt-nil))) + (hashtable-set! (hm-tbl self) k v) old))) + (cons "get" (lambda (self k) (hashtable-ref (hm-tbl self) k jolt-nil))) + (cons "getOrDefault" (lambda (self k d) (hashtable-ref (hm-tbl self) k d))) + (cons "containsKey" (lambda (self k) (if (hashtable-contains? (hm-tbl self) k) #t #f))) + (cons "containsValue" (lambda (self v) + (let ((found #f)) + (vector-for-each (lambda (k) (when (jolt=2 v (hashtable-ref (hm-tbl self) k jolt-nil)) (set! found #t))) + (hashtable-keys (hm-tbl self))) found))) + (cons "size" (lambda (self) (hashtable-size (hm-tbl self)))) + (cons "isEmpty" (lambda (self) (= 0 (hashtable-size (hm-tbl self))))) + (cons "remove" (lambda (self k) (let ((old (hashtable-ref (hm-tbl self) k jolt-nil))) + (hashtable-delete! (hm-tbl self) k) old))) + (cons "clear" (lambda (self) (hashtable-clear! (hm-tbl self)) jolt-nil)) + (cons "putAll" (lambda (self m) (hm-copy-into! (hm-tbl self) m) jolt-nil)) + (cons "keySet" (lambda (self) (apply jolt-hash-set (vector->list (hashtable-keys (hm-tbl self)))))) + (cons "values" (lambda (self) (apply jolt-vector + (map (lambda (k) (hashtable-ref (hm-tbl self) k jolt-nil)) + (vector->list (hashtable-keys (hm-tbl self))))))) + (cons "entrySet" (lambda (self) (jolt-seq (hm->pmap self)))) + (cons "toString" (lambda (self) (jolt-pr-str (hm->pmap self)))))) + +;; ---- StringReader ----------------------------------------------------------- +;; state: a vector #(string pos marked). +(register-class-ctor! "StringReader" + ;; src is a String or a char[] ((StringReader. (char-array s)) — selmer's parser + ;; reads templates this way); a char-array becomes the string of its chars. + (lambda (src . _) + (make-jhost "string-reader" + (vector (cond ((string? src) src) + ((jolt-array? src) (apply string-append (map jolt-str-render-one (seq->list (jolt-seq src))))) + (else (jolt-str-render-one src))) + 0 0)))) +(define (sr-s self) (vector-ref (jhost-state self) 0)) +(define (sr-pos self) (vector-ref (jhost-state self) 1)) +(define (sr-pos! self p) (vector-set! (jhost-state self) 1 p)) +(register-host-methods! "string-reader" + (list (cons "read" (lambda (self) + (let ((s (sr-s self)) (p (sr-pos self))) + (if (>= p (string-length s)) -1 ; EOF -> exact int -1 (= JVM) + (begin (sr-pos! self (+ p 1)) (->num (char->integer (string-ref s p)))))))) + (cons "mark" (lambda (self . _) (vector-set! (jhost-state self) 2 (sr-pos self)) jolt-nil)) + (cons "reset" (lambda (self) (sr-pos! self (vector-ref (jhost-state self) 2)) jolt-nil)) + (cons "skip" (lambda (self n) (let ((n (jnum->exact n))) + (sr-pos! self (min (string-length (sr-s self)) (+ (sr-pos self) n))) (->num n)))) + ;; readLine: the next line without its terminator (\n or \r\n), nil at EOF — + ;; what line-seq drives over a BufferedReader. + (cons "readLine" + (lambda (self) + (let ((s (sr-s self)) (p (sr-pos self)) (len (string-length (sr-s self)))) + (if (>= p len) jolt-nil + (let scan ((i p)) + (cond + ((>= i len) (sr-pos! self len) (substring s p len)) + ((char=? (string-ref s i) #\newline) + (sr-pos! self (+ i 1)) + (substring s p (if (and (> i p) (char=? (string-ref s (- i 1)) #\return)) (- i 1) i))) + (else (scan (+ i 1))))))))) + (cons "close" (lambda (self) jolt-nil)))) + +;; ---- PushbackReader --------------------------------------------------------- +;; state: a vector #(wrapped-reader pushed-list) +(register-class-ctor! "PushbackReader" + (lambda (rdr . _) (make-jhost "pushback-reader" (vector rdr '())))) +(define (read-unit r) ; read one code unit (flonum) from any reader, -1 at EOF + (record-method-dispatch r "read" jolt-nil)) +(register-host-methods! "pushback-reader" + (list (cons "read" (lambda (self) + (let ((pushed (vector-ref (jhost-state self) 1))) + (if (pair? pushed) + (begin (vector-set! (jhost-state self) 1 (cdr pushed)) (car pushed)) + (read-unit (vector-ref (jhost-state self) 0)))))) + (cons "unread" (lambda (self ch) + (vector-set! (jhost-state self) 1 + (cons (if (char? ch) (->num (char->integer ch)) ch) (vector-ref (jhost-state self) 1))) + jolt-nil)) + (cons "close" (lambda (self) jolt-nil)))) + +;; ---- StringTokenizer -------------------------------------------------------- +;; state: a vector #(tokens-list pos) +(define (tokenize s delims) + (let ((dset (string->list delims))) + (let loop ((chars (string->list s)) (cur '()) (toks '())) + (cond ((null? chars) (reverse (if (null? cur) toks (cons (list->string (reverse cur)) toks)))) + ((memv (car chars) dset) + (loop (cdr chars) '() (if (null? cur) toks (cons (list->string (reverse cur)) toks)))) + (else (loop (cdr chars) (cons (car chars) cur) toks)))))) +(register-class-ctor! "StringTokenizer" + (lambda (s . delims) (make-jhost "string-tokenizer" + (vector (tokenize (if (string? s) s (jolt-str-render-one s)) + (if (null? delims) " \t\n\r\f" (car delims))) 0)))) +(register-host-methods! "string-tokenizer" + (list (cons "hasMoreTokens" (lambda (self) (< (vector-ref (jhost-state self) 1) (length (vector-ref (jhost-state self) 0))))) + (cons "countTokens" (lambda (self) (->num (- (length (vector-ref (jhost-state self) 0)) (vector-ref (jhost-state self) 1))))) + (cons "nextToken" (lambda (self) + (let ((toks (vector-ref (jhost-state self) 0)) (p (vector-ref (jhost-state self) 1))) + (if (< p (length toks)) + (begin (vector-set! (jhost-state self) 1 (+ p 1)) (list-ref toks p)) + (error #f "NoSuchElementException"))))))) + +;; ---- String / BigInteger / MapEntry constructors ---------------------------- +;; (String. bytes [charset]) decodes bytes (a bytevector OR a jolt byte-array) +;; with the named charset (UTF-8 default; ISO-8859-1/latin1/ascii = one byte per +;; char); else stringify. clj-http-lite's body coercion is (String. ^[B body cs). +(define (string-charset-name rest) + (if (pair? rest) + (let ((c (car rest))) + (cond ((string? c) c) + ((and (jhost? c) (string=? (jhost-tag c) "charset")) + (let ((p (assq 'name (jhost-state c)))) (if p (jolt-str-render-one (cdr p)) "UTF-8"))) + (else "UTF-8"))) + "UTF-8")) +(define (decode-bytevector bv rest) + (let ((cs (ascii-string-down (string-charset-name rest)))) + (cond + ((or (string=? cs "utf-8") (string=? cs "utf8")) (utf8->string bv)) + ((or (string=? cs "iso-8859-1") (string=? cs "latin1") (string=? cs "iso8859-1") + (string=? cs "us-ascii") (string=? cs "ascii")) + (list->string (map integer->char (bytevector->u8-list bv)))) + ((or (string=? cs "utf-16") (string=? cs "utf16") (string=? cs "utf-16be") (string=? cs "unicode")) + (utf16->string bv (endianness big))) ; respects a leading BOM + ((string=? cs "utf-16le") (utf16->string bv (endianness little))) + ((or (string=? cs "utf-32") (string=? cs "utf32") (string=? cs "utf-32be")) + (utf32->string bv (endianness big))) + ((string=? cs "utf-32le") (utf32->string bv (endianness little))) + (else (guard (e (#t (list->string (map integer->char (bytevector->u8-list bv))))) (utf8->string bv)))))) +(register-class-ctor! "String" + (lambda (x . rest) + (cond ((bytevector? x) (decode-bytevector x rest)) + ((and (jolt-array? x) (eq? (jolt-array-kind x) 'byte)) (decode-bytevector (na-bytearray->bv x) rest)) + ((string? x) x) + (else (jolt-str-render-one x))))) +(register-class-ctor! "BigInteger" + (lambda (v) (parse-int-or-throw v 10 "BigInteger"))) +(register-class-ctor! "MapEntry" (lambda (k v) (make-map-entry k v))) +;; JVM exception ctors -> a typed host throwable carrying the canonical :jolt/class +;; (so class / instance? / getMessage / ex-message reflect the real type) and the +;; message. Supports (E. msg), (E. msg cause), (E. cause), and (E.). +(for-each + (lambda (nm) + (let ((canonical (or (resolve-class-hint nm) nm))) + (register-class-ctor! nm + (lambda args + (let* ((a0 (if (pair? args) (car args) jolt-nil)) + (rest (if (pair? args) (cdr args) '())) + (cause (if (pair? rest) (car rest) jolt-nil))) + (cond + ((string? a0) (jolt-host-throwable canonical a0 cause)) + ((jolt-nil? a0) (jolt-host-throwable canonical jolt-nil)) + ;; (E. cause): a lone throwable arg is the cause, message nil. + ((and (null? rest) (ex-info-map? a0)) (jolt-host-throwable canonical jolt-nil a0)) + (else (jolt-host-throwable canonical (jolt-str-render-one a0) cause)))))))) + '("Throwable" "Exception" "RuntimeException" "IllegalArgumentException" "IllegalStateException" + "InterruptedException" "UnsupportedOperationException" "IOException" "NumberFormatException" + "ArithmeticException" "NullPointerException" "ClassCastException" "IndexOutOfBoundsException" + "FileNotFoundException" "UnsupportedEncodingException")) + +;; ---- URLEncoder / URLDecoder (www-form-urlencoded) -------------------------- +(define (url-unreserved? b) + (or (and (>= b 48) (<= b 57)) (and (>= b 65) (<= b 90)) (and (>= b 97) (<= b 122)) + (= b 46) (= b 42) (= b 95) (= b 45))) +(define hex-digits "0123456789ABCDEF") +(define (url-encode s . _) + (let ((bs (string->utf8 (if (string? s) s (jolt-str-render-one s)))) (out '())) + (let loop ((i 0)) + (if (= i (bytevector-length bs)) (list->string (reverse out)) + (let ((b (bytevector-u8-ref bs i))) + (cond ((url-unreserved? b) (set! out (cons (integer->char b) out))) + ((= b 32) (set! out (cons #\+ out))) + (else (set! out (cons (string-ref hex-digits (bitwise-and b 15)) + (cons (string-ref hex-digits (bitwise-arithmetic-shift-right b 4)) + (cons #\% out)))))) + (loop (+ i 1))))))) +(define (hexv c) + (cond ((and (char<=? #\0 c) (char<=? c #\9)) (- (char->integer c) 48)) + ((and (char<=? #\A c) (char<=? c #\F)) (- (char->integer c) 55)) + ((and (char<=? #\a c) (char<=? c #\f)) (- (char->integer c) 87)) + (else (error #f "URLDecoder: malformed escape")))) +(define (url-decode s . _) + (let* ((str (if (string? s) s (jolt-str-render-one s))) (n (string-length str)) (out '())) + (let loop ((i 0)) + (if (>= i n) (utf8->string (u8-list->bytevector (reverse out))) + (let ((c (string-ref str i))) + (cond ((char=? c #\+) (set! out (cons 32 out)) (loop (+ i 1))) + ((char=? c #\%) + (set! out (cons (+ (* 16 (hexv (string-ref str (+ i 1)))) (hexv (string-ref str (+ i 2)))) out)) + (loop (+ i 3))) + (else (set! out (cons (char->integer c) out)) (loop (+ i 1))))))))) +(define (u8-list->bytevector lst) + (let ((bv (make-bytevector (length lst)))) + (let loop ((l lst) (i 0)) (if (null? l) bv (begin (bytevector-u8-set! bv i (car l)) (loop (cdr l) (+ i 1))))))) +(register-class-statics! "URLEncoder" (list (cons "encode" url-encode))) +(register-class-statics! "URLDecoder" (list (cons "decode" url-decode))) +;; Charset/forName yields the canonical name STRING (not an opaque object) so it +;; threads straight into (.getBytes s cs) / (String. bytes cs), which take a name. +(register-class-statics! "Charset" (list (cons "forName" (lambda (nm) (jolt-str-render-one nm))))) + +;; ---- Base64 (RFC 4648) ------------------------------------------------------ +(define b64-alphabet "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/") +(define (->bytevector x) + (cond ((bytevector? x) x) + ((and (jolt-array? x) (eq? (jolt-array-kind x) 'byte)) (na-bytearray->bv x)) + ((string? x) (string->utf8 x)) + (else (string->utf8 (jolt-str-render-one x))))) +(define (b64-encode x) + (let* ((bs (->bytevector x)) (n (bytevector-length bs)) (out '())) + (let loop ((i 0)) + (if (>= i n) (list->string (reverse out)) + (let* ((b0 (bytevector-u8-ref bs i)) + (b1 (if (< (+ i 1) n) (bytevector-u8-ref bs (+ i 1)) #f)) + (b2 (if (< (+ i 2) n) (bytevector-u8-ref bs (+ i 2)) #f))) + (set! out (cons (string-ref b64-alphabet (bitwise-arithmetic-shift-right b0 2)) out)) + (set! out (cons (string-ref b64-alphabet (bitwise-ior (bitwise-arithmetic-shift-left (bitwise-and b0 3) 4) + (bitwise-arithmetic-shift-right (or b1 0) 4))) out)) + (set! out (cons (if b1 (string-ref b64-alphabet (bitwise-ior (bitwise-arithmetic-shift-left (bitwise-and b1 15) 2) + (bitwise-arithmetic-shift-right (or b2 0) 6))) #\=) out)) + (set! out (cons (if b2 (string-ref b64-alphabet (bitwise-and b2 63)) #\=) out)) + (loop (+ i 3))))))) +(define (b64-char-val c) + (let loop ((i 0)) (cond ((= i 64) (error #f "Base64: illegal character")) ((char=? (string-ref b64-alphabet i) c) i) (else (loop (+ i 1)))))) +(define (b64-decode x) + (let* ((str (let ((s (if (string? x) x (utf8->string (->bytevector x))))) + (list->string (filter (lambda (c) (not (char=? c #\=))) (string->list s))))) + (out '()) (acc 0) (bits 0)) + (for-each (lambda (c) + (set! acc (bitwise-ior (bitwise-arithmetic-shift-left acc 6) (b64-char-val c))) + (set! bits (+ bits 6)) + (when (>= bits 8) + (set! bits (- bits 8)) + (set! out (cons (bitwise-and (bitwise-arithmetic-shift-right acc bits) 255) out)))) + (string->list str)) + (u8-list->bytevector (reverse out)))) +(register-host-methods! "b64-encoder" + (list (cons "encode" (lambda (self bs) (string->utf8 (b64-encode bs)))) + (cons "encodeToString" (lambda (self bs) (b64-encode bs))))) +(register-host-methods! "b64-decoder" + (list (cons "decode" (lambda (self s) (b64-decode s))))) +(register-class-statics! "Base64" + (list (cons "getEncoder" (lambda () (make-jhost "b64-encoder" '()))) + (cons "getDecoder" (lambda () (make-jhost "b64-decoder" '()))))) + +;; ---- java.util.regex.Pattern ------------------------------------------------ +;; Pattern/compile returns a jolt-regex value (regex-t), so str/replace, re-find, +;; .split etc. accept it transparently. +(define pattern-multiline 8.0) +(define (pattern-quote s) + (let ((meta "\\.[]{}()*+-?^$|&") (s (if (string? s) s (jolt-str-render-one s))) (out '())) + (let loop ((i 0)) + (if (= i (string-length s)) (list->string (reverse out)) + (let ((c (string-ref s i))) + (when (memv c (string->list meta)) (set! out (cons #\\ out))) + (set! out (cons c out)) + (loop (+ i 1))))))) +(register-class-statics! "Pattern" + (list (cons "compile" (lambda (s . flags) + (if (and (pair? flags) (= (bitwise-and (jnum->exact (car flags)) 8) 8)) + (jolt-regex (string-append "(?m)" s)) + (jolt-regex s)))) + (cons "quote" (lambda (s) (pattern-quote s))) + (cons "MULTILINE" pattern-multiline))) +;; record-method-dispatch already routes string? -> jolt-string-method. Add a +;; regex-t arm (Pattern .split / .matcher-less surface used by corpus) by wrapping +;; once more — a regex-t isn't a jhost. +(define %hs-rmd2 record-method-dispatch) +(set! record-method-dispatch + (lambda (obj method-name rest-args) + (if (regex-t? obj) + (let ((rest (if (jolt-nil? rest-args) '() (seq->list rest-args)))) + (cond ((string=? method-name "split") + ;; .split returns a String[] — a seq (prints + ;; (a b c), not a vector). re-split with no limit; drop trailing + ;; empties (JVM default). + (let ((parts (re-split (regex-t-irx obj) (car rest) #f))) + (list->cseq (str-split-drop-trailing parts)))) + ((string=? method-name "pattern") (regex-t-source obj)) + (else (error #f (string-append "No method " method-name " on Pattern"))))) + (%hs-rmd2 obj method-name rest-args)))) + +;; ---- def-var! the registry entry points so emit can also reach them --------- +(def-var! "clojure.core" "host-static-ref" host-static-ref) +(def-var! "clojure.core" "host-static-call" (lambda (c m . a) (apply host-static-call c m a))) +(def-var! "clojure.core" "host-new" (lambda (c . a) (apply host-new c a))) + +;; Clojure-visible class-registration hooks. A host shim (e.g. reitit.trie-jolt, +;; which mirrors the reitit.Trie Java class) registers a constructor proc or a +;; map of static members against a class token so (Class. args) / (Class/member +;; args) resolve to it. The statics argument is a jolt map {member-name -> val}. +(define (jmap->static-alist m) + (let loop ((s (jolt-seq m)) (acc '())) + (if (jolt-nil? s) acc + (let ((e (jolt-first s))) + (loop (jolt-seq (jolt-rest s)) (cons (cons (jolt-nth e 0) (jolt-nth e 1)) acc)))))) +(def-var! "clojure.core" "__register-class-ctor!" + (lambda (name proc) (register-class-ctor! name proc) jolt-nil)) +(def-var! "clojure.core" "__register-class-statics!" + (lambda (name members) (register-class-statics! name (jmap->static-alist members)) jolt-nil)) + +;; ---- tagged-table method dispatch + pluggable instance? -------------------- +;; A jolt library can build stateful host objects with (jolt.host/tagged-table +;; tag) and dispatch (.method obj ...) to handlers registered here, keyed by the +;; table's "jolt/type" tag — the htable analogue of the jhost method registry +;; above. jolt-lang/http-client uses this to emulate java.net URL / +;; HttpURLConnection / java.io byte streams so clj-http-lite runs unchanged. +(define tagged-methods-tbl (make-hashtable string-hash string=?)) ; tag-key -> (method-ht) +(define (tag->method-key tag) + (if (keyword-t? tag) + (let ((ns (keyword-t-ns tag))) + (if (and ns (not (jolt-nil? ns))) (string-append ns "/" (keyword-t-name tag)) (keyword-t-name tag))) + (jolt-str-render-one tag))) +(define (register-tagged-methods! tag members) + (let* ((key (tag->method-key tag)) + (h (or (hashtable-ref tagged-methods-tbl key #f) + (let ((nh (make-hashtable string-hash string=?))) + (hashtable-set! tagged-methods-tbl key nh) nh)))) + (for-each (lambda (p) (hashtable-set! h (car p) (cdr p))) members))) + +;; htable arm: dispatch (.method obj a*) through the table's tag method registry; +;; an unregistered method falls through (sorted colls are htables too). +(define %hs-rmd-htable record-method-dispatch) +(set! record-method-dispatch + (lambda (obj method-name rest-args) + (let ((tag (and (htable? obj) (hashtable-ref (htable-h obj) "jolt/type" #f)))) + (let* ((mh (and tag (hashtable-ref tagged-methods-tbl (tag->method-key tag) #f))) + (f (and mh (hashtable-ref mh method-name #f)))) + (if f + (apply f obj (if (jolt-nil? rest-args) '() (seq->list rest-args))) + (%hs-rmd-htable obj method-name rest-args)))))) + +(def-var! "clojure.core" "__register-class-methods!" + (lambda (tag members) (register-tagged-methods! tag (jmap->static-alist members)) jolt-nil)) + +;; Pluggable instance? — a library registers (fn [class-name-string val] -> true +;; | false | nil); nil means "not my class, fall through". First non-nil wins. +(define user-instance-checks '()) +(register-instance-check-arm! + (lambda (type-sym val) + (let ((tname (symbol-t-name type-sym))) + (let loop ((fs user-instance-checks)) + (if (null? fs) + 'pass + (let ((r ((car fs) tname val))) + (if (jolt-nil? r) (loop (cdr fs)) (if (jolt-truthy? r) #t #f)))))))) +(def-var! "clojure.core" "__register-instance-check!" + (lambda (f) (set! user-instance-checks (append user-instance-checks (list f))) jolt-nil)) + +;; (jolt.host/table? x) — is x a host tagged-table? +(def-var! "jolt.host" "table?" (lambda (x) (if (htable? x) #t #f))) diff --git a/host/chez/host-static-statics.ss b/host/chez/host-static-statics.ss new file mode 100644 index 0000000..1b18803 --- /dev/null +++ b/host/chez/host-static-statics.ss @@ -0,0 +1,288 @@ +;; host-static-statics.ss — java.lang / java.util.* static methods and the +;; NumberFormat / Class registries. Continues host-static.ss (its registries + +;; jhost record + coercion helpers); loaded right after it. + +;; ---- java.lang statics ------------------------------------------------------ +;; java.lang.Math: sqrt/pow/floor/ceil/trig/log/exp always return a DOUBLE on the +;; JVM (Chez's sqrt/expt return EXACT for exact args, e.g. (sqrt 9) -> 3), so coerce +;; to flonum. round -> long (exact); abs/max/min preserve the argument's type. +(define (->dbl x) (exact->inexact x)) +(register-class-statics! "Math" + (list (cons "sqrt" (lambda (x) (->dbl (sqrt x)))) + (cons "pow" (lambda (a b) (->dbl (expt a b)))) + (cons "floor" (lambda (x) (->dbl (floor x)))) + (cons "ceil" (lambda (x) (->dbl (ceiling x)))) + (cons "round" (lambda (x) (exact (floor (+ x 1/2))))) ; JVM round-half-up -> long + (cons "abs" (lambda (x) (abs x))) + (cons "sin" (lambda (x) (->dbl (sin x)))) (cons "cos" (lambda (x) (->dbl (cos x)))) + (cons "tan" (lambda (x) (->dbl (tan x)))) (cons "asin" (lambda (x) (->dbl (asin x)))) + (cons "acos" (lambda (x) (->dbl (acos x)))) (cons "atan" (lambda (x) (->dbl (atan x)))) + (cons "log" (lambda (x) (->dbl (log x)))) (cons "log10" (lambda (x) (->dbl (/ (log x) (log 10))))) + (cons "exp" (lambda (x) (->dbl (exp x)))) + (cons "max" (lambda (a b) (if (> a b) a b))) (cons "min" (lambda (a b) (if (< a b) a b))) + (cons "signum" (lambda (x) (cond ((< x 0) -1.0) ((> x 0) 1.0) (else 0.0)))) + (cons "PI" (->dbl (* 4 (atan 1)))) (cons "E" (->dbl (exp 1))) + (cons "random" (lambda args (random 1.0))))) + +;; Thread: real OS threads back futures/promises. +;; - sleep parks the calling thread for `ms` ms (a worker sleeping doesn't block +;; the parent). +;; - yield hands the CPU to another runnable thread (libc sched_yield). +;; - each thread carries an interrupt flag; interrupted (static) reads AND clears +;; the current thread's flag, matching the JVM. currentThread / .interrupt / +;; .isInterrupted are wired in io.ss, where the thread handle is built. + +;; Per-thread interrupt flag, lazily allocated so each OS thread gets its own box. +;; A thread handle (from currentThread) captures this box, so .interrupt from +;; another thread sets the target thread's flag. +(define thread-interrupt-box (make-thread-parameter #f)) +(define (current-interrupt-box) + (or (thread-interrupt-box) + (let ((b (box #f))) (thread-interrupt-box b) b))) +(define (clear-thread-interrupt!) (set-box! (current-interrupt-box) #f)) + +;; libc sched_yield, resolved once; fall back to a zero-length park if the symbol +;; isn't available. +(define thread-yield! + (let ((fp #f) (tried? #f)) + (lambda () + (unless tried? + (set! tried? #t) + (set! fp (guard (e (#t #f)) + (load-shared-object #f) + (foreign-procedure "sched_yield" () int)))) + (if fp (fp) (sleep (make-time 'time-duration 0 0))) + jolt-nil))) + +(define thread-statics + (list (cons "sleep" (lambda (ms . _) + (let* ((ms* (exact (floor ms))) + (secs (quotient ms* 1000)) + (nanos (* (remainder ms* 1000) 1000000))) + (sleep (make-time 'time-duration nanos secs))) + jolt-nil)) + (cons "yield" (lambda _ (thread-yield!))) + (cons "interrupted" (lambda _ (let* ((b (current-interrupt-box)) (v (unbox b))) + (set-box! b #f) (and v #t)))))) +(register-class-statics! "Thread" thread-statics) +(register-class-statics! "java.lang.Thread" thread-statics) + +;; clojure.lang.LockingTransaction: jolt has no STM (no refs/dosync), so a +;; transaction is never running. isRunning -> false. +(register-class-statics! "LockingTransaction" (list (cons "isRunning" (lambda () #f)))) +(register-class-statics! "clojure.lang.LockingTransaction" (list (cons "isRunning" (lambda () #f)))) + +;; clojure.lang.LazilyPersistentVector/createOwning: build a vector from an array +;; (malli's -vmap fills an object-array then hands it over). jolt has no array +;; ownership transfer, so copy the array's elements into a persistent vector. +(define (lpv-create-owning arr) (apply jolt-vector (seq->list (jolt-seq arr)))) +(register-class-statics! "LazilyPersistentVector" (list (cons "createOwning" lpv-create-owning))) +(register-class-statics! "clojure.lang.LazilyPersistentVector" (list (cons "createOwning" lpv-create-owning))) + +;; clojure.lang.PersistentArrayMap/createWithCheck: build a map from a [k v k v…] +;; array, throwing on a duplicate key. malli's eager entry parser relies on the +;; throw to report ::duplicate-keys, so a missing class would mis-fire on every +;; map. Build the map and signal if a key collapsed (count*2 < array length). +(define (pam-create-with-check arr) + (let ((items (seq->list (jolt-seq arr)))) + (let loop ((xs items) (m (jolt-hash-map))) + (if (null? xs) m + (if (null? (cdr xs)) (error #f "PersistentArrayMap: odd key/value count") + (let ((k (car xs))) + (if (jolt-contains? m k) (error #f "Duplicate key") + (loop (cddr xs) (jolt-assoc m k (cadr xs)))))))))) +(register-class-statics! "PersistentArrayMap" (list (cons "createWithCheck" pam-create-with-check))) +(register-class-statics! "clojure.lang.PersistentArrayMap" (list (cons "createWithCheck" pam-create-with-check))) + +(define (now-millis) + (let ((t (current-time 'time-utc))) + (+ (* 1000 (time-second t)) (quotient (time-nanosecond t) 1000000)))) + +;; clojure.core/current-time-ms — epoch milliseconds; backs the `time` macro. +(def-var! "clojure.core" "current-time-ms" (lambda () (->num (now-millis)))) +(register-class-statics! "System" + (list (cons "currentTimeMillis" (lambda () (->num (now-millis)))) + (cons "nanoTime" (lambda () (->num (* 1000000 (now-millis))))) + (cons "exit" (lambda args (exit (if (null? args) 0 (jnum->exact (car args)))))) + ;; wrapped in lambdas: the helpers are defined below, resolved at call time. + (cons "getProperty" (lambda (k . d) (apply sys-get-property k d))) + (cons "setProperty" (lambda (k v) (sys-set-property k v))) + (cons "clearProperty" (lambda (k) (sys-clear-property k))) + (cons "getProperties" (lambda () (sys-properties-map))) + (cons "getenv" (lambda k (apply sys-getenv k))))) + +(register-class-statics! "Long" + (list (cons "MAX_VALUE" (->num 9223372036854775807)) + (cons "MIN_VALUE" (->num -9223372036854775808)) + (cons "parseLong" (lambda (s . r) (parse-int-or-throw s (if (null? r) 10 (jnum->exact (car r))) "parseLong"))) + (cons "valueOf" (lambda (s . r) (parse-int-or-throw s (if (null? r) 10 (jnum->exact (car r))) "valueOf"))))) + +(register-class-statics! "Integer" + (list (cons "MAX_VALUE" (->num 2147483647)) (cons "MIN_VALUE" (->num -2147483648)) + (cons "valueOf" (lambda (x . r) + (if (number? x) (->num x) + (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "valueOf")))) + (cons "parseInt" (lambda (x . r) (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "parseInt"))))) + +(register-class-statics! "Boolean" + (list (cons "parseBoolean" (lambda (s) (string=? "true" (ascii-string-down (if (string? s) s (jolt-str-render-one s)))))) + (cons "TRUE" #t) (cons "FALSE" #f))) + +(register-class-ctor! "Double" ->double) +(register-class-ctor! "Float" ->double) +(register-class-statics! "Double" + (list (cons "parseDouble" parse-double-or-throw) + (cons "valueOf" ->double) + (cons "toString" (lambda (x) (jolt-str-render-one (->double x)))) + (cons "isNaN" (lambda (x) (and (flonum? x) (nan? x)))) + (cons "isInfinite" (lambda (x) (and (flonum? x) (infinite? x)))) + (cons "MAX_VALUE" 1.7976931348623157e308) (cons "MIN_VALUE" 4.9e-324) + (cons "POSITIVE_INFINITY" +inf.0) (cons "NEGATIVE_INFINITY" -inf.0) (cons "NaN" +nan.0))) +(register-class-statics! "Float" + (list (cons "parseFloat" parse-double-or-throw) (cons "valueOf" ->double))) + +;; Character: ASCII predicates (the engine is byte/ASCII oriented). +(register-class-statics! "Character" + (list (cons "isUpperCase" (lambda (c) (let ((n (char-code c))) (and (>= n 65) (<= n 90))))) + (cons "isLowerCase" (lambda (c) (let ((n (char-code c))) (and (>= n 97) (<= n 122))))) + (cons "isDigit" (lambda (c) (let ((n (char-code c))) (and (>= n 48) (<= n 57))))) + (cons "isWhitespace" (lambda (c) (char<=? (integer->char (char-code c)) #\space))))) + +;; String/valueOf(Object): "null" for nil, else jolt's str semantics. +;; String/format(fmt args…) / (locale fmt args…) -> the clojure.core format engine. +(register-class-statics! "String" + (list (cons "valueOf" (lambda (x . _) (if (jolt-nil? x) "null" (jolt-str-render-one x)))) + (cons "format" (lambda (a . rest) + (if (and (jhost? a) (string=? (jhost-tag a) "locale")) + (apply jolt-format (car rest) (cdr rest)) + (apply jolt-format a rest)))))) + +;; ---- java.text.NumberFormat ------------------------------------------------- +;; A grouping decimal formatter (selmer number-format / cuerdas). state: +;; #(grouping? min-frac max-frac). .format groups the integer part with commas. +(define (nf-make grouping? minf maxf) (make-jhost "numberformat" (vector grouping? minf maxf))) +(define (group-int-str s) ; "1234567" -> "1,234,567" + (let* ((neg (and (> (string-length s) 0) (char=? (string-ref s 0) #\-))) + (digs (if neg (substring s 1 (string-length s)) s)) + (n (string-length digs)) (out '())) + (let loop ((i 0)) + (when (< i n) + (when (and (> i 0) (= 0 (modulo (- n i) 3))) (set! out (cons #\, out))) + (set! out (cons (string-ref digs i) out)) (loop (+ i 1)))) + (string-append (if neg "-" "") (list->string (reverse out))))) +(define (nf-format self x) + (let* ((grouping? (vector-ref (jhost-state self) 0)) + (minf (vector-ref (jhost-state self) 1)) (maxf (vector-ref (jhost-state self) 2)) + (neg (< x 0)) (ax (abs (exact->inexact x))) + (scale (expt 10 maxf)) + (scaled (exact (round (* ax scale)))) + (ipart (quotient scaled scale)) (fpart (remainder scaled scale)) + (istr (number->string ipart)) + (fstr0 (if (> maxf 0) (let ((s (number->string fpart))) + (string-append (make-string (max 0 (- maxf (string-length s))) #\0) s)) "")) + ;; trim trailing zeros down to minf + (fstr (let loop ((s fstr0)) (if (and (> (string-length s) minf) + (char=? (string-ref s (- (string-length s) 1)) #\0)) + (loop (substring s 0 (- (string-length s) 1))) s)))) + (string-append (if neg "-" "") (if grouping? (group-int-str istr) istr) + (if (> (string-length fstr) 0) (string-append "." fstr) "")))) +(register-host-methods! "numberformat" + (list (cons "format" (lambda (self n) (nf-format self n))) + (cons "setMaximumFractionDigits" (lambda (self d) (vector-set! (jhost-state self) 2 (jnum->exact d)) jolt-nil)) + (cons "setMinimumFractionDigits" (lambda (self d) (vector-set! (jhost-state self) 1 (jnum->exact d)) jolt-nil)) + (cons "setGroupingUsed" (lambda (self b) (vector-set! (jhost-state self) 0 (jolt-truthy? b)) jolt-nil)))) +(let ((nf-statics (list (cons "getInstance" (lambda _ (nf-make #t 0 3))) + (cons "getNumberInstance" (lambda _ (nf-make #t 0 3))) + (cons "getIntegerInstance" (lambda _ (nf-make #t 0 0)))))) + (register-class-statics! "NumberFormat" nf-statics) + (register-class-statics! "java.text.NumberFormat" nf-statics)) + +(register-class-statics! "Class" + ;; an array descriptor ("[C", "[I", …) is its own class token (so instance? and + ;; class compare equal); other names become a class jhost. + (list (cons "forName" (lambda (nm) + (if (and (> (string-length nm) 0) (char=? (string-ref nm 0) #\[)) + nm + (make-jhost "class" (list (cons 'name nm)))))))) + +;; ---- System helpers (defined before use above via top-level order) ---------- +;; os.name reflects the actual platform (Chez's machine-type names it): a *osx +;; machine is macOS, otherwise Linux. Code that branches on the OS (socket struct +;; layout, path handling) needs the truth, not a fixed value. +(define (substring-index needle hay) + (let ((nl (string-length needle)) (hl (string-length hay))) + (let loop ((i 0)) (cond ((> (+ i nl) hl) #f) + ((string=? (substring hay i (+ i nl)) needle) i) + (else (loop (+ i 1))))))) +(define sys-os-name + (let ((m (symbol->string (machine-type)))) + (cond ((or (substring-index "osx" m) (substring-index "macos" m)) "Mac OS X") + ((or (substring-index "nt" m) (substring-index "windows" m)) "Windows") + (else "Linux")))) +;; runtime-settable system properties (System/setProperty). A set value wins over +;; the built-in defaults below; clearProperty removes it. +(define sys-prop-table (make-hashtable string-hash string=?)) +(define (sys-set-property k v) + (let ((prev (hashtable-ref sys-prop-table k jolt-nil))) + (hashtable-set! sys-prop-table k (if (string? v) v (jolt-str-render-one v))) + prev)) +(define (sys-clear-property k) + (let ((prev (hashtable-ref sys-prop-table k jolt-nil))) + (hashtable-delete! sys-prop-table k) prev)) +(define (sys-get-property k . dflt) + (let ((set-val (hashtable-ref sys-prop-table k #f))) + (cond (set-val set-val) + ((string=? k "os.name") sys-os-name) + ((string=? k "line.separator") "\n") + ((string=? k "file.separator") "/") + ((string=? k "path.separator") ":") + ((string=? k "user.dir") (or (getenv "PWD") ".")) + ((string=? k "user.home") (or (getenv "HOME") "")) + ((string=? k "java.io.tmpdir") (or (getenv "TMPDIR") "/tmp")) + ((pair? dflt) (car dflt)) + (else jolt-nil)))) +(define (sys-properties-map) + (jolt-hash-map "os.name" sys-os-name "line.separator" "\n" "file.separator" "/" + "user.dir" (or (getenv "PWD") ".") "user.home" (or (getenv "HOME") "") + "java.io.tmpdir" (or (getenv "TMPDIR") "/tmp"))) + +;; full environment as an alist of (name . value), via spawning `env`. +(define (all-env-pairs) + (call-with-values + (lambda () (open-process-ports "env" (buffer-mode block) (native-transcoder))) + (lambda (stdin stdout stderr pid) + (let loop ((acc '())) + (let ((l (get-line stdout))) + (if (eof-object? l) (reverse acc) + (let ((eq (let scan ((i 0)) (cond ((= i (string-length l)) #f) + ((char=? (string-ref l i) #\=) i) + (else (scan (+ i 1))))))) + (loop (if eq (cons (cons (substring l 0 eq) (substring l (+ eq 1) (string-length l))) acc) acc))))))))) +;; JOLT_BAKE_ENV_ALLOWLIST: when set, only the listed comma-separated +;; names are served; unset (the normal case) reads are live and unfiltered. +(define (env-allowlist) + (let ((a (getenv "JOLT_BAKE_ENV_ALLOWLIST"))) + (and a (map str-trim (str-literal-split a ","))))) +(define (sys-getenv . k) + (let ((allow (env-allowlist))) + (if (null? k) + (apply jolt-hash-map + (let loop ((ps (all-env-pairs)) (acc '())) + (cond ((null? ps) (reverse acc)) + ((and allow (not (member (caar ps) allow))) (loop (cdr ps) acc)) + (else (loop (cdr ps) (cons (cdar ps) (cons (caar ps) acc))))))) + (let ((name (car k))) + (if (and allow (not (member name allow))) jolt-nil + (let ((v (getenv name))) (if v v jolt-nil))))))) + +;; ---- StringBuilder ---------------------------------------------------------- +;; state: a box (1-vector) holding the accumulated string. +(define (sb-str self) (vector-ref (jhost-state self) 0)) +(define (sb-set! self s) (vector-set! (jhost-state self) 0 s)) +(define (render-piece x) + (cond ((jolt-nil? x) "null") ((char? x) (string x)) ((string? x) x) + (else (jolt-str-render-one x)))) +;; (Object.) — a fresh value with distinct identity (libraries use it as a lock +;; or a unique sentinel). Each call returns a new jhost so identical?/= separate. +(register-class-ctor! "Object" (lambda _ (make-jhost "object" (vector)))) + diff --git a/host/chez/host-static.ss b/host/chez/host-static.ss index 5ef6b02..5c65acd 100644 --- a/host/chez/host-static.ss +++ b/host/chez/host-static.ss @@ -139,792 +139,3 @@ (if (string? s) s (jolt-str-render-one s)) "\"")))) (define (->double x) (if (number? x) (exact->inexact x) (parse-double-or-throw x))) -;; ---- java.lang statics ------------------------------------------------------ -;; java.lang.Math: sqrt/pow/floor/ceil/trig/log/exp always return a DOUBLE on the -;; JVM (Chez's sqrt/expt return EXACT for exact args, e.g. (sqrt 9) -> 3), so coerce -;; to flonum. round -> long (exact); abs/max/min preserve the argument's type. -(define (->dbl x) (exact->inexact x)) -(register-class-statics! "Math" - (list (cons "sqrt" (lambda (x) (->dbl (sqrt x)))) - (cons "pow" (lambda (a b) (->dbl (expt a b)))) - (cons "floor" (lambda (x) (->dbl (floor x)))) - (cons "ceil" (lambda (x) (->dbl (ceiling x)))) - (cons "round" (lambda (x) (exact (floor (+ x 1/2))))) ; JVM round-half-up -> long - (cons "abs" (lambda (x) (abs x))) - (cons "sin" (lambda (x) (->dbl (sin x)))) (cons "cos" (lambda (x) (->dbl (cos x)))) - (cons "tan" (lambda (x) (->dbl (tan x)))) (cons "asin" (lambda (x) (->dbl (asin x)))) - (cons "acos" (lambda (x) (->dbl (acos x)))) (cons "atan" (lambda (x) (->dbl (atan x)))) - (cons "log" (lambda (x) (->dbl (log x)))) (cons "log10" (lambda (x) (->dbl (/ (log x) (log 10))))) - (cons "exp" (lambda (x) (->dbl (exp x)))) - (cons "max" (lambda (a b) (if (> a b) a b))) (cons "min" (lambda (a b) (if (< a b) a b))) - (cons "signum" (lambda (x) (cond ((< x 0) -1.0) ((> x 0) 1.0) (else 0.0)))) - (cons "PI" (->dbl (* 4 (atan 1)))) (cons "E" (->dbl (exp 1))) - (cons "random" (lambda args (random 1.0))))) - -;; Thread: real OS threads back futures/promises. -;; - sleep parks the calling thread for `ms` ms (a worker sleeping doesn't block -;; the parent). -;; - yield hands the CPU to another runnable thread (libc sched_yield). -;; - each thread carries an interrupt flag; interrupted (static) reads AND clears -;; the current thread's flag, matching the JVM. currentThread / .interrupt / -;; .isInterrupted are wired in io.ss, where the thread handle is built. - -;; Per-thread interrupt flag, lazily allocated so each OS thread gets its own box. -;; A thread handle (from currentThread) captures this box, so .interrupt from -;; another thread sets the target thread's flag. -(define thread-interrupt-box (make-thread-parameter #f)) -(define (current-interrupt-box) - (or (thread-interrupt-box) - (let ((b (box #f))) (thread-interrupt-box b) b))) -(define (clear-thread-interrupt!) (set-box! (current-interrupt-box) #f)) - -;; libc sched_yield, resolved once; fall back to a zero-length park if the symbol -;; isn't available. -(define thread-yield! - (let ((fp #f) (tried? #f)) - (lambda () - (unless tried? - (set! tried? #t) - (set! fp (guard (e (#t #f)) - (load-shared-object #f) - (foreign-procedure "sched_yield" () int)))) - (if fp (fp) (sleep (make-time 'time-duration 0 0))) - jolt-nil))) - -(define thread-statics - (list (cons "sleep" (lambda (ms . _) - (let* ((ms* (exact (floor ms))) - (secs (quotient ms* 1000)) - (nanos (* (remainder ms* 1000) 1000000))) - (sleep (make-time 'time-duration nanos secs))) - jolt-nil)) - (cons "yield" (lambda _ (thread-yield!))) - (cons "interrupted" (lambda _ (let* ((b (current-interrupt-box)) (v (unbox b))) - (set-box! b #f) (and v #t)))))) -(register-class-statics! "Thread" thread-statics) -(register-class-statics! "java.lang.Thread" thread-statics) - -;; clojure.lang.LockingTransaction: jolt has no STM (no refs/dosync), so a -;; transaction is never running. isRunning -> false. -(register-class-statics! "LockingTransaction" (list (cons "isRunning" (lambda () #f)))) -(register-class-statics! "clojure.lang.LockingTransaction" (list (cons "isRunning" (lambda () #f)))) - -;; clojure.lang.LazilyPersistentVector/createOwning: build a vector from an array -;; (malli's -vmap fills an object-array then hands it over). jolt has no array -;; ownership transfer, so copy the array's elements into a persistent vector. -(define (lpv-create-owning arr) (apply jolt-vector (seq->list (jolt-seq arr)))) -(register-class-statics! "LazilyPersistentVector" (list (cons "createOwning" lpv-create-owning))) -(register-class-statics! "clojure.lang.LazilyPersistentVector" (list (cons "createOwning" lpv-create-owning))) - -;; clojure.lang.PersistentArrayMap/createWithCheck: build a map from a [k v k v…] -;; array, throwing on a duplicate key. malli's eager entry parser relies on the -;; throw to report ::duplicate-keys, so a missing class would mis-fire on every -;; map. Build the map and signal if a key collapsed (count*2 < array length). -(define (pam-create-with-check arr) - (let ((items (seq->list (jolt-seq arr)))) - (let loop ((xs items) (m (jolt-hash-map))) - (if (null? xs) m - (if (null? (cdr xs)) (error #f "PersistentArrayMap: odd key/value count") - (let ((k (car xs))) - (if (jolt-contains? m k) (error #f "Duplicate key") - (loop (cddr xs) (jolt-assoc m k (cadr xs)))))))))) -(register-class-statics! "PersistentArrayMap" (list (cons "createWithCheck" pam-create-with-check))) -(register-class-statics! "clojure.lang.PersistentArrayMap" (list (cons "createWithCheck" pam-create-with-check))) - -(define (now-millis) - (let ((t (current-time 'time-utc))) - (+ (* 1000 (time-second t)) (quotient (time-nanosecond t) 1000000)))) - -;; clojure.core/current-time-ms — epoch milliseconds; backs the `time` macro. -(def-var! "clojure.core" "current-time-ms" (lambda () (->num (now-millis)))) -(register-class-statics! "System" - (list (cons "currentTimeMillis" (lambda () (->num (now-millis)))) - (cons "nanoTime" (lambda () (->num (* 1000000 (now-millis))))) - (cons "exit" (lambda args (exit (if (null? args) 0 (jnum->exact (car args)))))) - ;; wrapped in lambdas: the helpers are defined below, resolved at call time. - (cons "getProperty" (lambda (k . d) (apply sys-get-property k d))) - (cons "setProperty" (lambda (k v) (sys-set-property k v))) - (cons "clearProperty" (lambda (k) (sys-clear-property k))) - (cons "getProperties" (lambda () (sys-properties-map))) - (cons "getenv" (lambda k (apply sys-getenv k))))) - -(register-class-statics! "Long" - (list (cons "MAX_VALUE" (->num 9223372036854775807)) - (cons "MIN_VALUE" (->num -9223372036854775808)) - (cons "parseLong" (lambda (s . r) (parse-int-or-throw s (if (null? r) 10 (jnum->exact (car r))) "parseLong"))) - (cons "valueOf" (lambda (s . r) (parse-int-or-throw s (if (null? r) 10 (jnum->exact (car r))) "valueOf"))))) - -(register-class-statics! "Integer" - (list (cons "MAX_VALUE" (->num 2147483647)) (cons "MIN_VALUE" (->num -2147483648)) - (cons "valueOf" (lambda (x . r) - (if (number? x) (->num x) - (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "valueOf")))) - (cons "parseInt" (lambda (x . r) (parse-int-or-throw x (if (null? r) 10 (jnum->exact (car r))) "parseInt"))))) - -(register-class-statics! "Boolean" - (list (cons "parseBoolean" (lambda (s) (string=? "true" (ascii-string-down (if (string? s) s (jolt-str-render-one s)))))) - (cons "TRUE" #t) (cons "FALSE" #f))) - -(register-class-ctor! "Double" ->double) -(register-class-ctor! "Float" ->double) -(register-class-statics! "Double" - (list (cons "parseDouble" parse-double-or-throw) - (cons "valueOf" ->double) - (cons "toString" (lambda (x) (jolt-str-render-one (->double x)))) - (cons "isNaN" (lambda (x) (and (flonum? x) (nan? x)))) - (cons "isInfinite" (lambda (x) (and (flonum? x) (infinite? x)))) - (cons "MAX_VALUE" 1.7976931348623157e308) (cons "MIN_VALUE" 4.9e-324) - (cons "POSITIVE_INFINITY" +inf.0) (cons "NEGATIVE_INFINITY" -inf.0) (cons "NaN" +nan.0))) -(register-class-statics! "Float" - (list (cons "parseFloat" parse-double-or-throw) (cons "valueOf" ->double))) - -;; Character: ASCII predicates (the engine is byte/ASCII oriented). -(register-class-statics! "Character" - (list (cons "isUpperCase" (lambda (c) (let ((n (char-code c))) (and (>= n 65) (<= n 90))))) - (cons "isLowerCase" (lambda (c) (let ((n (char-code c))) (and (>= n 97) (<= n 122))))) - (cons "isDigit" (lambda (c) (let ((n (char-code c))) (and (>= n 48) (<= n 57))))) - (cons "isWhitespace" (lambda (c) (char<=? (integer->char (char-code c)) #\space))))) - -;; String/valueOf(Object): "null" for nil, else jolt's str semantics. -;; String/format(fmt args…) / (locale fmt args…) -> the clojure.core format engine. -(register-class-statics! "String" - (list (cons "valueOf" (lambda (x . _) (if (jolt-nil? x) "null" (jolt-str-render-one x)))) - (cons "format" (lambda (a . rest) - (if (and (jhost? a) (string=? (jhost-tag a) "locale")) - (apply jolt-format (car rest) (cdr rest)) - (apply jolt-format a rest)))))) - -;; ---- java.text.NumberFormat ------------------------------------------------- -;; A grouping decimal formatter (selmer number-format / cuerdas). state: -;; #(grouping? min-frac max-frac). .format groups the integer part with commas. -(define (nf-make grouping? minf maxf) (make-jhost "numberformat" (vector grouping? minf maxf))) -(define (group-int-str s) ; "1234567" -> "1,234,567" - (let* ((neg (and (> (string-length s) 0) (char=? (string-ref s 0) #\-))) - (digs (if neg (substring s 1 (string-length s)) s)) - (n (string-length digs)) (out '())) - (let loop ((i 0)) - (when (< i n) - (when (and (> i 0) (= 0 (modulo (- n i) 3))) (set! out (cons #\, out))) - (set! out (cons (string-ref digs i) out)) (loop (+ i 1)))) - (string-append (if neg "-" "") (list->string (reverse out))))) -(define (nf-format self x) - (let* ((grouping? (vector-ref (jhost-state self) 0)) - (minf (vector-ref (jhost-state self) 1)) (maxf (vector-ref (jhost-state self) 2)) - (neg (< x 0)) (ax (abs (exact->inexact x))) - (scale (expt 10 maxf)) - (scaled (exact (round (* ax scale)))) - (ipart (quotient scaled scale)) (fpart (remainder scaled scale)) - (istr (number->string ipart)) - (fstr0 (if (> maxf 0) (let ((s (number->string fpart))) - (string-append (make-string (max 0 (- maxf (string-length s))) #\0) s)) "")) - ;; trim trailing zeros down to minf - (fstr (let loop ((s fstr0)) (if (and (> (string-length s) minf) - (char=? (string-ref s (- (string-length s) 1)) #\0)) - (loop (substring s 0 (- (string-length s) 1))) s)))) - (string-append (if neg "-" "") (if grouping? (group-int-str istr) istr) - (if (> (string-length fstr) 0) (string-append "." fstr) "")))) -(register-host-methods! "numberformat" - (list (cons "format" (lambda (self n) (nf-format self n))) - (cons "setMaximumFractionDigits" (lambda (self d) (vector-set! (jhost-state self) 2 (jnum->exact d)) jolt-nil)) - (cons "setMinimumFractionDigits" (lambda (self d) (vector-set! (jhost-state self) 1 (jnum->exact d)) jolt-nil)) - (cons "setGroupingUsed" (lambda (self b) (vector-set! (jhost-state self) 0 (jolt-truthy? b)) jolt-nil)))) -(register-class-statics! "NumberFormat" - (list (cons "getInstance" (lambda _ (nf-make #t 0 3))) - (cons "getNumberInstance" (lambda _ (nf-make #t 0 3))) - (cons "getIntegerInstance" (lambda _ (nf-make #t 0 0))))) -(register-class-statics! "java.text.NumberFormat" - (list (cons "getInstance" (lambda _ (nf-make #t 0 3))) - (cons "getNumberInstance" (lambda _ (nf-make #t 0 3))) - (cons "getIntegerInstance" (lambda _ (nf-make #t 0 0))))) - -(register-class-statics! "Class" - ;; an array descriptor ("[C", "[I", …) is its own class token (so instance? and - ;; class compare equal); other names become a class jhost. - (list (cons "forName" (lambda (nm) - (if (and (> (string-length nm) 0) (char=? (string-ref nm 0) #\[)) - nm - (make-jhost "class" (list (cons 'name nm)))))))) - -;; ---- System helpers (defined before use above via top-level order) ---------- -;; os.name reflects the actual platform (Chez's machine-type names it): a *osx -;; machine is macOS, otherwise Linux. Code that branches on the OS (socket struct -;; layout, path handling) needs the truth, not a fixed value. -(define (substring-index needle hay) - (let ((nl (string-length needle)) (hl (string-length hay))) - (let loop ((i 0)) (cond ((> (+ i nl) hl) #f) - ((string=? (substring hay i (+ i nl)) needle) i) - (else (loop (+ i 1))))))) -(define sys-os-name - (let ((m (symbol->string (machine-type)))) - (cond ((or (substring-index "osx" m) (substring-index "macos" m)) "Mac OS X") - ((or (substring-index "nt" m) (substring-index "windows" m)) "Windows") - (else "Linux")))) -;; runtime-settable system properties (System/setProperty). A set value wins over -;; the built-in defaults below; clearProperty removes it. -(define sys-prop-table (make-hashtable string-hash string=?)) -(define (sys-set-property k v) - (let ((prev (hashtable-ref sys-prop-table k jolt-nil))) - (hashtable-set! sys-prop-table k (if (string? v) v (jolt-str-render-one v))) - prev)) -(define (sys-clear-property k) - (let ((prev (hashtable-ref sys-prop-table k jolt-nil))) - (hashtable-delete! sys-prop-table k) prev)) -(define (sys-get-property k . dflt) - (let ((set-val (hashtable-ref sys-prop-table k #f))) - (cond (set-val set-val) - ((string=? k "os.name") sys-os-name) - ((string=? k "line.separator") "\n") - ((string=? k "file.separator") "/") - ((string=? k "path.separator") ":") - ((string=? k "user.dir") (or (getenv "PWD") ".")) - ((string=? k "user.home") (or (getenv "HOME") "")) - ((string=? k "java.io.tmpdir") (or (getenv "TMPDIR") "/tmp")) - ((pair? dflt) (car dflt)) - (else jolt-nil)))) -(define (sys-properties-map) - (jolt-hash-map "os.name" sys-os-name "line.separator" "\n" "file.separator" "/" - "user.dir" (or (getenv "PWD") ".") "user.home" (or (getenv "HOME") "") - "java.io.tmpdir" (or (getenv "TMPDIR") "/tmp"))) - -;; full environment as an alist of (name . value), via spawning `env`. -(define (all-env-pairs) - (call-with-values - (lambda () (open-process-ports "env" (buffer-mode block) (native-transcoder))) - (lambda (stdin stdout stderr pid) - (let loop ((acc '())) - (let ((l (get-line stdout))) - (if (eof-object? l) (reverse acc) - (let ((eq (let scan ((i 0)) (cond ((= i (string-length l)) #f) - ((char=? (string-ref l i) #\=) i) - (else (scan (+ i 1))))))) - (loop (if eq (cons (cons (substring l 0 eq) (substring l (+ eq 1) (string-length l))) acc) acc))))))))) -;; JOLT_BAKE_ENV_ALLOWLIST: when set, only the listed comma-separated -;; names are served; unset (the normal case) reads are live and unfiltered. -(define (env-allowlist) - (let ((a (getenv "JOLT_BAKE_ENV_ALLOWLIST"))) - (and a (map str-trim (str-literal-split a ","))))) -(define (sys-getenv . k) - (let ((allow (env-allowlist))) - (if (null? k) - (apply jolt-hash-map - (let loop ((ps (all-env-pairs)) (acc '())) - (cond ((null? ps) (reverse acc)) - ((and allow (not (member (caar ps) allow))) (loop (cdr ps) acc)) - (else (loop (cdr ps) (cons (cdar ps) (cons (caar ps) acc))))))) - (let ((name (car k))) - (if (and allow (not (member name allow))) jolt-nil - (let ((v (getenv name))) (if v v jolt-nil))))))) - -;; ---- StringBuilder ---------------------------------------------------------- -;; state: a box (1-vector) holding the accumulated string. -(define (sb-str self) (vector-ref (jhost-state self) 0)) -(define (sb-set! self s) (vector-set! (jhost-state self) 0 s)) -(define (render-piece x) - (cond ((jolt-nil? x) "null") ((char? x) (string x)) ((string? x) x) - (else (jolt-str-render-one x)))) -;; (Object.) — a fresh value with distinct identity (libraries use it as a lock -;; or a unique sentinel). Each call returns a new jhost so identical?/= separate. -(register-class-ctor! "Object" (lambda _ (make-jhost "object" (vector)))) - -;; ---- java.util.ArrayList ---------------------------------------------------- -;; A mutable list backed by a Scheme list in a box. medley's stateful transducers -;; (window / partition-between) build one with .add / .size / .toArray / .clear / -;; .remove. (ArrayList.) | (ArrayList. n) | (ArrayList. coll). -(define (al-list self) (vector-ref (jhost-state self) 0)) -(define (al-set! self xs) (vector-set! (jhost-state self) 0 xs)) -(define (make-arraylist xs) (make-jhost "arraylist" (vector xs))) -(register-class-ctor! "ArrayList" - (lambda args - (cond ((null? args) (make-arraylist '())) - ((number? (car args)) (make-arraylist '())) ; initial capacity, ignored - (else (make-arraylist (seq->list (jolt-seq (car args)))))))) -(register-class-ctor! "java.util.ArrayList" - (lambda args - (cond ((null? args) (make-arraylist '())) - ((number? (car args)) (make-arraylist '())) - (else (make-arraylist (seq->list (jolt-seq (car args)))))))) -(define (al-remove-at xs i) - (let loop ((xs xs) (i i) (acc '())) - (cond ((null? xs) (reverse acc)) - ((= i 0) (append (reverse acc) (cdr xs))) - (else (loop (cdr xs) (- i 1) (cons (car xs) acc)))))) -(register-host-methods! "arraylist" - (list - (cons "add" (lambda (self . a) - ;; (.add x) -> append+true; (.add i x) -> insert at i, returns nil. - (if (= 1 (length a)) - (begin (al-set! self (append (al-list self) (list (car a)))) #t) - (let ((i (jnum->exact (car a))) (x (cadr a)) (xs (al-list self))) - (al-set! self (append (list-head xs i) (list x) (list-tail xs i))) jolt-nil)))) - (cons "add!" (lambda (self x) (al-set! self (append (al-list self) (list x))) #t)) - (cons "get" (lambda (self i) (list-ref (al-list self) (jnum->exact i)))) - (cons "set" (lambda (self i x) - (let* ((xs (al-list self)) (idx (jnum->exact i)) (old (list-ref xs idx))) - (al-set! self (append (list-head xs idx) (list x) (list-tail xs (+ idx 1)))) old))) - (cons "size" (lambda (self) (->num (length (al-list self))))) - (cons "isEmpty" (lambda (self) (null? (al-list self)))) - (cons "remove" (lambda (self i) - (let* ((xs (al-list self)) (idx (jnum->exact i)) (old (list-ref xs idx))) - (al-set! self (al-remove-at xs idx)) old))) - (cons "clear" (lambda (self) (al-set! self '()) jolt-nil)) - (cons "contains" (lambda (self x) (and (memp (lambda (e) (jolt=2 e x)) (al-list self)) #t))) - (cons "toArray" (lambda (self . _) (apply jolt-vector (al-list self)))) - (cons "iterator" (lambda (self) (make-jiterator (list->cseq (al-list self))))) - (cons "toString" (lambda (self) (jolt-pr-str (list->cseq (al-list self))))))) - -(register-class-ctor! "StringBuilder" - (lambda args (make-jhost "string-builder" - ;; a numeric first arg is a CAPACITY hint, not content. - (vector (if (and (pair? args) (not (number? (car args)))) (render-piece (car args)) ""))))) -(register-host-methods! "string-builder" - (list (cons "append" (lambda (self x) (sb-set! self (string-append (sb-str self) (render-piece x))) self)) - (cons "toString" (lambda (self) (sb-str self))) - (cons "length" (lambda (self) (->num (string-length (sb-str self))))) - (cons "charAt" (lambda (self i) (string-ref (sb-str self) (jnum->exact i)))) - (cons "setLength" (lambda (self n) - (let ((cur (sb-str self)) (n (jnum->exact n))) - (sb-set! self (if (< n (string-length cur)) - (substring cur 0 n) - (string-append cur (make-string (- n (string-length cur)) #\nul))))) - jolt-nil)))) - -;; ---- StringWriter ----------------------------------------------------------- -;; Writer.write(int) writes the CHAR for that code; append(char) appends the char. -(define (writer-piece x) (if (number? x) (string (integer->char (jnum->exact x))) (render-piece x))) -(register-class-ctor! "StringWriter" (lambda args (make-jhost "writer" (vector "")))) -(register-host-methods! "writer" - (list (cons "write" (lambda (self x) (sb-set! self (string-append (sb-str self) (writer-piece x))) jolt-nil)) - (cons "append" (lambda (self x) (sb-set! self (string-append (sb-str self) (render-piece x))) self)) - (cons "flush" (lambda (self) jolt-nil)) - (cons "close" (lambda (self) jolt-nil)) - (cons "toString" (lambda (self) (sb-str self))))) - -;; a file-backed writer (clojure.java.io/writer of a File/path): accumulates like -;; StringWriter, then persists to the path on flush/close, so -;; (with-open [w (io/writer "f")] (.write w …)) writes the file. State #(path buf). -(define (fw-path self) (vector-ref (jhost-state self) 0)) -(define (fw-buf self) (vector-ref (jhost-state self) 1)) -(define (fw-append! self s) (vector-set! (jhost-state self) 1 (string-append (fw-buf self) s))) -(define (fw-flush! self) (jolt-spit (fw-path self) (fw-buf self))) ; jolt-spit: io.ss -(register-host-methods! "file-writer" - (list (cons "write" (lambda (self x) (fw-append! self (writer-piece x)) jolt-nil)) - (cons "append" (lambda (self x) (fw-append! self (render-piece x)) self)) - (cons "flush" (lambda (self) (fw-flush! self) jolt-nil)) - (cons "close" (lambda (self) (fw-flush! self) jolt-nil)) - (cons "toString" (lambda (self) (fw-buf self))))) - -;; a writer over a real Chez port — the values *out* / *err* hold. write/append -;; push to the port (so (.write *out* s) and (binding [*out* *err*] …) work); -;; it isn't a buffer, so toString is empty. Lets libraries that touch *out*/*err* -;; (tools.logging, selmer) compile and run. -(register-host-methods! "port-writer" - (list (cons "write" (lambda (self x) (display (writer-piece x) (vector-ref (jhost-state self) 0)) jolt-nil)) - (cons "append" (lambda (self x) (display (render-piece x) (vector-ref (jhost-state self) 0)) self)) - (cons "flush" (lambda (self) (flush-output-port (vector-ref (jhost-state self) 0)) jolt-nil)) - (cons "close" (lambda (self) jolt-nil)) - (cons "toString" (lambda (self) "")))) -(def-var! "clojure.core" "*out*" (make-jhost "port-writer" (vector (current-output-port)))) -(def-var! "clojure.core" "*err*" (make-jhost "port-writer" (vector (current-error-port)))) - -;; ---- java.util.HashMap ------------------------------------------------------ -;; A mutable map keyed by jolt values (jolt-hash / jolt=2). State #(chez-hashtable). -;; Constructors: () | (capacity) | (capacity load-factor) [sizing args ignored] | -;; (Map m) [copy]. Enough of the Map surface for libraries that build a fast lookup -;; (malli's fast-registry: (doto (HashMap. 1024 0.25) (.putAll m)) then .get). -(define (hm-hash k) (let ((h (jolt-hash k))) - (bitwise-and (if (and (integer? h) (exact? h)) (abs h) 0) #x3FFFFFFF))) -(define (hm-tbl self) (vector-ref (jhost-state self) 0)) -(define (hm-hashmap? x) (and (jhost? x) (string=? (jhost-tag x) "hashmap"))) -(define (hm-copy-into! ht src) ; src: a jolt map or another hashmap - (if (hm-hashmap? src) - (vector-for-each (lambda (k) (hashtable-set! ht k (hashtable-ref (hm-tbl src) k jolt-nil))) - (hashtable-keys (hm-tbl src))) - (for-each (lambda (e) (hashtable-set! ht (jolt-nth e 0) (jolt-nth e 1))) - (seq->list (jolt-seq src))))) -(register-class-ctor! "HashMap" - (lambda args - (let ((ht (make-hashtable hm-hash jolt=2))) - (when (and (pair? args) (or (pmap? (car args)) (hm-hashmap? (car args)))) - (hm-copy-into! ht (car args))) - (make-jhost "hashmap" (vector ht))))) -(define (hm->pmap self) - (let ((m (jolt-hash-map))) - (vector-for-each (lambda (k) (set! m (jolt-assoc m k (hashtable-ref (hm-tbl self) k jolt-nil)))) - (hashtable-keys (hm-tbl self))) - m)) -(register-host-methods! "hashmap" - (list (cons "put" (lambda (self k v) (let ((old (hashtable-ref (hm-tbl self) k jolt-nil))) - (hashtable-set! (hm-tbl self) k v) old))) - (cons "get" (lambda (self k) (hashtable-ref (hm-tbl self) k jolt-nil))) - (cons "getOrDefault" (lambda (self k d) (hashtable-ref (hm-tbl self) k d))) - (cons "containsKey" (lambda (self k) (if (hashtable-contains? (hm-tbl self) k) #t #f))) - (cons "containsValue" (lambda (self v) - (let ((found #f)) - (vector-for-each (lambda (k) (when (jolt=2 v (hashtable-ref (hm-tbl self) k jolt-nil)) (set! found #t))) - (hashtable-keys (hm-tbl self))) found))) - (cons "size" (lambda (self) (hashtable-size (hm-tbl self)))) - (cons "isEmpty" (lambda (self) (= 0 (hashtable-size (hm-tbl self))))) - (cons "remove" (lambda (self k) (let ((old (hashtable-ref (hm-tbl self) k jolt-nil))) - (hashtable-delete! (hm-tbl self) k) old))) - (cons "clear" (lambda (self) (hashtable-clear! (hm-tbl self)) jolt-nil)) - (cons "putAll" (lambda (self m) (hm-copy-into! (hm-tbl self) m) jolt-nil)) - (cons "keySet" (lambda (self) (apply jolt-hash-set (vector->list (hashtable-keys (hm-tbl self)))))) - (cons "values" (lambda (self) (apply jolt-vector - (map (lambda (k) (hashtable-ref (hm-tbl self) k jolt-nil)) - (vector->list (hashtable-keys (hm-tbl self))))))) - (cons "entrySet" (lambda (self) (jolt-seq (hm->pmap self)))) - (cons "toString" (lambda (self) (jolt-pr-str (hm->pmap self)))))) - -;; ---- StringReader ----------------------------------------------------------- -;; state: a vector #(string pos marked). -(register-class-ctor! "StringReader" - ;; src is a String or a char[] ((StringReader. (char-array s)) — selmer's parser - ;; reads templates this way); a char-array becomes the string of its chars. - (lambda (src . _) - (make-jhost "string-reader" - (vector (cond ((string? src) src) - ((jolt-array? src) (apply string-append (map jolt-str-render-one (seq->list (jolt-seq src))))) - (else (jolt-str-render-one src))) - 0 0)))) -(define (sr-s self) (vector-ref (jhost-state self) 0)) -(define (sr-pos self) (vector-ref (jhost-state self) 1)) -(define (sr-pos! self p) (vector-set! (jhost-state self) 1 p)) -(register-host-methods! "string-reader" - (list (cons "read" (lambda (self) - (let ((s (sr-s self)) (p (sr-pos self))) - (if (>= p (string-length s)) -1 ; EOF -> exact int -1 (= JVM) - (begin (sr-pos! self (+ p 1)) (->num (char->integer (string-ref s p)))))))) - (cons "mark" (lambda (self . _) (vector-set! (jhost-state self) 2 (sr-pos self)) jolt-nil)) - (cons "reset" (lambda (self) (sr-pos! self (vector-ref (jhost-state self) 2)) jolt-nil)) - (cons "skip" (lambda (self n) (let ((n (jnum->exact n))) - (sr-pos! self (min (string-length (sr-s self)) (+ (sr-pos self) n))) (->num n)))) - ;; readLine: the next line without its terminator (\n or \r\n), nil at EOF — - ;; what line-seq drives over a BufferedReader. - (cons "readLine" - (lambda (self) - (let ((s (sr-s self)) (p (sr-pos self)) (len (string-length (sr-s self)))) - (if (>= p len) jolt-nil - (let scan ((i p)) - (cond - ((>= i len) (sr-pos! self len) (substring s p len)) - ((char=? (string-ref s i) #\newline) - (sr-pos! self (+ i 1)) - (substring s p (if (and (> i p) (char=? (string-ref s (- i 1)) #\return)) (- i 1) i))) - (else (scan (+ i 1))))))))) - (cons "close" (lambda (self) jolt-nil)))) - -;; ---- PushbackReader --------------------------------------------------------- -;; state: a vector #(wrapped-reader pushed-list) -(register-class-ctor! "PushbackReader" - (lambda (rdr . _) (make-jhost "pushback-reader" (vector rdr '())))) -(define (read-unit r) ; read one code unit (flonum) from any reader, -1 at EOF - (record-method-dispatch r "read" jolt-nil)) -(register-host-methods! "pushback-reader" - (list (cons "read" (lambda (self) - (let ((pushed (vector-ref (jhost-state self) 1))) - (if (pair? pushed) - (begin (vector-set! (jhost-state self) 1 (cdr pushed)) (car pushed)) - (read-unit (vector-ref (jhost-state self) 0)))))) - (cons "unread" (lambda (self ch) - (vector-set! (jhost-state self) 1 - (cons (if (char? ch) (->num (char->integer ch)) ch) (vector-ref (jhost-state self) 1))) - jolt-nil)) - (cons "close" (lambda (self) jolt-nil)))) - -;; ---- HashMap ---------------------------------------------------------------- -;; state: a box holding an alist of (k . v), jolt= keyed. -(define (hm-alist self) (vector-ref (jhost-state self) 0)) -(define (hm-set! self al) (vector-set! (jhost-state self) 0 al)) -(define (hm-assoc al k v) - (let loop ((ps al) (acc '()) (hit #f)) - (cond ((null? ps) (reverse (if hit acc (cons (cons k v) acc)))) - ((jolt=2 (caar ps) k) (loop (cdr ps) (cons (cons k v) acc) #t)) - (else (loop (cdr ps) (cons (car ps) acc) hit))))) -(define (hm-get al k) (let loop ((ps al)) (cond ((null? ps) jolt-nil) ((jolt=2 (caar ps) k) (cdar ps)) (else (loop (cdr ps)))))) -(define (coll->pairs m) - (if (jolt-nil? m) '() - (let loop ((s (jolt-seq m)) (acc '())) - (if (jolt-nil? s) (reverse acc) - (let ((e (seq-first s))) (loop (jolt-seq (seq-more s)) (cons (cons (jolt-nth e 0) (jolt-nth e 1)) acc))))))) -(register-class-ctor! "HashMap" - (lambda args - (let ((init (and (pair? args) (car args)))) - (make-jhost "hashmap" (vector (if (and init (not (number? init))) (coll->pairs init) '())))))) -(register-host-methods! "hashmap" - (list (cons "get" (lambda (self k) (hm-get (hm-alist self) k))) - (cons "put" (lambda (self k v) (hm-set! self (hm-assoc (hm-alist self) k v)) v)) - (cons "putAll" (lambda (self m) (for-each (lambda (p) (hm-set! self (hm-assoc (hm-alist self) (car p) (cdr p)))) (coll->pairs m)) jolt-nil)) - (cons "containsKey" (lambda (self k) (not (jolt-nil? (hm-get (hm-alist self) k))))) - (cons "size" (lambda (self) (->num (length (hm-alist self))))))) - -;; ---- StringTokenizer -------------------------------------------------------- -;; state: a vector #(tokens-list pos) -(define (tokenize s delims) - (let ((dset (string->list delims))) - (let loop ((chars (string->list s)) (cur '()) (toks '())) - (cond ((null? chars) (reverse (if (null? cur) toks (cons (list->string (reverse cur)) toks)))) - ((memv (car chars) dset) - (loop (cdr chars) '() (if (null? cur) toks (cons (list->string (reverse cur)) toks)))) - (else (loop (cdr chars) (cons (car chars) cur) toks)))))) -(register-class-ctor! "StringTokenizer" - (lambda (s . delims) (make-jhost "string-tokenizer" - (vector (tokenize (if (string? s) s (jolt-str-render-one s)) - (if (null? delims) " \t\n\r\f" (car delims))) 0)))) -(register-host-methods! "string-tokenizer" - (list (cons "hasMoreTokens" (lambda (self) (< (vector-ref (jhost-state self) 1) (length (vector-ref (jhost-state self) 0))))) - (cons "countTokens" (lambda (self) (->num (- (length (vector-ref (jhost-state self) 0)) (vector-ref (jhost-state self) 1))))) - (cons "nextToken" (lambda (self) - (let ((toks (vector-ref (jhost-state self) 0)) (p (vector-ref (jhost-state self) 1))) - (if (< p (length toks)) - (begin (vector-set! (jhost-state self) 1 (+ p 1)) (list-ref toks p)) - (error #f "NoSuchElementException"))))))) - -;; ---- String / BigInteger / MapEntry constructors ---------------------------- -;; (String. bytes [charset]) decodes bytes (a bytevector OR a jolt byte-array) -;; with the named charset (UTF-8 default; ISO-8859-1/latin1/ascii = one byte per -;; char); else stringify. clj-http-lite's body coercion is (String. ^[B body cs). -(define (string-charset-name rest) - (if (pair? rest) - (let ((c (car rest))) - (cond ((string? c) c) - ((and (jhost? c) (string=? (jhost-tag c) "charset")) - (let ((p (assq 'name (jhost-state c)))) (if p (jolt-str-render-one (cdr p)) "UTF-8"))) - (else "UTF-8"))) - "UTF-8")) -(define (decode-bytevector bv rest) - (let ((cs (ascii-string-down (string-charset-name rest)))) - (cond - ((or (string=? cs "utf-8") (string=? cs "utf8")) (utf8->string bv)) - ((or (string=? cs "iso-8859-1") (string=? cs "latin1") (string=? cs "iso8859-1") - (string=? cs "us-ascii") (string=? cs "ascii")) - (list->string (map integer->char (bytevector->u8-list bv)))) - ((or (string=? cs "utf-16") (string=? cs "utf16") (string=? cs "utf-16be") (string=? cs "unicode")) - (utf16->string bv (endianness big))) ; respects a leading BOM - ((string=? cs "utf-16le") (utf16->string bv (endianness little))) - ((or (string=? cs "utf-32") (string=? cs "utf32") (string=? cs "utf-32be")) - (utf32->string bv (endianness big))) - ((string=? cs "utf-32le") (utf32->string bv (endianness little))) - (else (guard (e (#t (list->string (map integer->char (bytevector->u8-list bv))))) (utf8->string bv)))))) -(register-class-ctor! "String" - (lambda (x . rest) - (cond ((bytevector? x) (decode-bytevector x rest)) - ((and (jolt-array? x) (eq? (jolt-array-kind x) 'byte)) (decode-bytevector (na-bytearray->bv x) rest)) - ((string? x) x) - (else (jolt-str-render-one x))))) -(register-class-ctor! "BigInteger" - (lambda (v) (parse-int-or-throw v 10 "BigInteger"))) -(register-class-ctor! "MapEntry" (lambda (k v) (make-map-entry k v))) -;; JVM exception ctors -> a typed host throwable carrying the canonical :jolt/class -;; (so class / instance? / getMessage / ex-message reflect the real type) and the -;; message. Supports (E. msg), (E. msg cause), (E. cause), and (E.). -(for-each - (lambda (nm) - (let ((canonical (or (resolve-class-hint nm) nm))) - (register-class-ctor! nm - (lambda args - (let* ((a0 (if (pair? args) (car args) jolt-nil)) - (rest (if (pair? args) (cdr args) '())) - (cause (if (pair? rest) (car rest) jolt-nil))) - (cond - ((string? a0) (jolt-host-throwable canonical a0 cause)) - ((jolt-nil? a0) (jolt-host-throwable canonical jolt-nil)) - ;; (E. cause): a lone throwable arg is the cause, message nil. - ((and (null? rest) (ex-info-map? a0)) (jolt-host-throwable canonical jolt-nil a0)) - (else (jolt-host-throwable canonical (jolt-str-render-one a0) cause)))))))) - '("Throwable" "Exception" "RuntimeException" "IllegalArgumentException" "IllegalStateException" - "InterruptedException" "UnsupportedOperationException" "IOException" "NumberFormatException" - "ArithmeticException" "NullPointerException" "ClassCastException" "IndexOutOfBoundsException" - "FileNotFoundException" "UnsupportedEncodingException")) - -;; ---- URLEncoder / URLDecoder (www-form-urlencoded) -------------------------- -(define (url-unreserved? b) - (or (and (>= b 48) (<= b 57)) (and (>= b 65) (<= b 90)) (and (>= b 97) (<= b 122)) - (= b 46) (= b 42) (= b 95) (= b 45))) -(define hex-digits "0123456789ABCDEF") -(define (url-encode s . _) - (let ((bs (string->utf8 (if (string? s) s (jolt-str-render-one s)))) (out '())) - (let loop ((i 0)) - (if (= i (bytevector-length bs)) (list->string (reverse out)) - (let ((b (bytevector-u8-ref bs i))) - (cond ((url-unreserved? b) (set! out (cons (integer->char b) out))) - ((= b 32) (set! out (cons #\+ out))) - (else (set! out (cons (string-ref hex-digits (bitwise-and b 15)) - (cons (string-ref hex-digits (bitwise-arithmetic-shift-right b 4)) - (cons #\% out)))))) - (loop (+ i 1))))))) -(define (hexv c) - (cond ((and (char<=? #\0 c) (char<=? c #\9)) (- (char->integer c) 48)) - ((and (char<=? #\A c) (char<=? c #\F)) (- (char->integer c) 55)) - ((and (char<=? #\a c) (char<=? c #\f)) (- (char->integer c) 87)) - (else (error #f "URLDecoder: malformed escape")))) -(define (url-decode s . _) - (let* ((str (if (string? s) s (jolt-str-render-one s))) (n (string-length str)) (out '())) - (let loop ((i 0)) - (if (>= i n) (utf8->string (u8-list->bytevector (reverse out))) - (let ((c (string-ref str i))) - (cond ((char=? c #\+) (set! out (cons 32 out)) (loop (+ i 1))) - ((char=? c #\%) - (set! out (cons (+ (* 16 (hexv (string-ref str (+ i 1)))) (hexv (string-ref str (+ i 2)))) out)) - (loop (+ i 3))) - (else (set! out (cons (char->integer c) out)) (loop (+ i 1))))))))) -(define (u8-list->bytevector lst) - (let ((bv (make-bytevector (length lst)))) - (let loop ((l lst) (i 0)) (if (null? l) bv (begin (bytevector-u8-set! bv i (car l)) (loop (cdr l) (+ i 1))))))) -(register-class-statics! "URLEncoder" (list (cons "encode" url-encode))) -(register-class-statics! "URLDecoder" (list (cons "decode" url-decode))) -;; Charset/forName yields the canonical name STRING (not an opaque object) so it -;; threads straight into (.getBytes s cs) / (String. bytes cs), which take a name. -(register-class-statics! "Charset" (list (cons "forName" (lambda (nm) (jolt-str-render-one nm))))) - -;; ---- Base64 (RFC 4648) ------------------------------------------------------ -(define b64-alphabet "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/") -(define (->bytevector x) - (cond ((bytevector? x) x) - ((and (jolt-array? x) (eq? (jolt-array-kind x) 'byte)) (na-bytearray->bv x)) - ((string? x) (string->utf8 x)) - (else (string->utf8 (jolt-str-render-one x))))) -(define (b64-encode x) - (let* ((bs (->bytevector x)) (n (bytevector-length bs)) (out '())) - (let loop ((i 0)) - (if (>= i n) (list->string (reverse out)) - (let* ((b0 (bytevector-u8-ref bs i)) - (b1 (if (< (+ i 1) n) (bytevector-u8-ref bs (+ i 1)) #f)) - (b2 (if (< (+ i 2) n) (bytevector-u8-ref bs (+ i 2)) #f))) - (set! out (cons (string-ref b64-alphabet (bitwise-arithmetic-shift-right b0 2)) out)) - (set! out (cons (string-ref b64-alphabet (bitwise-ior (bitwise-arithmetic-shift-left (bitwise-and b0 3) 4) - (bitwise-arithmetic-shift-right (or b1 0) 4))) out)) - (set! out (cons (if b1 (string-ref b64-alphabet (bitwise-ior (bitwise-arithmetic-shift-left (bitwise-and b1 15) 2) - (bitwise-arithmetic-shift-right (or b2 0) 6))) #\=) out)) - (set! out (cons (if b2 (string-ref b64-alphabet (bitwise-and b2 63)) #\=) out)) - (loop (+ i 3))))))) -(define (b64-char-val c) - (let loop ((i 0)) (cond ((= i 64) (error #f "Base64: illegal character")) ((char=? (string-ref b64-alphabet i) c) i) (else (loop (+ i 1)))))) -(define (b64-decode x) - (let* ((str (let ((s (if (string? x) x (utf8->string (->bytevector x))))) - (list->string (filter (lambda (c) (not (char=? c #\=))) (string->list s))))) - (out '()) (acc 0) (bits 0)) - (for-each (lambda (c) - (set! acc (bitwise-ior (bitwise-arithmetic-shift-left acc 6) (b64-char-val c))) - (set! bits (+ bits 6)) - (when (>= bits 8) - (set! bits (- bits 8)) - (set! out (cons (bitwise-and (bitwise-arithmetic-shift-right acc bits) 255) out)))) - (string->list str)) - (u8-list->bytevector (reverse out)))) -(register-host-methods! "b64-encoder" - (list (cons "encode" (lambda (self bs) (string->utf8 (b64-encode bs)))) - (cons "encodeToString" (lambda (self bs) (b64-encode bs))))) -(register-host-methods! "b64-decoder" - (list (cons "decode" (lambda (self s) (b64-decode s))))) -(register-class-statics! "Base64" - (list (cons "getEncoder" (lambda () (make-jhost "b64-encoder" '()))) - (cons "getDecoder" (lambda () (make-jhost "b64-decoder" '()))))) - -;; ---- java.util.regex.Pattern ------------------------------------------------ -;; Pattern/compile returns a jolt-regex value (regex-t), so str/replace, re-find, -;; .split etc. accept it transparently. -(define pattern-multiline 8.0) -(define (pattern-quote s) - (let ((meta "\\.[]{}()*+-?^$|&") (s (if (string? s) s (jolt-str-render-one s))) (out '())) - (let loop ((i 0)) - (if (= i (string-length s)) (list->string (reverse out)) - (let ((c (string-ref s i))) - (when (memv c (string->list meta)) (set! out (cons #\\ out))) - (set! out (cons c out)) - (loop (+ i 1))))))) -(register-class-statics! "Pattern" - (list (cons "compile" (lambda (s . flags) - (if (and (pair? flags) (= (bitwise-and (jnum->exact (car flags)) 8) 8)) - (jolt-regex (string-append "(?m)" s)) - (jolt-regex s)))) - (cons "quote" (lambda (s) (pattern-quote s))) - (cons "MULTILINE" pattern-multiline))) -;; record-method-dispatch already routes string? -> jolt-string-method. Add a -;; regex-t arm (Pattern .split / .matcher-less surface used by corpus) by wrapping -;; once more — a regex-t isn't a jhost. -(define %hs-rmd2 record-method-dispatch) -(set! record-method-dispatch - (lambda (obj method-name rest-args) - (if (regex-t? obj) - (let ((rest (if (jolt-nil? rest-args) '() (seq->list rest-args)))) - (cond ((string=? method-name "split") - ;; .split returns a String[] — a seq (prints - ;; (a b c), not a vector). re-split with no limit; drop trailing - ;; empties (JVM default). - (let ((parts (re-split (regex-t-irx obj) (car rest) #f))) - (list->cseq (str-split-drop-trailing parts)))) - ((string=? method-name "pattern") (regex-t-source obj)) - (else (error #f (string-append "No method " method-name " on Pattern"))))) - (%hs-rmd2 obj method-name rest-args)))) - -;; ---- def-var! the registry entry points so emit can also reach them --------- -(def-var! "clojure.core" "host-static-ref" host-static-ref) -(def-var! "clojure.core" "host-static-call" (lambda (c m . a) (apply host-static-call c m a))) -(def-var! "clojure.core" "host-new" (lambda (c . a) (apply host-new c a))) - -;; Clojure-visible class-registration hooks. A host shim (e.g. reitit.trie-jolt, -;; which mirrors the reitit.Trie Java class) registers a constructor proc or a -;; map of static members against a class token so (Class. args) / (Class/member -;; args) resolve to it. The statics argument is a jolt map {member-name -> val}. -(define (jmap->static-alist m) - (let loop ((s (jolt-seq m)) (acc '())) - (if (jolt-nil? s) acc - (let ((e (jolt-first s))) - (loop (jolt-seq (jolt-rest s)) (cons (cons (jolt-nth e 0) (jolt-nth e 1)) acc)))))) -(def-var! "clojure.core" "__register-class-ctor!" - (lambda (name proc) (register-class-ctor! name proc) jolt-nil)) -(def-var! "clojure.core" "__register-class-statics!" - (lambda (name members) (register-class-statics! name (jmap->static-alist members)) jolt-nil)) - -;; ---- tagged-table method dispatch + pluggable instance? -------------------- -;; A jolt library can build stateful host objects with (jolt.host/tagged-table -;; tag) and dispatch (.method obj ...) to handlers registered here, keyed by the -;; table's "jolt/type" tag — the htable analogue of the jhost method registry -;; above. jolt-lang/http-client uses this to emulate java.net URL / -;; HttpURLConnection / java.io byte streams so clj-http-lite runs unchanged. -(define tagged-methods-tbl (make-hashtable string-hash string=?)) ; tag-key -> (method-ht) -(define (tag->method-key tag) - (if (keyword-t? tag) - (let ((ns (keyword-t-ns tag))) - (if (and ns (not (jolt-nil? ns))) (string-append ns "/" (keyword-t-name tag)) (keyword-t-name tag))) - (jolt-str-render-one tag))) -(define (register-tagged-methods! tag members) - (let* ((key (tag->method-key tag)) - (h (or (hashtable-ref tagged-methods-tbl key #f) - (let ((nh (make-hashtable string-hash string=?))) - (hashtable-set! tagged-methods-tbl key nh) nh)))) - (for-each (lambda (p) (hashtable-set! h (car p) (cdr p))) members))) - -;; htable arm: dispatch (.method obj a*) through the table's tag method registry; -;; an unregistered method falls through (sorted colls are htables too). -(define %hs-rmd-htable record-method-dispatch) -(set! record-method-dispatch - (lambda (obj method-name rest-args) - (let ((tag (and (htable? obj) (hashtable-ref (htable-h obj) "jolt/type" #f)))) - (let* ((mh (and tag (hashtable-ref tagged-methods-tbl (tag->method-key tag) #f))) - (f (and mh (hashtable-ref mh method-name #f)))) - (if f - (apply f obj (if (jolt-nil? rest-args) '() (seq->list rest-args))) - (%hs-rmd-htable obj method-name rest-args)))))) - -(def-var! "clojure.core" "__register-class-methods!" - (lambda (tag members) (register-tagged-methods! tag (jmap->static-alist members)) jolt-nil)) - -;; Pluggable instance? — a library registers (fn [class-name-string val] -> true -;; | false | nil); nil means "not my class, fall through". First non-nil wins. -(define user-instance-checks '()) -(define %hs-instance-check instance-check) -(set! instance-check - (lambda (type-sym val) - (let ((tname (symbol-t-name type-sym))) - (let loop ((fs user-instance-checks)) - (if (null? fs) - (%hs-instance-check type-sym val) - (let ((r ((car fs) tname val))) - (if (jolt-nil? r) (loop (cdr fs)) (if (jolt-truthy? r) #t #f)))))))) -(def-var! "clojure.core" "instance-check" instance-check) -(def-var! "clojure.core" "__register-instance-check!" - (lambda (f) (set! user-instance-checks (append user-instance-checks (list f))) jolt-nil)) - -;; (jolt.host/table? x) — is x a host tagged-table? -(def-var! "jolt.host" "table?" (lambda (x) (if (htable? x) #t #f))) \ No newline at end of file diff --git a/host/chez/host-table.ss b/host/chez/host-table.ss index 67a4bcf..bd2ed29 100644 --- a/host/chez/host-table.ss +++ b/host/chez/host-table.ss @@ -160,8 +160,7 @@ (set! jolt-pr-readable (lambda (x) (if (htable-sorted? x) (sorted-render x jolt-pr-readable) (%h-pr-readable x)))) (define %h-pr-str jolt-pr-str) (set! jolt-pr-str (lambda (x) (if (htable-sorted? x) (sorted-render x jolt-pr-str) (%h-pr-str x)))) -(define %h-str-render-one jolt-str-render-one) -(set! jolt-str-render-one (lambda (x) (if (htable-sorted? x) (sorted-render x jolt-str-render-one) (%h-str-render-one x)))) +(register-str-render! htable-sorted? (lambda (x) (sorted-render x jolt-str-render-one))) ;; --- protocol dispatch over builtins (extend-protocol Map/Set on sorted) ------ ;; value-host-tags (records.ss) drives extend-protocol on host values; a diff --git a/host/chez/inst-time.ss b/host/chez/inst-time.ss index ec2cb1b..55434bd 100644 --- a/host/chez/inst-time.ss +++ b/host/chez/inst-time.ss @@ -93,16 +93,16 @@ (define (pad2 n) (if (< n 10) (string-append "0" (number->string n)) (number->string n))) (define (pad4 n) (let ((s (number->string n))) (string-append (make-string (max 0 (- 4 (string-length s))) #\0) s))) (define (pad3 n) (let ((s (number->string n))) (string-append (make-string (max 0 (- 3 (string-length s))) #\0) s))) -(define (floor-div a b) (let ((q (quotient a b)) (r (remainder a b))) (if (and (not (= r 0)) (< (* a b) 0)) (- q 1) q))) -(define (floor-mod a b) (- a (* (floor-div a b) b))) +(define (inst-floor-div a b) (let ((q (quotient a b)) (r (remainder a b))) (if (and (not (= r 0)) (< (* a b) 0)) (- q 1) q))) +(define (inst-floor-mod a b) (- a (* (inst-floor-div a b) b))) (define (inst-fields ms) ; -> list (y mo d hh mm ss frac dow) - (let* ((total-s (floor-div (exact (truncate ms)) 1000)) + (let* ((total-s (inst-floor-div (exact (truncate ms)) 1000)) (frac (- (exact (truncate ms)) (* total-s 1000))) - (days (floor-div total-s 86400)) - (sod (floor-mod total-s 86400)) + (days (inst-floor-div total-s 86400)) + (sod (inst-floor-mod total-s 86400)) (hh (quotient sod 3600)) (mm (quotient (remainder sod 3600) 60)) (ss (remainder sod 60)) - (dow (floor-mod (+ days 4) 7))) ; 1970-01-01 = Thursday; 0=Sunday + (dow (inst-floor-mod (+ days 4) 7))) ; 1970-01-01 = Thursday; 0=Sunday (call-with-values (lambda () (civil-from-days days)) (lambda (y mo d) (list y mo d hh mm ss frac dow))))) @@ -255,8 +255,7 @@ (set! jolt-pr-str (lambda (x) (if (jinst? x) (inst-pr x) (%it-pr-str x)))) (define %it-pr-readable jolt-pr-readable) (set! jolt-pr-readable (lambda (x) (if (jinst? x) (inst-pr x) (%it-pr-readable x)))) -(define %it-str-render jolt-str-render-one) -(set! jolt-str-render-one (lambda (x) (if (jinst? x) (inst-rfc3339 x) (%it-str-render x)))) +(register-str-render! jinst? inst-rfc3339) (define %it-type jolt-type) (set! jolt-type (lambda (x) (if (jinst? x) inst-type-kw (%it-type x)))) @@ -266,8 +265,7 @@ ;; matching jhost tag. The instance? macro passes the class-name symbol. (define (class-short tn) (let loop ((i (- (string-length tn) 1))) (cond ((< i 0) tn) ((char=? (string-ref tn i) #\.) (substring tn (+ i 1) (string-length tn))) (else (loop (- i 1)))))) -(define %it-instance-check instance-check) -(set! instance-check +(register-instance-check-arm! (lambda (type-sym val) (let ((tn (class-short (symbol-t-name type-sym)))) (cond @@ -275,11 +273,10 @@ ;; (on the JVM a Date is not a Timestamp), so answer Timestamp explicitly #f. ((jinst? val) (cond ((string=? tn "Date") #t) ((string=? tn "Timestamp") #f) - (else (%it-instance-check type-sym val)))) - ((and (jhost? val) (string=? (jhost-tag val) "instant")) (if (string=? tn "Instant") #t (%it-instance-check type-sym val))) - ((and (jhost? val) (string=? (jhost-tag val) "local-dt")) (if (string=? tn "LocalDateTime") #t (%it-instance-check type-sym val))) - (else (%it-instance-check type-sym val)))))) -(def-var! "clojure.core" "instance-check" instance-check) + (else 'pass))) + ((and (jhost? val) (string=? (jhost-tag val) "instant")) (if (string=? tn "Instant") #t 'pass)) + ((and (jhost? val) (string=? (jhost-tag val) "local-dt")) (if (string=? tn "LocalDateTime") #t 'pass)) + (else 'pass))))) ;; inst-ms* is a seed native (the overlay inst-ms reads (get x :ms), now answered). (def-var! "clojure.core" "inst-ms*" (lambda (i) (jinst-ms i))) diff --git a/host/chez/io.ss b/host/chez/io.ss index 75271bd..04ce13b 100644 --- a/host/chez/io.ss +++ b/host/chez/io.ss @@ -221,9 +221,7 @@ ;; --- str / type / instance? integration ------------------------------------ ;; str of a jfile is its path (Clojure's File.toString). -(define %io-str-render jolt-str-render-one) -(set! jolt-str-render-one - (lambda (v) (if (jfile? v) (jfile-path v) (%io-str-render v)))) +(register-str-render! jfile? jfile-path) ;; stdin line seam: the clojure.core *in* reader (50-io.clj) drives read-line / ;; read / read+string through __stdin-read-line. Return the next line (newline @@ -241,16 +239,14 @@ ;; (instance? java.io.File f): the instance? macro passes the class-name symbol; ;; match "File" / "java.io.File" (and any *.File) against a jfile. -(define %io-instance-check instance-check) -(set! instance-check +(register-instance-check-arm! (lambda (type-sym val) (let ((tname (symbol-t-name type-sym))) (if (and (jfile? val) (or (string=? tname "File") (string=? tname "java.io.File") (string=? (path-last-segment tname) "File"))) #t - (%io-instance-check type-sym val))))) -(def-var! "clojure.core" "instance-check" instance-check) + 'pass)))) ;; --- def-var! the native names the overlay file-seq + str/slurp use ---- (def-var! "clojure.core" "__make-file" jolt-make-file) @@ -261,18 +257,6 @@ (def-var! "clojure.core" "spit" jolt-spit) (def-var! "clojure.core" "flush" jolt-flush) -;; --- char-array: a seq of chars over a string (the JVM char[]). io/reader's -;; char[] branch + selmer's (char-array template) feed on this. -;; char-array (string -> chars). A leaf array native; lives here as io/reader -;; is its only Chez consumer so far. -(define (jolt-char-array a . rest) - (cond - ((string? a) (list->cseq (string->list a))) - ((number? a) (list->cseq (make-list (exact (truncate a)) #\nul))) - (else (list->cseq (map (lambda (c) (if (char? c) c (integer->char (exact (truncate c))))) - (seq->list a)))))) -(def-var! "clojure.core" "char-array" jolt-char-array) - ;; --- with-open's close seam (__close): a map-like value closes via its :close ;; fn; a jhost reader/writer/file via its .close method (a no-op here); anything ;; else is an error. @@ -323,7 +307,8 @@ ;; --- clojure.java.io ns ----------------------------------------------------- (def-var! "clojure.java.io" "file" jolt-make-file) (def-var! "clojure.java.io" "as-file" (lambda (x) (if (jfile? x) x (make-jfile (file-path-of x))))) -(def-var! "clojure.java.io" "reader" jolt-io-reader) +;; "reader" is bound by natives-array.ss (loaded later) so a char[] argument is +;; handled; that binding delegates here via jolt-io-reader for everything else. (def-var! "clojure.java.io" "writer" jolt-io-writer) (def-var! "clojure.java.io" "input-stream" jolt-io-reader) (def-var! "clojure.java.io" "output-stream" jolt-io-writer) @@ -486,9 +471,8 @@ (cons "equals" (lambda (u o) (and (jhost? o) (string=? (jhost-tag o) "uri") (string=? (uri-field u 'string) (uri-field o 'string))))))) ;; str / pr-str of a uri -> its string form. -(define %uri-str-render-one jolt-str-render-one) -(set! jolt-str-render-one - (lambda (x) (if (and (jhost? x) (string=? (jhost-tag x) "uri")) (uri-field x 'string) (%uri-str-render-one x)))) +(register-str-render! (lambda (x) (and (jhost? x) (string=? (jhost-tag x) "uri"))) + (lambda (x) (uri-field x 'string))) (define %uri-pr-readable jolt-pr-readable) (set! jolt-pr-readable (lambda (x) (if (and (jhost? x) (string=? (jhost-tag x) "uri")) diff --git a/host/chez/lazy-bridge.ss b/host/chez/lazy-bridge.ss index 0c563be..0b2da74 100644 --- a/host/chez/lazy-bridge.ss +++ b/host/chez/lazy-bridge.ss @@ -69,8 +69,7 @@ (set! jolt-pr-str (lambda (x) (if (jolt-lazyseq? x) (%ls-pr-str (jolt-seq x)) (%ls-pr-str x)))) (define %ls-pr-readable jolt-pr-readable) (set! jolt-pr-readable (lambda (x) (if (jolt-lazyseq? x) (%ls-pr-readable (jolt-seq x)) (%ls-pr-readable x)))) -(define %ls-str-render-one jolt-str-render-one) -(set! jolt-str-render-one (lambda (x) (if (jolt-lazyseq? x) (%ls-str-render-one (jolt-seq x)) (%ls-str-render-one x)))) +(register-str-render! jolt-lazyseq? (lambda (x) (jolt-str-render-one (jolt-seq x)))) ;; seq? — a lazy seq IS a seq (predicates.ss's jolt-seq? predates the lazyseq ;; record). Unlike the native-op dispatchers above (called via a direct top-level diff --git a/host/chez/loader.ss b/host/chez/loader.ss index a0087b9..1e8b75c 100644 --- a/host/chez/loader.ss +++ b/host/chez/loader.ss @@ -35,15 +35,17 @@ (loop (cdr cs) '() (cons (list->string (reverse seg)) segs))) (else (loop (cdr cs) (cons (car cs) seg) segs))))) -(define (find-ns-file name) - (let ((rel (ns-name->rel name))) - (let loop ((roots source-roots)) - (if (null? roots) #f - (let ((clj (string-append (car roots) "/" rel ".clj")) - (cljc (string-append (car roots) "/" rel ".cljc"))) - (cond ((file-exists? clj) clj) - ((file-exists? cljc) cljc) - (else (loop (cdr roots))))))))) +;; First existing /rel.clj or /rel.cljc on the search roots, else #f. +(define (resolve-on-roots rel) + (let loop ((roots source-roots)) + (if (null? roots) #f + (let ((clj (string-append (car roots) "/" rel ".clj")) + (cljc (string-append (car roots) "/" rel ".cljc"))) + (cond ((file-exists? clj) clj) + ((file-exists? cljc) cljc) + (else (loop (cdr roots)))))))) + +(define (find-ns-file name) (resolve-on-roots (ns-name->rel name))) ;; --- the loaded set --------------------------------------------------------- ;; Seeded with every namespace that already has vars at load time — the baked @@ -170,15 +172,10 @@ (for-each (lambda (p) (let* ((rel (if (and (> (string-length p) 0) (char=? (string-ref p 0) #\/)) - (substring p 1 (string-length p)) p))) - (let loop ((roots source-roots)) - (if (null? roots) - (error #f "Could not locate resource on source roots" p) - (let ((clj (string-append (car roots) "/" rel ".clj")) - (cljc (string-append (car roots) "/" rel ".cljc"))) - (cond ((file-exists? clj) (load-jolt-file clj)) - ((file-exists? cljc) (load-jolt-file cljc)) - (else (loop (cdr roots))))))))) + (substring p 1 (string-length p)) p)) + (f (resolve-on-roots rel))) + (if f (load-jolt-file f) + (error #f "Could not locate resource on source roots" p)))) paths) jolt-nil) (def-var! "clojure.core" "load" jolt-load) diff --git a/host/chez/natives-array.ss b/host/chez/natives-array.ss index ed3712b..de130fb 100644 --- a/host/chez/natives-array.ss +++ b/host/chez/natives-array.ss @@ -158,21 +158,18 @@ (set! jolt-type (lambda (x) (if (jolt-array? x) (na-array-class-name x) (%na-type x)))) (def-var! "clojure.core" "type" jolt-type) -;; instance? over an array class token ([I, [C, …). The token reaches us as a -;; string (Class/forName "[C") or symbol; normalize, and pass a non-array string -;; token on as a symbol so the inner wrappers' symbol-t-name doesn't choke. -(define %na-instance-check instance-check) -(set! instance-check +;; instance? over an array class token ([I, [C, …). An array token reaches us as +;; a string ("[C", from (Class/forName "[C")) — the dispatcher leaves it a string +;; (non-array string tokens are already normalized to symbols there); decide it +;; here, deferring everything else. +(register-instance-check-arm! (lambda (type-sym val) (let ((tname (cond ((string? type-sym) type-sym) ((symbol-t? type-sym) (symbol-t-name type-sym)) (else #f)))) - (cond - ((and tname (> (string-length tname) 0) (char=? (string-ref tname 0) #\[)) - (and (jolt-array? val) (string=? (na-array-class-name val) tname))) - ((string? type-sym) (%na-instance-check (jolt-symbol #f type-sym) val)) - (else (%na-instance-check type-sym val)))))) -(def-var! "clojure.core" "instance-check" instance-check) + (if (and tname (> (string-length tname) 0) (char=? (string-ref tname 0) #\[)) + (and (jolt-array? val) (string=? (na-array-class-name val) tname)) + 'pass)))) ;; clojure.java.io/reader over a char-array reads its chars (the JVM char[] branch). (def-var! "clojure.java.io" "reader" diff --git a/host/chez/natives-misc.ss b/host/chez/natives-misc.ss index ed8ed2c..1b9c84d 100644 --- a/host/chez/natives-misc.ss +++ b/host/chez/natives-misc.ss @@ -51,8 +51,7 @@ ;; the prelude would clobber a def-var! here — they're asserted in post-prelude.ss. ;; str of a uuid -> the bare 36-char string; pr-str -> #uuid "…". -(define %m-str-render-one jolt-str-render-one) -(set! jolt-str-render-one (lambda (x) (if (juuid? x) (juuid-s x) (%m-str-render-one x)))) +(register-str-render! juuid? juuid-s) (define (juuid-pr u) (string-append "#uuid \"" (juuid-s u) "\"")) (define %m-pr-str jolt-pr-str) (set! jolt-pr-str (lambda (x) (if (juuid? x) (juuid-pr x) (%m-pr-str x)))) diff --git a/host/chez/natives-queue.ss b/host/chez/natives-queue.ss index 79b657e..a888017 100644 --- a/host/chez/natives-queue.ss +++ b/host/chez/natives-queue.ss @@ -46,15 +46,13 @@ (define (jolt-seq-or-empty x) (let ((s (jolt-seq x))) (if (jolt-nil? s) jolt-empty-list s))) (define %q-pr-readable jolt-pr-readable) (set! jolt-pr-readable (lambda (x) (if (jolt-queue? x) (%q-pr-readable (jolt-seq-or-empty x)) (%q-pr-readable x)))) -(define %q-str-render-one jolt-str-render-one) -(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)))) +(register-str-render! jolt-queue? (lambda (x) (jolt-str-render-one (jolt-seq-or-empty x)))) ;; class / type / instance? recognize a queue. (define %q-class jolt-class) (set! jolt-class (lambda (x) (if (jolt-queue? x) "clojure.lang.PersistentQueue" (%q-class x)))) (def-var! "clojure.core" "class" jolt-class) -(define %q-instance-check instance-check) -(set! instance-check +(register-instance-check-arm! (lambda (type-sym val) (if (jolt-queue? val) (let ((tn (cond ((string? type-sym) type-sym) @@ -62,8 +60,7 @@ (and (member (last-dot tn) '("PersistentQueue" "IPersistentCollection" "Sequential" "Collection" "Object")) #t)) - (%q-instance-check type-sym val)))) -(def-var! "clojure.core" "instance-check" instance-check) + 'pass))) ;; clojure.lang.PersistentQueue/EMPTY + a queue? predicate. (register-class-statics! "PersistentQueue" (list (cons "EMPTY" jolt-queue-empty))) diff --git a/host/chez/natives-str.ss b/host/chez/natives-str.ss index f5c34c6..58f182f 100644 --- a/host/chez/natives-str.ss +++ b/host/chez/natives-str.ss @@ -196,13 +196,10 @@ (if (fx stringify each element (Clojure str), join by sep. +;; str-join-strs (defined below) does the join; here we just render each element. (define (str-join coll . opt) - (let ((sep (if (pair? opt) (jolt-str-render-one (car opt)) "")) - (items (map jolt-str-render-one (seq->list coll)))) - (let loop ((xs items) (first #t) (acc '())) - (cond ((null? xs) (apply string-append (reverse acc))) - (first (loop (cdr xs) #f (cons (car xs) acc))) - (else (loop (cdr xs) #f (cons (car xs) (cons sep acc)))))))) + (let ((sep (if (pair? opt) (jolt-str-render-one (car opt)) ""))) + (str-join-strs (map jolt-str-render-one (seq->list coll)) sep))) ;; (re-split irx s limit) -> parts, splitting at each match. Keeps interior AND ;; trailing empty strings (the clojure.string wrapper drops trailing for limit 0); diff --git a/host/chez/ns.ss b/host/chez/ns.ss index 1d52cae..e36c1bc 100644 --- a/host/chez/ns.ss +++ b/host/chez/ns.ss @@ -348,5 +348,4 @@ (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)))) +(register-str-render! jns? jns-name) diff --git a/host/chez/records-interop.ss b/host/chez/records-interop.ss new file mode 100644 index 0000000..3ab5141 --- /dev/null +++ b/host/chez/records-interop.ss @@ -0,0 +1,115 @@ +;; 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-objects) +;; 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))) + (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-sym val) + ;; normalize a bare (non-array) string class token to a symbol so every arm and + ;; the base table can read its name; array tokens ("[I") stay strings for the + ;; natives-array arm. + (let ((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) diff --git a/host/chez/records.ss b/host/chez/records.ss index 4c519ca..1174c9e 100644 --- a/host/chez/records.ss +++ b/host/chez/records.ss @@ -174,7 +174,9 @@ (keyword #f "name") (jolt-symbol jolt-nil name-str) (keyword #f "methods") methods)) -;; register-protocol-methods!: a no-op for Chez dispatch. +;; register-protocol-methods!: intentional no-op. Chez dispatches a protocol method +;; by the receiver's type tag at call time, so there is no method table to register; +;; this binding exists only because defprotocol-emitted code calls it. (define (register-protocol-methods! proto-name method-names) jolt-nil) ;; register-method: extend-type/extend register an impl. Host type names keep a @@ -329,7 +331,7 @@ ((string=? method-name "toString") (condition->message-string obj)) ((string=? method-name "getCause") jolt-nil) ;; java.sql.SQLException chaining — jolt errors don't chain (nil). - ((or (string=? method-name "getNextException") (string=? method-name "getCause")) jolt-nil) + ((string=? method-name "getNextException") jolt-nil) ((string=? method-name "getStackTrace") (jolt-vector)) ((string=? method-name "printStackTrace") jolt-nil) (else (error #f (string-append "No method " method-name " on Throwable"))))) @@ -408,98 +410,11 @@ ;; jolt exception values (ex-info + host-constructed throwables) are ex-info-shaped ;; maps tagged :jolt/type :jolt/ex-info; (class …)/instance? read the JVM class off ;; the optional :jolt/class key, defaulting to clojure.lang.ExceptionInfo. -;; 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. -(define (instance-check 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))) - (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 (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. -(define %r-str-render-one jolt-str-render-one) -(set! jolt-str-render-one +(register-str-render! jrec? (lambda (v) - (if (jrec? v) - (let ((f (find-protocol-method (jrec-tag v) "Object" "toString"))) - (if f (jolt-invoke f v) - (let ((s (jrec-pr v))) (substring s 1 (string-length s))))) - (%r-str-render-one v)))) + (let ((f (find-protocol-method (jrec-tag v) "Object" "toString"))) + (if f (jolt-invoke f v) + (let ((s (jrec-pr v))) (substring s 1 (string-length s))))))) ;; `type` lives in natives-meta.ss: it needs jolt-meta for the :type ;; override and a total value->taxonomy mapping, so it sits with meta — a record @@ -514,6 +429,5 @@ (def-var! "clojure.core" "protocol-dispatch" (lambda (pn mn obj rest) (protocol-dispatch pn mn obj rest))) (def-var! "clojure.core" "satisfies?" jolt-satisfies?) (def-var! "clojure.core" "extenders" extenders) -(def-var! "clojure.core" "instance-check" instance-check) (def-var! "clojure.core" "make-reified" (lambda (mm . rest) (apply make-reified mm rest))) (def-var! "clojure.core" "record-method-dispatch" (lambda (obj m rest) (record-method-dispatch obj m rest))) diff --git a/host/chez/rt.ss b/host/chez/rt.ss index 4c88767..5b507ad 100644 --- a/host/chez/rt.ss +++ b/host/chez/rt.ss @@ -237,6 +237,7 @@ ;; the dispatchers/printers it wraps (collections/seq/values/converters/printing/ ;; transients). (load "host/chez/records.ss") +(load "host/chez/records-interop.ss") ; exception hierarchy + instance-check taxonomy ;; metadata: meta / with-meta over an identity-keyed ;; side-table. After records.ss (jrec) + the collection ctors it copies. @@ -303,7 +304,9 @@ ;; host-static-call/host-new + the jhost method registry. Loads LAST — it extends ;; record-method-dispatch (records.ss) and reuses natives-str helpers (str-trim, ;; ascii-string-down, re-split, str-split-drop-trailing) + the regex-t accessors. -(load "host/chez/host-static.ss") +(load "host/chez/host-static.ss") ; registries + jhost + coercion helpers +(load "host/chez/host-static-statics.ss") ; java.lang/util static methods +(load "host/chez/host-static-objects.ss") ; host object classes + instance? hook ;; generic dot-form dispatch: field access + map/vector member access ;; for the `.` / `.-field` desugar. Loads after host-static.ss so it wraps every diff --git a/host/chez/run-infer.ss b/host/chez/run-infer.ss new file mode 100644 index 0000000..2125ef3 --- /dev/null +++ b/host/chez/run-infer.ss @@ -0,0 +1,106 @@ +;; run-infer.ss — inference / success-type-checking gate (jolt.passes.types). +;; +;; The corpus and unit gates compile through run-passes' const-fold-only branch, +;; so the inference walk (jolt.passes.types) runs only under `jolt build --opt` — +;; buildsmoke exercises it on one trivial app and asserts stdout only. This gate +;; drives the pass DIRECTLY: analyze a source string to IR, then call the public +;; checker/driver entry points (check-form, infer-body, the set-*! registries) and +;; assert their observable output (diagnostic counts, collected calls/escapes). It +;; pins the behavior the inference walk's internal state produces, so a refactor of +;; that state is gate-validatable. +;; +;; chez --script host/chez/run-infer.ss +(import (chezscheme)) + +(load "host/chez/rt.ss") +(set-chez-ns! "clojure.core") +(load "host/chez/seed/prelude.ss") +(load "host/chez/post-prelude.ss") +(set-chez-ns! "user") +(load "host/chez/host-contract.ss") +(load "host/chez/seed/image.ss") +(load "host/chez/compile-eval.ss") + +(define analyze (var-deref "jolt.analyzer" "analyze")) +(define check-form (var-deref "jolt.passes.types" "check-form")) +(define infer-body (var-deref "jolt.passes.types" "infer-body")) +(define reset-escapes! (var-deref "jolt.passes.types" "reset-escapes!")) +(define collected-escapes (var-deref "jolt.passes.types" "collected-escapes")) +(define set-record-shapes! (var-deref "jolt.passes.types" "set-record-shapes!")) +(define set-vtypes! (var-deref "jolt.passes.types" "set-vtypes!")) +(define set-check-mode! (var-deref "jolt.passes.types" "set-check-mode!")) +(define run-inference (var-deref "jolt.passes.types" "run-inference")) +(define take-diags! (var-deref "jolt.passes.types" "take-diags!")) + +;; analyze a source string to its IR node (fresh ctx, ns "user", no passes). +(define (anode src) (analyze (make-analyze-ctx "user") (jolt-ce-read src))) +;; number of success-type diagnostics check-form produces for src. +(define (diags src strict?) (jolt-count (check-form (anode src) strict?))) + +(define fails 0) +(define total 0) +(define (check label actual expected) + (set! total (+ total 1)) + (unless (equal? actual expected) + (set! fails (+ fails 1)) + (printf " FAIL ~a: got ~s expected ~s\n" label actual expected))) + +;; --- core error-domain checking (strict not required) ----------------------- +(check "num-op on keyword" (diags "(+ 1 :k)" #f) 1) +(check "num-op all numbers" (diags "(+ 1 2)" #f) 0) +(check "count on number" (diags "(count 5)" #f) 1) +(check "count on vector" (diags "(count [1 2])" #f) 0) +(check "lenient (:k 5)" (diags "(:k 5)" #f) 0) +(check "call a number" (diags "(5 1)" #f) 1) +(check "nested count return type" (diags "(+ 1 (count :k))" #f) 1) + +;; --- walk arms thread the type env ------------------------------------------ +(check "let binds kw" (diags "(let [x :k] (+ x 1))" #f) 1) +(check "let binds ok" (diags "(let [x 1] (+ x 1))" #f) 0) +(check "if then branch error" (diags "(if true (+ 1 :k) 2)" #f) 1) +(check "do statement error" (diags "(do (+ 1 :k) 2)" #f) 1) +(check "mapv seeds element type" (diags "(mapv (fn [x] (+ x 1)) [:a :b])" #f) 1) +(check "mapv ok element type" (diags "(mapv (fn [x] (+ x 1)) [1 2])" #f) 0) +(check "reduce seeds element" (diags "(reduce (fn [acc x] (+ acc x)) 0 [:a])" #f) 1) + +;; --- strict user-function domains (checking-box / diag-memo / user-sig) ------ +(check "user wrong arg type" (diags "(do (defn f [x] (+ x 1)) (f :k))" #t) 1) +(check "user wrong arity" (diags "(do (defn g [x] x) (g 1 2))" #t) 1) +(check "user call ok" (diags "(do (defn h [x] (+ x 1)) (h 3))" #t) 0) +(check "user domains off w/o strict" (diags "(do (defn f [x] (+ x 1)) (f :k))" #f) 0) +;; recursive user fn terminates (cycle guard) and still flags the bad arg +(check "user recursive terminates" + (diags "(do (defn rf [x] (+ x (rf x))) (rf :k))" #t) 1) + +;; --- infer-body collects calls + escapes ------------------------------------ +(reset-escapes!) +(let ((r (infer-body (anode "(do (foo 1) (bar 2) (map inc [1]))") (jolt-hash-map)))) + (check "infer-body calls" (jolt-count (jolt-nth r 2)) 3) ; foo, bar, map + (check "infer-body escapes" (jolt-count (collected-escapes)) 1)) ; inc (value position) + +;; --- the record-shapes registry feeds call-result types -------------------- +;; without shapes a (->P …) call result is :any (accepted); with the registry it +;; types as a struct, so an arithmetic op over it is provably not-a-number. +(check "ctor result :any w/o shapes" (diags "(+ (->P 1) 1)" #f) 0) +(set-record-shapes! + (jolt-hash-map "user/->P" + (jolt-hash-map (keyword #f "fields") (jolt-vector (keyword #f "x")) + (keyword #f "tags") (jolt-vector jolt-nil) + (keyword #f "type") "user.P"))) +(check "ctor result struct w/ shapes" (diags "(+ (->P 1) 1)" #f) 1) +(set-record-shapes! (jolt-hash-map)) + +;; --- the opt-path checker: run-inference emits, take-diags! drains ----------- +;; (set-check-mode! on strict?) arms checking during the next run-inference; the +;; diagnostics are stashed for take-diags! to drain once. +(set-check-mode! #t #f) +(run-inference (anode "(+ 1 :k)")) +(check "take-diags drains run-inference" (jolt-count (take-diags!)) 1) +(check "take-diags re-drained empty" (jolt-count (take-diags!)) 0) +(set-check-mode! #f #f) +(run-inference (anode "(+ 1 :k)")) +(check "no diags when check-mode off" (jolt-count (take-diags!)) 0) + +(if (= fails 0) + (begin (printf "infer gate: ~a/~a passed\n" total total) (exit 0)) + (begin (printf "infer gate: ~a/~a passed (~a failed)\n" (- total fails) total fails) (exit 1))) diff --git a/host/chez/seed/image.ss b/host/chez/seed/image.ss index adf54eb..5b28d2b 100644 --- a/host/chez/seed/image.ss +++ b/host/chez/seed/image.ss @@ -1,127 +1,129 @@ (guard (e (#t #f)) - (def-var! "jolt.ir" "const" (letrec ((const (lambda (v) (let fnrec3503 ((v v)) (let* ((_o$3504 (keyword #f "op")) (_o$3505 (keyword #f "const")) (_o$3506 (keyword #f "val")) (_o$3507 v)) (jolt-hash-map _o$3504 _o$3505 _o$3506 _o$3507)))))) const))) + (def-var! "jolt.ir" "const" (letrec ((const (lambda (v) (let fnrec4412 ((v v)) (let* ((_o$4413 (keyword #f "op")) (_o$4414 (keyword #f "const")) (_o$4415 (keyword #f "val")) (_o$4416 v)) (jolt-hash-map _o$4413 _o$4414 _o$4415 _o$4416)))))) const))) (guard (e (#t #f)) - (def-var! "jolt.ir" "local" (letrec ((local (lambda (name) (let fnrec3508 ((name name)) (let* ((_o$3509 (keyword #f "op")) (_o$3510 (keyword #f "local")) (_o$3511 (keyword #f "name")) (_o$3512 name)) (jolt-hash-map _o$3509 _o$3510 _o$3511 _o$3512)))))) local))) + (def-var! "jolt.ir" "local" (letrec ((local (lambda (name) (let fnrec4417 ((name name)) (let* ((_o$4418 (keyword #f "op")) (_o$4419 (keyword #f "local")) (_o$4420 (keyword #f "name")) (_o$4421 name)) (jolt-hash-map _o$4418 _o$4419 _o$4420 _o$4421)))))) local))) (guard (e (#t #f)) - (def-var! "jolt.ir" "var-ref" (letrec ((var-ref (lambda (ns name) (let fnrec3513 ((ns ns) (name name)) (let* ((_o$3514 (keyword #f "op")) (_o$3515 (keyword #f "var")) (_o$3516 (keyword #f "ns")) (_o$3517 ns) (_o$3518 (keyword #f "name")) (_o$3519 name)) (jolt-hash-map _o$3514 _o$3515 _o$3516 _o$3517 _o$3518 _o$3519)))))) var-ref))) + (def-var! "jolt.ir" "var-ref" (letrec ((var-ref (lambda (ns name) (let fnrec4422 ((ns ns) (name name)) (let* ((_o$4423 (keyword #f "op")) (_o$4424 (keyword #f "var")) (_o$4425 (keyword #f "ns")) (_o$4426 ns) (_o$4427 (keyword #f "name")) (_o$4428 name)) (jolt-hash-map _o$4423 _o$4424 _o$4425 _o$4426 _o$4427 _o$4428)))))) var-ref))) (guard (e (#t #f)) - (def-var! "jolt.ir" "the-var" (letrec ((the-var (lambda (ns name) (let fnrec3520 ((ns ns) (name name)) (let* ((_o$3521 (keyword #f "op")) (_o$3522 (keyword #f "the-var")) (_o$3523 (keyword #f "ns")) (_o$3524 ns) (_o$3525 (keyword #f "name")) (_o$3526 name)) (jolt-hash-map _o$3521 _o$3522 _o$3523 _o$3524 _o$3525 _o$3526)))))) the-var))) + (def-var! "jolt.ir" "the-var" (letrec ((the-var (lambda (ns name) (let fnrec4429 ((ns ns) (name name)) (let* ((_o$4430 (keyword #f "op")) (_o$4431 (keyword #f "the-var")) (_o$4432 (keyword #f "ns")) (_o$4433 ns) (_o$4434 (keyword #f "name")) (_o$4435 name)) (jolt-hash-map _o$4430 _o$4431 _o$4432 _o$4433 _o$4434 _o$4435)))))) the-var))) (guard (e (#t #f)) - (def-var! "jolt.ir" "rt" (letrec ((rt (lambda (name) (let fnrec3527 ((name name)) (let* ((_o$3528 (keyword #f "op")) (_o$3529 (keyword #f "rt")) (_o$3530 (keyword #f "name")) (_o$3531 name)) (jolt-hash-map _o$3528 _o$3529 _o$3530 _o$3531)))))) rt))) + (def-var! "jolt.ir" "host-ref" (letrec ((host-ref (lambda (name) (let fnrec4436 ((name name)) (let* ((_o$4437 (keyword #f "op")) (_o$4438 (keyword #f "host")) (_o$4439 (keyword #f "name")) (_o$4440 name)) (jolt-hash-map _o$4437 _o$4438 _o$4439 _o$4440)))))) host-ref))) (guard (e (#t #f)) - (def-var! "jolt.ir" "host-ref" (letrec ((host-ref (lambda (name) (let fnrec3532 ((name name)) (let* ((_o$3533 (keyword #f "op")) (_o$3534 (keyword #f "host")) (_o$3535 (keyword #f "name")) (_o$3536 name)) (jolt-hash-map _o$3533 _o$3534 _o$3535 _o$3536)))))) host-ref))) + (def-var! "jolt.ir" "host-static" (letrec ((host-static (lambda (class member) (let fnrec4441 ((class class) (member member)) (let* ((_o$4442 (keyword #f "op")) (_o$4443 (keyword #f "host-static")) (_o$4444 (keyword #f "class")) (_o$4445 class) (_o$4446 (keyword #f "member")) (_o$4447 member)) (jolt-hash-map _o$4442 _o$4443 _o$4444 _o$4445 _o$4446 _o$4447)))))) host-static))) (guard (e (#t #f)) - (def-var! "jolt.ir" "host-static" (letrec ((host-static (lambda (class member) (let fnrec3537 ((class class) (member member)) (let* ((_o$3538 (keyword #f "op")) (_o$3539 (keyword #f "host-static")) (_o$3540 (keyword #f "class")) (_o$3541 class) (_o$3542 (keyword #f "member")) (_o$3543 member)) (jolt-hash-map _o$3538 _o$3539 _o$3540 _o$3541 _o$3542 _o$3543)))))) host-static))) + (def-var! "jolt.ir" "host-new" (letrec ((host-new (lambda (class args) (let fnrec4448 ((class class) (args args)) (let* ((_o$4449 (keyword #f "op")) (_o$4450 (keyword #f "host-new")) (_o$4451 (keyword #f "class")) (_o$4452 class) (_o$4453 (keyword #f "args")) (_o$4454 args)) (jolt-hash-map _o$4449 _o$4450 _o$4451 _o$4452 _o$4453 _o$4454)))))) host-new))) (guard (e (#t #f)) - (def-var! "jolt.ir" "host-new" (letrec ((host-new (lambda (class args) (let fnrec3544 ((class class) (args args)) (let* ((_o$3545 (keyword #f "op")) (_o$3546 (keyword #f "host-new")) (_o$3547 (keyword #f "class")) (_o$3548 class) (_o$3549 (keyword #f "args")) (_o$3550 args)) (jolt-hash-map _o$3545 _o$3546 _o$3547 _o$3548 _o$3549 _o$3550)))))) host-new))) + (def-var! "jolt.ir" "if-node" (letrec ((if-node (lambda (test then _else) (let fnrec4455 ((test test) (then then) (_else _else)) (let* ((_o$4456 (keyword #f "op")) (_o$4457 (keyword #f "if")) (_o$4458 (keyword #f "test")) (_o$4459 test) (_o$4460 (keyword #f "then")) (_o$4461 then) (_o$4462 (keyword #f "else")) (_o$4463 _else)) (jolt-hash-map _o$4456 _o$4457 _o$4458 _o$4459 _o$4460 _o$4461 _o$4462 _o$4463)))))) if-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "if-node" (letrec ((if-node (lambda (test then _else) (let fnrec3551 ((test test) (then then) (_else _else)) (let* ((_o$3552 (keyword #f "op")) (_o$3553 (keyword #f "if")) (_o$3554 (keyword #f "test")) (_o$3555 test) (_o$3556 (keyword #f "then")) (_o$3557 then) (_o$3558 (keyword #f "else")) (_o$3559 _else)) (jolt-hash-map _o$3552 _o$3553 _o$3554 _o$3555 _o$3556 _o$3557 _o$3558 _o$3559)))))) if-node))) + (def-var! "jolt.ir" "do-node" (letrec ((do-node (lambda (statements ret) (let fnrec4464 ((statements statements) (ret ret)) (let* ((_o$4465 (keyword #f "op")) (_o$4466 (keyword #f "do")) (_o$4467 (keyword #f "statements")) (_o$4468 statements) (_o$4469 (keyword #f "ret")) (_o$4470 ret)) (jolt-hash-map _o$4465 _o$4466 _o$4467 _o$4468 _o$4469 _o$4470)))))) do-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "do-node" (letrec ((do-node (lambda (statements ret) (let fnrec3560 ((statements statements) (ret ret)) (let* ((_o$3561 (keyword #f "op")) (_o$3562 (keyword #f "do")) (_o$3563 (keyword #f "statements")) (_o$3564 statements) (_o$3565 (keyword #f "ret")) (_o$3566 ret)) (jolt-hash-map _o$3561 _o$3562 _o$3563 _o$3564 _o$3565 _o$3566)))))) do-node))) + (def-var! "jolt.ir" "invoke" (letrec ((invoke (lambda (f args) (let fnrec4471 ((f f) (args args)) (let* ((_o$4472 (keyword #f "op")) (_o$4473 (keyword #f "invoke")) (_o$4474 (keyword #f "fn")) (_o$4475 f) (_o$4476 (keyword #f "args")) (_o$4477 args)) (jolt-hash-map _o$4472 _o$4473 _o$4474 _o$4475 _o$4476 _o$4477)))))) invoke))) (guard (e (#t #f)) - (def-var! "jolt.ir" "invoke" (letrec ((invoke (lambda (f args) (let fnrec3567 ((f f) (args args)) (let* ((_o$3568 (keyword #f "op")) (_o$3569 (keyword #f "invoke")) (_o$3570 (keyword #f "fn")) (_o$3571 f) (_o$3572 (keyword #f "args")) (_o$3573 args)) (jolt-hash-map _o$3568 _o$3569 _o$3570 _o$3571 _o$3572 _o$3573)))))) invoke))) + (def-var! "jolt.ir" "def-node" (letrec ((def-node (case-lambda ((ns name init) (let fnrec4478 ((ns ns) (name name) (init init)) (let* ((_o$4479 (keyword #f "op")) (_o$4480 (keyword #f "def")) (_o$4481 (keyword #f "ns")) (_o$4482 ns) (_o$4483 (keyword #f "name")) (_o$4484 name) (_o$4485 (keyword #f "init")) (_o$4486 init)) (jolt-hash-map _o$4479 _o$4480 _o$4481 _o$4482 _o$4483 _o$4484 _o$4485 _o$4486)))) ((ns name init meta) (let fnrec4487 ((ns ns) (name name) (init init) (meta meta)) (if (jolt-truthy? meta) (let* ((_o$4488 (keyword #f "op")) (_o$4489 (keyword #f "def")) (_o$4490 (keyword #f "ns")) (_o$4491 ns) (_o$4492 (keyword #f "name")) (_o$4493 name) (_o$4494 (keyword #f "init")) (_o$4495 init) (_o$4496 (keyword #f "meta")) (_o$4497 meta)) (jolt-hash-map _o$4488 _o$4489 _o$4490 _o$4491 _o$4492 _o$4493 _o$4494 _o$4495 _o$4496 _o$4497)) (let* ((_o$4498 (keyword #f "op")) (_o$4499 (keyword #f "def")) (_o$4500 (keyword #f "ns")) (_o$4501 ns) (_o$4502 (keyword #f "name")) (_o$4503 name) (_o$4504 (keyword #f "init")) (_o$4505 init)) (jolt-hash-map _o$4498 _o$4499 _o$4500 _o$4501 _o$4502 _o$4503 _o$4504 _o$4505)))))))) def-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "def-node" (letrec ((def-node (case-lambda ((ns name init) (let fnrec3574 ((ns ns) (name name) (init init)) (let* ((_o$3575 (keyword #f "op")) (_o$3576 (keyword #f "def")) (_o$3577 (keyword #f "ns")) (_o$3578 ns) (_o$3579 (keyword #f "name")) (_o$3580 name) (_o$3581 (keyword #f "init")) (_o$3582 init)) (jolt-hash-map _o$3575 _o$3576 _o$3577 _o$3578 _o$3579 _o$3580 _o$3581 _o$3582)))) ((ns name init meta) (let fnrec3583 ((ns ns) (name name) (init init) (meta meta)) (if (jolt-truthy? meta) (let* ((_o$3584 (keyword #f "op")) (_o$3585 (keyword #f "def")) (_o$3586 (keyword #f "ns")) (_o$3587 ns) (_o$3588 (keyword #f "name")) (_o$3589 name) (_o$3590 (keyword #f "init")) (_o$3591 init) (_o$3592 (keyword #f "meta")) (_o$3593 meta)) (jolt-hash-map _o$3584 _o$3585 _o$3586 _o$3587 _o$3588 _o$3589 _o$3590 _o$3591 _o$3592 _o$3593)) (let* ((_o$3594 (keyword #f "op")) (_o$3595 (keyword #f "def")) (_o$3596 (keyword #f "ns")) (_o$3597 ns) (_o$3598 (keyword #f "name")) (_o$3599 name) (_o$3600 (keyword #f "init")) (_o$3601 init)) (jolt-hash-map _o$3594 _o$3595 _o$3596 _o$3597 _o$3598 _o$3599 _o$3600 _o$3601)))))))) def-node))) + (def-var! "jolt.ir" "let-node" (letrec ((let-node (lambda (bindings body) (let fnrec4506 ((bindings bindings) (body body)) (let* ((_o$4507 (keyword #f "op")) (_o$4508 (keyword #f "let")) (_o$4509 (keyword #f "bindings")) (_o$4510 bindings) (_o$4511 (keyword #f "body")) (_o$4512 body)) (jolt-hash-map _o$4507 _o$4508 _o$4509 _o$4510 _o$4511 _o$4512)))))) let-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "let-node" (letrec ((let-node (lambda (bindings body) (let fnrec3602 ((bindings bindings) (body body)) (let* ((_o$3603 (keyword #f "op")) (_o$3604 (keyword #f "let")) (_o$3605 (keyword #f "bindings")) (_o$3606 bindings) (_o$3607 (keyword #f "body")) (_o$3608 body)) (jolt-hash-map _o$3603 _o$3604 _o$3605 _o$3606 _o$3607 _o$3608)))))) let-node))) + (def-var! "jolt.ir" "fn-node" (letrec ((fn-node (lambda (name arities) (let fnrec4513 ((name name) (arities arities)) (if (jolt-truthy? name) (let* ((_o$4514 (keyword #f "op")) (_o$4515 (keyword #f "fn")) (_o$4516 (keyword #f "name")) (_o$4517 name) (_o$4518 (keyword #f "arities")) (_o$4519 arities)) (jolt-hash-map _o$4514 _o$4515 _o$4516 _o$4517 _o$4518 _o$4519)) (let* ((_o$4520 (keyword #f "op")) (_o$4521 (keyword #f "fn")) (_o$4522 (keyword #f "arities")) (_o$4523 arities)) (jolt-hash-map _o$4520 _o$4521 _o$4522 _o$4523))))))) fn-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "fn-node" (letrec ((fn-node (lambda (name arities) (let fnrec3609 ((name name) (arities arities)) (if (jolt-truthy? name) (let* ((_o$3610 (keyword #f "op")) (_o$3611 (keyword #f "fn")) (_o$3612 (keyword #f "name")) (_o$3613 name) (_o$3614 (keyword #f "arities")) (_o$3615 arities)) (jolt-hash-map _o$3610 _o$3611 _o$3612 _o$3613 _o$3614 _o$3615)) (let* ((_o$3616 (keyword #f "op")) (_o$3617 (keyword #f "fn")) (_o$3618 (keyword #f "arities")) (_o$3619 arities)) (jolt-hash-map _o$3616 _o$3617 _o$3618 _o$3619))))))) fn-node))) + (def-var! "jolt.ir" "vector-node" (letrec ((vector-node (lambda (items) (let fnrec4524 ((items items)) (let* ((_o$4525 (keyword #f "op")) (_o$4526 (keyword #f "vector")) (_o$4527 (keyword #f "items")) (_o$4528 items)) (jolt-hash-map _o$4525 _o$4526 _o$4527 _o$4528)))))) vector-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "vector-node" (letrec ((vector-node (lambda (items) (let fnrec3620 ((items items)) (let* ((_o$3621 (keyword #f "op")) (_o$3622 (keyword #f "vector")) (_o$3623 (keyword #f "items")) (_o$3624 items)) (jolt-hash-map _o$3621 _o$3622 _o$3623 _o$3624)))))) vector-node))) + (def-var! "jolt.ir" "map-node" (letrec ((map-node (lambda (pairs) (let fnrec4529 ((pairs pairs)) (let* ((_o$4530 (keyword #f "op")) (_o$4531 (keyword #f "map")) (_o$4532 (keyword #f "pairs")) (_o$4533 pairs)) (jolt-hash-map _o$4530 _o$4531 _o$4532 _o$4533)))))) map-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "map-node" (letrec ((map-node (lambda (pairs) (let fnrec3625 ((pairs pairs)) (let* ((_o$3626 (keyword #f "op")) (_o$3627 (keyword #f "map")) (_o$3628 (keyword #f "pairs")) (_o$3629 pairs)) (jolt-hash-map _o$3626 _o$3627 _o$3628 _o$3629)))))) map-node))) + (def-var! "jolt.ir" "set-node" (letrec ((set-node (lambda (items) (let fnrec4534 ((items items)) (let* ((_o$4535 (keyword #f "op")) (_o$4536 (keyword #f "set")) (_o$4537 (keyword #f "items")) (_o$4538 items)) (jolt-hash-map _o$4535 _o$4536 _o$4537 _o$4538)))))) set-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "set-node" (letrec ((set-node (lambda (items) (let fnrec3630 ((items items)) (let* ((_o$3631 (keyword #f "op")) (_o$3632 (keyword #f "set")) (_o$3633 (keyword #f "items")) (_o$3634 items)) (jolt-hash-map _o$3631 _o$3632 _o$3633 _o$3634)))))) set-node))) + (def-var! "jolt.ir" "quote-node" (letrec ((quote-node (lambda (form) (let fnrec4539 ((form form)) (let* ((_o$4540 (keyword #f "op")) (_o$4541 (keyword #f "quote")) (_o$4542 (keyword #f "form")) (_o$4543 form)) (jolt-hash-map _o$4540 _o$4541 _o$4542 _o$4543)))))) quote-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "quote-node" (letrec ((quote-node (lambda (form) (let fnrec3635 ((form form)) (let* ((_o$3636 (keyword #f "op")) (_o$3637 (keyword #f "quote")) (_o$3638 (keyword #f "form")) (_o$3639 form)) (jolt-hash-map _o$3636 _o$3637 _o$3638 _o$3639)))))) quote-node))) + (def-var! "jolt.ir" "throw-node" (letrec ((throw-node (lambda (expr) (let fnrec4544 ((expr expr)) (let* ((_o$4545 (keyword #f "op")) (_o$4546 (keyword #f "throw")) (_o$4547 (keyword #f "expr")) (_o$4548 expr)) (jolt-hash-map _o$4545 _o$4546 _o$4547 _o$4548)))))) throw-node))) (guard (e (#t #f)) - (def-var! "jolt.ir" "throw-node" (letrec ((throw-node (lambda (expr) (let fnrec3640 ((expr expr)) (let* ((_o$3641 (keyword #f "op")) (_o$3642 (keyword #f "throw")) (_o$3643 (keyword #f "expr")) (_o$3644 expr)) (jolt-hash-map _o$3641 _o$3642 _o$3643 _o$3644)))))) throw-node))) + (def-var! "jolt.ir" "map-ir-children" (letrec ((map-ir-children (lambda (f node) (let fnrec4549 ((f f) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$4550 node) (_a$4551 (keyword #f "test")) (_a$4552 (jolt-invoke f (jolt-get node (keyword #f "test")))) (_a$4553 (keyword #f "then")) (_a$4554 (jolt-invoke f (jolt-get node (keyword #f "then")))) (_a$4555 (keyword #f "else")) (_a$4556 (jolt-invoke f (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$4550 _a$4551 _a$4552 _a$4553 _a$4554 _a$4555 _a$4556)) (if (jolt= op (keyword #f "do")) (let* ((_a$4557 node) (_a$4558 (keyword #f "statements")) (_a$4559 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "statements")))) (_a$4560 (keyword #f "ret")) (_a$4561 (jolt-invoke f (jolt-get node (keyword #f "ret"))))) (jolt-assoc _a$4557 _a$4558 _a$4559 _a$4560 _a$4561)) (if (jolt= op (keyword #f "throw")) (jolt-assoc node (keyword #f "expr") (jolt-invoke f (jolt-get node (keyword #f "expr")))) (if (jolt= op (keyword #f "set-var")) (jolt-assoc node (keyword #f "val") (jolt-invoke f (jolt-get node (keyword #f "val")))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$4562 node) (_a$4563 (keyword #f "obj")) (_a$4564 (jolt-invoke f (jolt-get node (keyword #f "obj")))) (_a$4565 (keyword #f "val")) (_a$4566 (jolt-invoke f (jolt-get node (keyword #f "val"))))) (jolt-assoc _a$4562 _a$4563 _a$4564 _a$4565 _a$4566)) (if (jolt= op (keyword #f "defmacro")) (jolt-assoc node (keyword #f "fn") (jolt-invoke f (jolt-get node (keyword #f "fn")))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$4567 node) (_a$4568 (keyword #f "fn")) (_a$4569 (jolt-invoke f (jolt-get node (keyword #f "fn")))) (_a$4570 (keyword #f "args")) (_a$4571 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$4567 _a$4568 _a$4569 _a$4570 _a$4571)) (if (jolt= op (keyword #f "vector")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "set")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "map")) (jolt-assoc node (keyword #f "pairs") (let* ((_a$4575 (var-deref "clojure.core" "mapv")) (_a$4576 (lambda (pr) (let fnrec4572 ((pr pr)) (let* ((_o$4573 (jolt-invoke f (jolt-nth pr 0))) (_o$4574 (jolt-invoke f (jolt-nth pr 1)))) (jolt-vector _o$4573 _o$4574))))) (_a$4577 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$4575 _a$4576 _a$4577))) (if (jolt= op (keyword #f "let")) (let* ((_a$4584 node) (_a$4585 (keyword #f "bindings")) (_a$4586 (let* ((_a$4581 (var-deref "clojure.core" "mapv")) (_a$4582 (lambda (b) (let fnrec4578 ((b b)) (let* ((_o$4579 (jolt-nth b 0)) (_o$4580 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$4579 _o$4580))))) (_a$4583 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$4581 _a$4582 _a$4583))) (_a$4587 (keyword #f "body")) (_a$4588 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$4584 _a$4585 _a$4586 _a$4587 _a$4588)) (if (jolt= op (keyword #f "loop")) (let* ((_a$4595 node) (_a$4596 (keyword #f "bindings")) (_a$4597 (let* ((_a$4592 (var-deref "clojure.core" "mapv")) (_a$4593 (lambda (b) (let fnrec4589 ((b b)) (let* ((_o$4590 (jolt-nth b 0)) (_o$4591 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$4590 _o$4591))))) (_a$4594 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$4592 _a$4593 _a$4594))) (_a$4598 (keyword #f "body")) (_a$4599 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$4595 _a$4596 _a$4597 _a$4598 _a$4599)) (if (jolt= op (keyword #f "recur")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "fn")) (jolt-assoc node (keyword #f "arities") (let* ((_a$4601 (var-deref "clojure.core" "mapv")) (_a$4602 (lambda (a) (let fnrec4600 ((a a)) (jolt-assoc a (keyword #f "body") (jolt-invoke f (jolt-get a (keyword #f "body"))))))) (_a$4603 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$4601 _a$4602 _a$4603))) (if (jolt= op (keyword #f "def")) (jolt-assoc node (keyword #f "init") (jolt-invoke f (jolt-get node (keyword #f "init")))) (if (jolt= op (keyword #f "host-call")) (let* ((_a$4604 node) (_a$4605 (keyword #f "target")) (_a$4606 (jolt-invoke f (jolt-get node (keyword #f "target")))) (_a$4607 (keyword #f "args")) (_a$4608 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$4604 _a$4605 _a$4606 _a$4607 _a$4608)) (if (jolt= op (keyword #f "host-new")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "try")) (let* ((n (jolt-assoc node (keyword #f "body") (jolt-invoke f (jolt-get node (keyword #f "body"))))) (n (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-assoc n (keyword #f "catch-body") (jolt-invoke f (jolt-get node (keyword #f "catch-body")))) n)) (n (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-assoc n (keyword #f "finally") (jolt-invoke f (jolt-get node (keyword #f "finally")))) n))) n) (if (jolt-truthy? (keyword #f "else")) node jolt-nil)))))))))))))))))))))))) map-ir-children))) (guard (e (#t #f)) - (def-var! "jolt.ir" "op" (letrec ((op (lambda (node) (let fnrec3645 ((node node)) (jolt-get node (keyword #f "op")))))) op))) -(guard (e (#t #f)) - (def-var! "jolt.ir" "map-ir-children" (letrec ((map-ir-children (lambda (f node) (let fnrec3646 ((f f) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$3647 node) (_a$3648 (keyword #f "test")) (_a$3649 (jolt-invoke f (jolt-get node (keyword #f "test")))) (_a$3650 (keyword #f "then")) (_a$3651 (jolt-invoke f (jolt-get node (keyword #f "then")))) (_a$3652 (keyword #f "else")) (_a$3653 (jolt-invoke f (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$3647 _a$3648 _a$3649 _a$3650 _a$3651 _a$3652 _a$3653)) (if (jolt= op (keyword #f "do")) (let* ((_a$3654 node) (_a$3655 (keyword #f "statements")) (_a$3656 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "statements")))) (_a$3657 (keyword #f "ret")) (_a$3658 (jolt-invoke f (jolt-get node (keyword #f "ret"))))) (jolt-assoc _a$3654 _a$3655 _a$3656 _a$3657 _a$3658)) (if (jolt= op (keyword #f "throw")) (jolt-assoc node (keyword #f "expr") (jolt-invoke f (jolt-get node (keyword #f "expr")))) (if (jolt= op (keyword #f "set-var")) (jolt-assoc node (keyword #f "val") (jolt-invoke f (jolt-get node (keyword #f "val")))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$3659 node) (_a$3660 (keyword #f "obj")) (_a$3661 (jolt-invoke f (jolt-get node (keyword #f "obj")))) (_a$3662 (keyword #f "val")) (_a$3663 (jolt-invoke f (jolt-get node (keyword #f "val"))))) (jolt-assoc _a$3659 _a$3660 _a$3661 _a$3662 _a$3663)) (if (jolt= op (keyword #f "defmacro")) (jolt-assoc node (keyword #f "fn") (jolt-invoke f (jolt-get node (keyword #f "fn")))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$3664 node) (_a$3665 (keyword #f "fn")) (_a$3666 (jolt-invoke f (jolt-get node (keyword #f "fn")))) (_a$3667 (keyword #f "args")) (_a$3668 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$3664 _a$3665 _a$3666 _a$3667 _a$3668)) (if (jolt= op (keyword #f "vector")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "set")) (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "items")))) (if (jolt= op (keyword #f "map")) (jolt-assoc node (keyword #f "pairs") (let* ((_a$3672 (var-deref "clojure.core" "mapv")) (_a$3673 (lambda (pr) (let fnrec3669 ((pr pr)) (let* ((_o$3670 (jolt-invoke f (jolt-nth pr 0))) (_o$3671 (jolt-invoke f (jolt-nth pr 1)))) (jolt-vector _o$3670 _o$3671))))) (_a$3674 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$3672 _a$3673 _a$3674))) (if (jolt= op (keyword #f "let")) (let* ((_a$3681 node) (_a$3682 (keyword #f "bindings")) (_a$3683 (let* ((_a$3678 (var-deref "clojure.core" "mapv")) (_a$3679 (lambda (b) (let fnrec3675 ((b b)) (let* ((_o$3676 (jolt-nth b 0)) (_o$3677 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$3676 _o$3677))))) (_a$3680 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$3678 _a$3679 _a$3680))) (_a$3684 (keyword #f "body")) (_a$3685 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$3681 _a$3682 _a$3683 _a$3684 _a$3685)) (if (jolt= op (keyword #f "loop")) (let* ((_a$3692 node) (_a$3693 (keyword #f "bindings")) (_a$3694 (let* ((_a$3689 (var-deref "clojure.core" "mapv")) (_a$3690 (lambda (b) (let fnrec3686 ((b b)) (let* ((_o$3687 (jolt-nth b 0)) (_o$3688 (jolt-invoke f (jolt-nth b 1)))) (jolt-vector _o$3687 _o$3688))))) (_a$3691 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$3689 _a$3690 _a$3691))) (_a$3695 (keyword #f "body")) (_a$3696 (jolt-invoke f (jolt-get node (keyword #f "body"))))) (jolt-assoc _a$3692 _a$3693 _a$3694 _a$3695 _a$3696)) (if (jolt= op (keyword #f "recur")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "fn")) (jolt-assoc node (keyword #f "arities") (let* ((_a$3698 (var-deref "clojure.core" "mapv")) (_a$3699 (lambda (a) (let fnrec3697 ((a a)) (jolt-assoc a (keyword #f "body") (jolt-invoke f (jolt-get a (keyword #f "body"))))))) (_a$3700 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$3698 _a$3699 _a$3700))) (if (jolt= op (keyword #f "def")) (jolt-assoc node (keyword #f "init") (jolt-invoke f (jolt-get node (keyword #f "init")))) (if (jolt= op (keyword #f "host-call")) (let* ((_a$3701 node) (_a$3702 (keyword #f "target")) (_a$3703 (jolt-invoke f (jolt-get node (keyword #f "target")))) (_a$3704 (keyword #f "args")) (_a$3705 (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args"))))) (jolt-assoc _a$3701 _a$3702 _a$3703 _a$3704 _a$3705)) (if (jolt= op (keyword #f "host-new")) (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") f (jolt-get node (keyword #f "args")))) (if (jolt= op (keyword #f "try")) (let* ((n (jolt-assoc node (keyword #f "body") (jolt-invoke f (jolt-get node (keyword #f "body"))))) (n (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-assoc n (keyword #f "catch-body") (jolt-invoke f (jolt-get node (keyword #f "catch-body")))) n)) (n (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-assoc n (keyword #f "finally") (jolt-invoke f (jolt-get node (keyword #f "finally")))) n))) n) (if (jolt-truthy? (keyword #f "else")) node jolt-nil)))))))))))))))))))))))) map-ir-children))) + (def-var! "jolt.ir" "reduce-ir-children" (letrec ((reduce-ir-children (lambda (f acc node) (let fnrec4609 ((f f) (acc acc) (node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "if")) (let* ((_a$4613 f) (_a$4614 (let* ((_a$4610 f) (_a$4611 (jolt-invoke f acc (jolt-get node (keyword #f "test")))) (_a$4612 (jolt-get node (keyword #f "then")))) (jolt-invoke _a$4610 _a$4611 _a$4612))) (_a$4615 (jolt-get node (keyword #f "else")))) (jolt-invoke _a$4613 _a$4614 _a$4615)) (if (jolt= op (keyword #f "do")) (let* ((_a$4616 f) (_a$4617 (jolt-reduce f acc (jolt-get node (keyword #f "statements")))) (_a$4618 (jolt-get node (keyword #f "ret")))) (jolt-invoke _a$4616 _a$4617 _a$4618)) (if (jolt= op (keyword #f "throw")) (jolt-invoke f acc (jolt-get node (keyword #f "expr"))) (if (jolt= op (keyword #f "set-var")) (jolt-invoke f acc (jolt-get node (keyword #f "val"))) (if (jolt= op (keyword #f "set-field")) (let* ((_a$4619 f) (_a$4620 (jolt-invoke f acc (jolt-get node (keyword #f "obj")))) (_a$4621 (jolt-get node (keyword #f "val")))) (jolt-invoke _a$4619 _a$4620 _a$4621)) (if (jolt= op (keyword #f "defmacro")) (jolt-invoke f acc (jolt-get node (keyword #f "fn"))) (if (jolt= op (keyword #f "invoke")) (let* ((_a$4622 f) (_a$4623 (jolt-invoke f acc (jolt-get node (keyword #f "fn")))) (_a$4624 (jolt-get node (keyword #f "args")))) (jolt-reduce _a$4622 _a$4623 _a$4624)) (if (jolt= op (keyword #f "vector")) (jolt-reduce f acc (jolt-get node (keyword #f "items"))) (if (jolt= op (keyword #f "set")) (jolt-reduce f acc (jolt-get node (keyword #f "items"))) (if (jolt= op (keyword #f "map")) (let* ((_a$4629 (lambda (a pr) (let fnrec4625 ((a a) (pr pr)) (let* ((_a$4626 f) (_a$4627 (jolt-invoke f a (jolt-nth pr 0))) (_a$4628 (jolt-nth pr 1))) (jolt-invoke _a$4626 _a$4627 _a$4628))))) (_a$4630 acc) (_a$4631 (jolt-get node (keyword #f "pairs")))) (jolt-reduce _a$4629 _a$4630 _a$4631)) (if (jolt= op (keyword #f "let")) (let* ((_a$4636 f) (_a$4637 (let* ((_a$4633 (lambda (a b) (let fnrec4632 ((a a) (b b)) (jolt-invoke f a (jolt-nth b 1))))) (_a$4634 acc) (_a$4635 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$4633 _a$4634 _a$4635))) (_a$4638 (jolt-get node (keyword #f "body")))) (jolt-invoke _a$4636 _a$4637 _a$4638)) (if (jolt= op (keyword #f "loop")) (let* ((_a$4643 f) (_a$4644 (let* ((_a$4640 (lambda (a b) (let fnrec4639 ((a a) (b b)) (jolt-invoke f a (jolt-nth b 1))))) (_a$4641 acc) (_a$4642 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$4640 _a$4641 _a$4642))) (_a$4645 (jolt-get node (keyword #f "body")))) (jolt-invoke _a$4643 _a$4644 _a$4645)) (if (jolt= op (keyword #f "recur")) (jolt-reduce f acc (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "fn")) (let* ((_a$4647 (lambda (a ar) (let fnrec4646 ((a a) (ar ar)) (jolt-invoke f a (jolt-get ar (keyword #f "body")))))) (_a$4648 acc) (_a$4649 (jolt-get node (keyword #f "arities")))) (jolt-reduce _a$4647 _a$4648 _a$4649)) (if (jolt= op (keyword #f "def")) (if (jolt-truthy? (jolt-get node (keyword #f "init"))) (jolt-invoke f acc (jolt-get node (keyword #f "init"))) acc) (if (jolt= op (keyword #f "host-call")) (let* ((_a$4650 f) (_a$4651 (jolt-invoke f acc (jolt-get node (keyword #f "target")))) (_a$4652 (jolt-get node (keyword #f "args")))) (jolt-reduce _a$4650 _a$4651 _a$4652)) (if (jolt= op (keyword #f "host-new")) (jolt-reduce f acc (jolt-get node (keyword #f "args"))) (if (jolt= op (keyword #f "try")) (let* ((a (jolt-invoke f acc (jolt-get node (keyword #f "body")))) (a (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-invoke f a (jolt-get node (keyword #f "catch-body"))) a)) (a (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-invoke f a (jolt-get node (keyword #f "finally"))) a))) a) (if (jolt-truthy? (keyword #f "else")) acc jolt-nil)))))))))))))))))))))))) reduce-ir-children))) (guard (e (#t #f)) (declare-var! "jolt.analyzer" "analyze")) (guard (e (#t #f)) - (def-var-with-meta! "jolt.analyzer" "handled" (let* ((_o$3706 "quote") (_o$3707 "if") (_o$3708 "do") (_o$3709 "def") (_o$3710 "fn*") (_o$3711 "let*") (_o$3712 "loop*") (_o$3713 "recur") (_o$3714 "throw") (_o$3715 "try") (_o$3716 "syntax-quote") (_o$3717 "var") (_o$3718 "letfn") (_o$3719 "set!") (_o$3720 "defmacro")) (jolt-hash-set _o$3706 _o$3707 _o$3708 _o$3709 _o$3710 _o$3711 _o$3712 _o$3713 _o$3714 _o$3715 _o$3716 _o$3717 _o$3718 _o$3719 _o$3720)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "jolt.analyzer" "handled" (let* ((_o$4653 "quote") (_o$4654 "if") (_o$4655 "do") (_o$4656 "def") (_o$4657 "fn*") (_o$4658 "let*") (_o$4659 "loop*") (_o$4660 "recur") (_o$4661 "throw") (_o$4662 "try") (_o$4663 "syntax-quote") (_o$4664 "var") (_o$4665 "letfn") (_o$4666 "set!") (_o$4667 "defmacro")) (jolt-hash-set _o$4653 _o$4654 _o$4655 _o$4656 _o$4657 _o$4658 _o$4659 _o$4660 _o$4661 _o$4662 _o$4663 _o$4664 _o$4665 _o$4666 _o$4667)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "uncompilable" (letrec ((uncompilable (lambda (why) (let fnrec3721 ((why why)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt/uncompilable: " why)))))) uncompilable))) + (def-var! "jolt.analyzer" "uncompilable" (letrec ((uncompilable (lambda (why) (let fnrec4668 ((why why)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt/uncompilable: " why)))))) uncompilable))) (guard (e (#t #f)) (def-var-with-meta! "jolt.analyzer" "gensym-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "gen-name" (letrec ((gen-name (lambda (prefix) (let fnrec3722 ((prefix prefix)) (let* ((n (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.analyzer" "gensym-counter")))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.analyzer" "gensym-counter") jolt-inc) (jolt-invoke (var-deref "clojure.core" "str") "_r$" prefix n))))))) gen-name))) + (def-var! "jolt.analyzer" "gen-name" (letrec ((gen-name (lambda (prefix) (let fnrec4669 ((prefix prefix)) (let* ((n (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.analyzer" "gensym-counter")))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.analyzer" "gensym-counter") jolt-inc) (jolt-invoke (var-deref "clojure.core" "str") "_r$" prefix n))))))) gen-name))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "empty-env" (letrec ((empty-env (lambda () (let fnrec3723 () (let* ((_o$3724 (keyword #f "locals")) (_o$3725 (jolt-hash-set)) (_o$3726 (keyword #f "hints")) (_o$3727 (jolt-hash-map))) (jolt-hash-map _o$3724 _o$3725 _o$3726 _o$3727)))))) empty-env))) + (def-var! "jolt.analyzer" "empty-env" (letrec ((empty-env (lambda () (let fnrec4670 () (let* ((_o$4671 (keyword #f "locals")) (_o$4672 (jolt-hash-set)) (_o$4673 (keyword #f "hints")) (_o$4674 (jolt-hash-map))) (jolt-hash-map _o$4671 _o$4672 _o$4673 _o$4674)))))) empty-env))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "local?" (letrec ((local? (lambda (env nm) (let fnrec3728 ((env env) (nm nm)) (jolt-contains? (jolt-get env (keyword #f "locals")) nm))))) local?))) + (def-var! "jolt.analyzer" "local?" (letrec ((local? (lambda (env nm) (let fnrec4675 ((env env) (nm nm)) (jolt-contains? (jolt-get env (keyword #f "locals")) nm))))) local?))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "add-locals" (letrec ((add-locals (lambda (env names) (let fnrec3729 ((env env) (names names)) (jolt-invoke (var-deref "clojure.core" "update") env (keyword #f "locals") (lambda (p__47_) (let fnrec3730 ((p__47_ p__47_)) (jolt-reduce jolt-conj p__47_ names)))))))) add-locals))) + (def-var! "jolt.analyzer" "add-locals" (letrec ((add-locals (lambda (env names) (let fnrec4676 ((env env) (names names)) (jolt-invoke (var-deref "clojure.core" "update") env (keyword #f "locals") (lambda (p__47_) (let fnrec4677 ((p__47_ p__47_)) (jolt-reduce jolt-conj p__47_ names)))))))) add-locals))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "with-recur" (letrec ((with-recur (lambda (env name) (let fnrec3731 ((env env) (name name)) (jolt-assoc env (keyword #f "recur") name))))) with-recur))) + (def-var! "jolt.analyzer" "with-recur" (letrec ((with-recur (lambda (env name) (let fnrec4678 ((env env) (name name)) (jolt-assoc env (keyword #f "recur") name))))) with-recur))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "hint-of" (letrec ((hint-of (lambda (ctx sym) (let fnrec3732 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") m)) jolt-nil (if (jolt-truthy? (jolt-get m (keyword #f "struct"))) (keyword #f "struct") (if (jolt-truthy? (keyword #f "else")) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? (let* ((and__13__auto t)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "record-type?") ctx t) and__13__auto))) (keyword #f "struct") jolt-nil)) jolt-nil)))))))) hint-of))) + (def-var! "jolt.analyzer" "hint-of" (letrec ((hint-of (lambda (ctx sym) (let fnrec4679 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") m)) jolt-nil (if (jolt-truthy? (jolt-get m (keyword #f "struct"))) (keyword #f "struct") (if (jolt-truthy? (keyword #f "else")) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? (let* ((and__13__auto t)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "record-type?") ctx t) and__13__auto))) (keyword #f "struct") jolt-nil)) jolt-nil)))))))) hint-of))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "add-hint" (letrec ((add-hint (lambda (env nm h) (let fnrec3733 ((env env) (nm nm) (h h)) (if (jolt-truthy? h) (jolt-assoc env (keyword #f "hints") (jolt-assoc (jolt-get env (keyword #f "hints")) nm h)) env))))) add-hint))) + (def-var! "jolt.analyzer" "add-hint" (letrec ((add-hint (lambda (env nm h) (let fnrec4680 ((env env) (nm nm) (h h)) (if (jolt-truthy? h) (jolt-assoc env (keyword #f "hints") (jolt-assoc (jolt-get env (keyword #f "hints")) nm h)) env))))) add-hint))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "phint-of" (letrec ((phint-of (lambda (ctx sym) (let fnrec3734 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? m) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? t) (jolt-invoke (var-deref "jolt.host" "record-ctor-key") ctx t) jolt-nil)) jolt-nil)))))) phint-of))) + (def-var! "jolt.analyzer" "phint-of" (letrec ((phint-of (lambda (ctx sym) (let fnrec4681 ((ctx ctx) (sym sym)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") sym))) (if (jolt-truthy? m) (let* ((t (jolt-get m (keyword #f "tag")))) (if (jolt-truthy? t) (jolt-invoke (var-deref "jolt.host" "record-ctor-key") ctx t) jolt-nil)) jolt-nil)))))) phint-of))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-seq" (letrec ((analyze-seq (lambda (ctx forms env) (let fnrec3735 ((ctx ctx) (forms forms) (env env)) (let* ((v (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__48_) (let fnrec3736 ((p__48_ p__48_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__48_ env))) forms)) (n (jolt-count v))) (if (jolt-zero? n) (jolt-invoke (var-deref "jolt.ir" "const") jolt-nil) (if (jolt= 1 n) (jolt-first v) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$3737 (var-deref "jolt.ir" "do-node")) (_a$3738 (jolt-invoke (var-deref "clojure.core" "subvec") v 0 (jolt-dec n))) (_a$3739 (jolt-peek v))) (jolt-invoke _a$3737 _a$3738 _a$3739)) jolt-nil)))))))) analyze-seq))) + (def-var! "jolt.analyzer" "analyze-seq" (letrec ((analyze-seq (lambda (ctx forms env) (let fnrec4682 ((ctx ctx) (forms forms) (env env)) (let* ((v (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__48_) (let fnrec4683 ((p__48_ p__48_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__48_ env))) forms)) (n (jolt-count v))) (if (jolt-zero? n) (jolt-invoke (var-deref "jolt.ir" "const") jolt-nil) (if (jolt= 1 n) (jolt-first v) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$4684 (var-deref "jolt.ir" "do-node")) (_a$4685 (jolt-invoke (var-deref "clojure.core" "subvec") v 0 (jolt-dec n))) (_a$4686 (jolt-peek v))) (jolt-invoke _a$4684 _a$4685 _a$4686)) jolt-nil)))))))) analyze-seq))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-bindings" (letrec ((analyze-bindings (lambda (ctx bvec env) (let fnrec3740 ((ctx ctx) (bvec bvec) (env env)) (let* ((i 0) (env env) (pairs (jolt-vector))) (let loop3741 ((i i) (env env) (pairs pairs)) (if (< i (jolt-count bvec)) (let* ((bsym (jolt-nth bvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") bsym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring binding") jolt-nil) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") bsym)) (init (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth bvec (jolt-inc i)) env))) (let* ((_a$3748 (+ i 2)) (_a$3749 (let* ((_a$3742 (var-deref "jolt.analyzer" "add-hint")) (_a$3743 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector nm))) (_a$3744 nm) (_a$3745 (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx bsym))) (jolt-invoke _a$3742 _a$3743 _a$3744 _a$3745))) (_a$3750 (jolt-conj pairs (let* ((_o$3746 nm) (_o$3747 init)) (jolt-vector _o$3746 _o$3747))))) (loop3741 _a$3748 _a$3749 _a$3750))))) (let* ((_o$3751 pairs) (_o$3752 env)) (jolt-vector _o$3751 _o$3752))))))))) analyze-bindings))) + (def-var! "jolt.analyzer" "analyze-bindings" (letrec ((analyze-bindings (lambda (ctx bvec env) (let fnrec4687 ((ctx ctx) (bvec bvec) (env env)) (let* ((i 0) (env env) (pairs (jolt-vector))) (let loop4688 ((i i) (env env) (pairs pairs)) (if (< i (jolt-count bvec)) (let* ((bsym (jolt-nth bvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") bsym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring binding") jolt-nil) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") bsym)) (init (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth bvec (jolt-inc i)) env))) (let* ((_a$4695 (+ i 2)) (_a$4696 (let* ((_a$4689 (var-deref "jolt.analyzer" "add-hint")) (_a$4690 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector nm))) (_a$4691 nm) (_a$4692 (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx bsym))) (jolt-invoke _a$4689 _a$4690 _a$4691 _a$4692))) (_a$4697 (jolt-conj pairs (let* ((_o$4693 nm) (_o$4694 init)) (jolt-vector _o$4693 _o$4694))))) (loop4688 _a$4695 _a$4696 _a$4697))))) (let* ((_o$4698 pairs) (_o$4699 env)) (jolt-vector _o$4698 _o$4699))))))))) analyze-bindings))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "parse-params" (letrec ((parse-params (lambda (ctx pvec) (let fnrec3753 ((ctx ctx) (pvec pvec)) (let* ((i 0) (fixed (jolt-vector)) (rest-name jolt-nil) (hints (jolt-vector)) (phints (jolt-vector))) (let loop3754 ((i i) (fixed fixed) (rest-name rest-name) (hints hints) (phints phints)) (if (< i (jolt-count pvec)) (let* ((p (jolt-nth pvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") p)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn param") jolt-nil) (if (jolt= "&" (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (let* ((r (jolt-nth pvec (jolt-inc i)))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") r)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn rest") jolt-nil) (let* ((_a$3755 (+ i 2)) (_a$3756 fixed) (_a$3757 (jolt-invoke (var-deref "jolt.host" "form-sym-name") r)) (_a$3758 hints) (_a$3759 phints)) (loop3754 _a$3755 _a$3756 _a$3757 _a$3758 _a$3759)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (h (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx p)) (ph (jolt-invoke (var-deref "jolt.analyzer" "phint-of") ctx p))) (let* ((_a$3764 (jolt-inc i)) (_a$3765 (jolt-conj fixed nm)) (_a$3766 rest-name) (_a$3767 (if (jolt-truthy? h) (jolt-conj hints (let* ((_o$3760 nm) (_o$3761 h)) (jolt-vector _o$3760 _o$3761))) hints)) (_a$3768 (if (jolt-truthy? ph) (jolt-conj phints (let* ((_o$3762 nm) (_o$3763 ph)) (jolt-vector _o$3762 _o$3763))) phints))) (loop3754 _a$3764 _a$3765 _a$3766 _a$3767 _a$3768)))))) (let* ((_o$3769 (keyword #f "fixed")) (_o$3770 fixed) (_o$3771 (keyword #f "rest")) (_o$3772 rest-name) (_o$3773 (keyword #f "hints")) (_o$3774 hints) (_o$3775 (keyword #f "phints")) (_o$3776 phints)) (jolt-hash-map _o$3769 _o$3770 _o$3771 _o$3772 _o$3773 _o$3774 _o$3775 _o$3776))))))))) parse-params))) + (def-var! "jolt.analyzer" "parse-params" (letrec ((parse-params (lambda (ctx pvec) (let fnrec4700 ((ctx ctx) (pvec pvec)) (let* ((i 0) (fixed (jolt-vector)) (rest-name jolt-nil) (hints (jolt-vector)) (phints (jolt-vector))) (let loop4701 ((i i) (fixed fixed) (rest-name rest-name) (hints hints) (phints phints)) (if (< i (jolt-count pvec)) (let* ((p (jolt-nth pvec i))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") p)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn param") jolt-nil) (if (jolt= "&" (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (let* ((r (jolt-nth pvec (jolt-inc i)))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") r)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "destructuring fn rest") jolt-nil) (let* ((_a$4702 (+ i 2)) (_a$4703 fixed) (_a$4704 (jolt-invoke (var-deref "jolt.host" "form-sym-name") r)) (_a$4705 hints) (_a$4706 phints)) (loop4701 _a$4702 _a$4703 _a$4704 _a$4705 _a$4706)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") p)) (h (jolt-invoke (var-deref "jolt.analyzer" "hint-of") ctx p)) (ph (jolt-invoke (var-deref "jolt.analyzer" "phint-of") ctx p))) (let* ((_a$4711 (jolt-inc i)) (_a$4712 (jolt-conj fixed nm)) (_a$4713 rest-name) (_a$4714 (if (jolt-truthy? h) (jolt-conj hints (let* ((_o$4707 nm) (_o$4708 h)) (jolt-vector _o$4707 _o$4708))) hints)) (_a$4715 (if (jolt-truthy? ph) (jolt-conj phints (let* ((_o$4709 nm) (_o$4710 ph)) (jolt-vector _o$4709 _o$4710))) phints))) (loop4701 _a$4711 _a$4712 _a$4713 _a$4714 _a$4715)))))) (let* ((_o$4716 (keyword #f "fixed")) (_o$4717 fixed) (_o$4718 (keyword #f "rest")) (_o$4719 rest-name) (_o$4720 (keyword #f "hints")) (_o$4721 hints) (_o$4722 (keyword #f "phints")) (_o$4723 phints)) (jolt-hash-map _o$4716 _o$4717 _o$4718 _o$4719 _o$4720 _o$4721 _o$4722 _o$4723))))))))) parse-params))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "uniquify-params" (letrec ((uniquify-params (lambda (names) (let fnrec3777 ((names names)) (let* ((n (jolt-count names))) (let* ((i 0) (out (jolt-vector))) (let loop3778 ((i i) (out out)) (if (< i n) (let* ((nm (jolt-nth names i)) (dup? (let* ((j (jolt-inc i))) (let loop3779 ((j j)) (if (>= j n) #f (if (jolt= nm (jolt-nth names j)) #t (if (jolt-truthy? (keyword #f "else")) (loop3779 (jolt-inc j)) jolt-nil))))))) (let* ((_a$3780 (jolt-inc i)) (_a$3781 (jolt-conj out (if (jolt-truthy? dup?) (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (jolt-invoke (var-deref "clojure.core" "str") nm "_")) nm)))) (loop3778 _a$3780 _a$3781))) out)))))))) uniquify-params))) + (def-var! "jolt.analyzer" "uniquify-params" (letrec ((uniquify-params (lambda (names) (let fnrec4724 ((names names)) (let* ((n (jolt-count names))) (let* ((i 0) (out (jolt-vector))) (let loop4725 ((i i) (out out)) (if (< i n) (let* ((nm (jolt-nth names i)) (dup? (let* ((j (jolt-inc i))) (let loop4726 ((j j)) (if (>= j n) #f (if (jolt= nm (jolt-nth names j)) #t (if (jolt-truthy? (keyword #f "else")) (loop4726 (jolt-inc j)) jolt-nil))))))) (let* ((_a$4727 (jolt-inc i)) (_a$4728 (jolt-conj out (if (jolt-truthy? dup?) (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (jolt-invoke (var-deref "clojure.core" "str") nm "_")) nm)))) (loop4725 _a$4727 _a$4728))) out)))))))) uniquify-params))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-arity" (letrec ((analyze-arity (lambda (ctx pvec body env fn-name) (let fnrec3782 ((ctx ctx) (pvec pvec) (body body) (env env) (fn-name fn-name)) (let* ((pp (jolt-invoke (var-deref "jolt.analyzer" "parse-params") ctx (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") pvec)))) (fixed (jolt-invoke (var-deref "jolt.analyzer" "uniquify-params") (jolt-get pp (keyword #f "fixed")))) (rst (jolt-get pp (keyword #f "rest"))) (rname (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (let* ((_a$3783 (var-deref "clojure.core" "str")) (_a$3784 (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (_a$3785 "/") (_a$3786 (let* ((or__14__auto fn-name)) (if (jolt-truthy? or__14__auto) or__14__auto "fn"))) (_a$3787 "--")) (jolt-invoke _a$3783 _a$3784 _a$3785 _a$3786 _a$3787)))) (names (let* ((G__40 (jolt-invoke (var-deref "clojure.core" "vec") fixed))) (let* ((G__41 (if (jolt-truthy? rst) (jolt-conj G__40 rst) G__40))) (let* ((G__42 (if (jolt-truthy? fn-name) (jolt-conj G__41 fn-name) G__41))) G__42)))) (env0 (jolt-invoke (var-deref "jolt.analyzer" "with-recur") (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names) rname)) (env* (let* ((_a$3793 (lambda (e pr) (let fnrec3788 ((e e) (pr pr)) (let* ((_a$3789 (var-deref "jolt.analyzer" "add-hint")) (_a$3790 e) (_a$3791 (jolt-nth pr 0)) (_a$3792 (jolt-nth pr 1))) (jolt-invoke _a$3789 _a$3790 _a$3791 _a$3792))))) (_a$3794 env0) (_a$3795 (jolt-get pp (keyword #f "hints")))) (jolt-reduce _a$3793 _a$3794 _a$3795))) (arity (let* ((_o$3796 (keyword #f "params")) (_o$3797 fixed) (_o$3798 (keyword #f "recur-name")) (_o$3799 rname) (_o$3800 (keyword #f "body")) (_o$3801 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx body env*))) (jolt-hash-map _o$3796 _o$3797 _o$3798 _o$3799 _o$3800 _o$3801))) (arity (if (jolt-truthy? (jolt-seq (jolt-get pp (keyword #f "phints")))) (jolt-assoc arity (keyword #f "phints") (jolt-get pp (keyword #f "phints"))) arity))) (if (jolt-truthy? rst) (jolt-assoc arity (keyword #f "rest") rst) arity)))))) analyze-arity))) + (def-var! "jolt.analyzer" "analyze-arity" (letrec ((analyze-arity (lambda (ctx pvec body env fn-name) (let fnrec4729 ((ctx ctx) (pvec pvec) (body body) (env env) (fn-name fn-name)) (let* ((pp (jolt-invoke (var-deref "jolt.analyzer" "parse-params") ctx (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") pvec)))) (fixed (jolt-invoke (var-deref "jolt.analyzer" "uniquify-params") (jolt-get pp (keyword #f "fixed")))) (rst (jolt-get pp (keyword #f "rest"))) (rname (jolt-invoke (var-deref "jolt.analyzer" "gen-name") (let* ((_a$4730 (var-deref "clojure.core" "str")) (_a$4731 (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (_a$4732 "/") (_a$4733 (let* ((or__14__auto fn-name)) (if (jolt-truthy? or__14__auto) or__14__auto "fn"))) (_a$4734 "--")) (jolt-invoke _a$4730 _a$4731 _a$4732 _a$4733 _a$4734)))) (names (let* ((G__41 (jolt-invoke (var-deref "clojure.core" "vec") fixed))) (let* ((G__42 (if (jolt-truthy? rst) (jolt-conj G__41 rst) G__41))) (let* ((G__43 (if (jolt-truthy? fn-name) (jolt-conj G__42 fn-name) G__42))) G__43)))) (env0 (jolt-invoke (var-deref "jolt.analyzer" "with-recur") (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names) rname)) (env* (let* ((_a$4740 (lambda (e pr) (let fnrec4735 ((e e) (pr pr)) (let* ((_a$4736 (var-deref "jolt.analyzer" "add-hint")) (_a$4737 e) (_a$4738 (jolt-nth pr 0)) (_a$4739 (jolt-nth pr 1))) (jolt-invoke _a$4736 _a$4737 _a$4738 _a$4739))))) (_a$4741 env0) (_a$4742 (jolt-get pp (keyword #f "hints")))) (jolt-reduce _a$4740 _a$4741 _a$4742))) (arity (let* ((_o$4743 (keyword #f "params")) (_o$4744 fixed) (_o$4745 (keyword #f "recur-name")) (_o$4746 rname) (_o$4747 (keyword #f "body")) (_o$4748 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx body env*))) (jolt-hash-map _o$4743 _o$4744 _o$4745 _o$4746 _o$4747 _o$4748))) (arity (if (jolt-truthy? (jolt-seq (jolt-get pp (keyword #f "phints")))) (jolt-assoc arity (keyword #f "phints") (jolt-get pp (keyword #f "phints"))) arity))) (if (jolt-truthy? rst) (jolt-assoc arity (keyword #f "rest") rst) arity)))))) analyze-arity))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "strip-arglist-meta" (letrec ((strip-arglist-meta (lambda (form) (let fnrec3802 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (let* ((es (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-truthy? (let* ((and__13__auto (jolt= 3 (jolt-count es)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first es)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "with-meta" (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first es))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-vec?") (jolt-nth es 1)) and__13__auto)) and__13__auto)) and__13__auto))) (jolt-nth es 1) form)) form))))) strip-arglist-meta))) + (def-var! "jolt.analyzer" "strip-arglist-meta" (letrec ((strip-arglist-meta (lambda (form) (let fnrec4749 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (let* ((es (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-truthy? (let* ((and__13__auto (jolt= 3 (jolt-count es)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first es)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "with-meta" (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first es))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-vec?") (jolt-nth es 1)) and__13__auto)) and__13__auto)) and__13__auto))) (jolt-nth es 1) form)) form))))) strip-arglist-meta))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-fn" (letrec ((analyze-fn (lambda (ctx items env) (let fnrec3803 ((ctx ctx) (items items) (env env)) (let* ((named (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1))) (fn-name (if (jolt-truthy? named) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1)) jolt-nil)) (rest-items (if (jolt-truthy? named) (jolt-drop 2 items) (jolt-drop 1 items))) (first* (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first rest-items)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze-arity") ctx first* (jolt-rest rest-items) env fn-name))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (clause) (let fnrec3804 ((clause clause)) (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") clause)))) (let* ((_a$3805 (var-deref "jolt.analyzer" "analyze-arity")) (_a$3806 ctx) (_a$3807 (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first cl))) (_a$3808 (jolt-rest cl)) (_a$3809 env) (_a$3810 fn-name)) (jolt-invoke _a$3805 _a$3806 _a$3807 _a$3808 _a$3809 _a$3810))))) rest-items)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "fn: bad params") jolt-nil)))))))) analyze-fn))) + (def-var! "jolt.analyzer" "analyze-fn" (letrec ((analyze-fn (lambda (ctx items env) (let fnrec4750 ((ctx ctx) (items items) (env env)) (let* ((named (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1))) (fn-name (if (jolt-truthy? named) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1)) jolt-nil)) (rest-items (if (jolt-truthy? named) (jolt-drop 2 items) (jolt-drop 1 items))) (first* (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first rest-items)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze-arity") ctx first* (jolt-rest rest-items) env fn-name))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") first*)) (jolt-invoke (var-deref "jolt.ir" "fn-node") fn-name (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (clause) (let fnrec4751 ((clause clause)) (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") clause)))) (let* ((_a$4752 (var-deref "jolt.analyzer" "analyze-arity")) (_a$4753 ctx) (_a$4754 (jolt-invoke (var-deref "jolt.analyzer" "strip-arglist-meta") (jolt-first cl))) (_a$4755 (jolt-rest cl)) (_a$4756 env) (_a$4757 fn-name)) (jolt-invoke _a$4752 _a$4753 _a$4754 _a$4755 _a$4756 _a$4757))))) rest-items)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "fn: bad params") jolt-nil)))))))) analyze-fn))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-try" (letrec ((analyze-try (lambda (ctx items env) (let fnrec3811 ((ctx ctx) (items items) (env env)) (let* ((clauses (jolt-rest items)) (body (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (catch-sym (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil)) (catch-body (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil)) (finally-body (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))) (begin (begin (jolt-count (jolt-map (lambda (c) (let fnrec3812 ((c c)) (begin (let* ((head (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") c)) (jolt-first (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c))) jolt-nil)) (hname (if (jolt-truthy? (let* ((and__13__auto head)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") head) and__13__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil))) (if (jolt= hname "catch") (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (begin (if (jolt-truthy? (let* ((or__14__auto (< (jolt-count cl) 3))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth cl 2)))))) (jolt-throw "Unable to parse catch clause; expected (catch class binding body*)") jolt-nil) (jolt-invoke (var-deref "clojure.core" "reset!") catch-sym (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth cl 2))) (jolt-invoke (var-deref "clojure.core" "reset!") catch-body (jolt-drop 3 cl)))) (if (jolt= hname "finally") (jolt-invoke (var-deref "clojure.core" "reset!") finally-body (jolt-rest (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "swap!") body jolt-conj c) jolt-nil)))) jolt-nil))) clauses)) jolt-nil) (let* ((n (let* ((_o$3813 (keyword #f "op")) (_o$3814 (keyword #f "try")) (_o$3815 (keyword #f "body")) (_o$3816 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") body) env))) (jolt-hash-map _o$3813 _o$3814 _o$3815 _o$3816))) (n (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") catch-body)) (let* ((_a$3821 n) (_a$3822 (keyword #f "catch-sym")) (_a$3823 (jolt-invoke (var-deref "clojure.core" "deref") catch-sym)) (_a$3824 (keyword #f "catch-body")) (_a$3825 (let* ((_a$3817 (var-deref "jolt.analyzer" "analyze-seq")) (_a$3818 ctx) (_a$3819 (jolt-invoke (var-deref "clojure.core" "deref") catch-body)) (_a$3820 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector (jolt-invoke (var-deref "clojure.core" "deref") catch-sym))))) (jolt-invoke _a$3817 _a$3818 _a$3819 _a$3820)))) (jolt-assoc _a$3821 _a$3822 _a$3823 _a$3824 _a$3825)) n)) (n (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") finally-body)) (jolt-assoc n (keyword #f "finally") (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") finally-body) env)) n))) n))))))) analyze-try))) + (def-var! "jolt.analyzer" "analyze-try" (letrec ((analyze-try (lambda (ctx items env) (let fnrec4758 ((ctx ctx) (items items) (env env)) (let* ((clauses (jolt-rest items)) (body (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (catch-sym (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil)) (catch-body (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil)) (finally-body (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))) (begin (begin (jolt-count (jolt-map (lambda (c) (let fnrec4759 ((c c)) (begin (let* ((head (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") c)) (jolt-first (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c))) jolt-nil)) (hname (if (jolt-truthy? (let* ((and__13__auto head)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") head) and__13__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil))) (if (jolt= hname "catch") (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (begin (if (jolt-truthy? (let* ((or__14__auto (< (jolt-count cl) 3))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth cl 2)))))) (jolt-throw "Unable to parse catch clause; expected (catch class binding body*)") jolt-nil) (jolt-invoke (var-deref "clojure.core" "reset!") catch-sym (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth cl 2))) (jolt-invoke (var-deref "clojure.core" "reset!") catch-body (jolt-drop 3 cl)))) (if (jolt= hname "finally") (jolt-invoke (var-deref "clojure.core" "reset!") finally-body (jolt-rest (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") c)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "swap!") body jolt-conj c) jolt-nil)))) jolt-nil))) clauses)) jolt-nil) (let* ((n (let* ((_o$4760 (keyword #f "op")) (_o$4761 (keyword #f "try")) (_o$4762 (keyword #f "body")) (_o$4763 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") body) env))) (jolt-hash-map _o$4760 _o$4761 _o$4762 _o$4763))) (n (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") catch-body)) (let* ((_a$4768 n) (_a$4769 (keyword #f "catch-sym")) (_a$4770 (jolt-invoke (var-deref "clojure.core" "deref") catch-sym)) (_a$4771 (keyword #f "catch-body")) (_a$4772 (let* ((_a$4764 (var-deref "jolt.analyzer" "analyze-seq")) (_a$4765 ctx) (_a$4766 (jolt-invoke (var-deref "clojure.core" "deref") catch-body)) (_a$4767 (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env (jolt-vector (jolt-invoke (var-deref "clojure.core" "deref") catch-sym))))) (jolt-invoke _a$4764 _a$4765 _a$4766 _a$4767)))) (jolt-assoc _a$4768 _a$4769 _a$4770 _a$4771 _a$4772)) n)) (n (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") finally-body)) (jolt-assoc n (keyword #f "finally") (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-invoke (var-deref "clojure.core" "deref") finally-body) env)) n))) n))))))) analyze-try))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-letfn" (letrec ((analyze-letfn (lambda (ctx items env) (let fnrec3826 ((ctx ctx) (items items) (env env)) (let* ((specs (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (names (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__49_) (let fnrec3827 ((p__49_ p__49_)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") p__49_)))))) specs)) (env* (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names)) (binds (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (spec) (let fnrec3828 ((spec spec)) (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") spec)))) (let* ((_o$3829 (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first cl))) (_o$3830 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-cons (jolt-invoke (var-deref "clojure.core" "symbol") "fn") cl) env*))) (jolt-vector _o$3829 _o$3830))))) specs))) (let* ((_o$3831 (keyword #f "op")) (_o$3832 (keyword #f "let")) (_o$3833 (keyword #f "letrec")) (_o$3834 #t) (_o$3835 (keyword #f "bindings")) (_o$3836 binds) (_o$3837 (keyword #f "body")) (_o$3838 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-drop 2 items) env*))) (jolt-hash-map _o$3831 _o$3832 _o$3833 _o$3834 _o$3835 _o$3836 _o$3837 _o$3838))))))) analyze-letfn))) + (def-var! "jolt.analyzer" "analyze-letfn" (letrec ((analyze-letfn (lambda (ctx items env) (let fnrec4773 ((ctx ctx) (items items) (env env)) (let* ((specs (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (names (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__49_) (let fnrec4774 ((p__49_ p__49_)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") p__49_)))))) specs)) (env* (jolt-invoke (var-deref "jolt.analyzer" "add-locals") env names)) (binds (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (spec) (let fnrec4775 ((spec spec)) (let* ((cl (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") spec)))) (let* ((_o$4776 (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first cl))) (_o$4777 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-cons (jolt-invoke (var-deref "clojure.core" "symbol") "fn") cl) env*))) (jolt-vector _o$4776 _o$4777))))) specs))) (let* ((_o$4778 (keyword #f "op")) (_o$4779 (keyword #f "let")) (_o$4780 (keyword #f "letrec")) (_o$4781 #t) (_o$4782 (keyword #f "bindings")) (_o$4783 binds) (_o$4784 (keyword #f "body")) (_o$4785 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-drop 2 items) env*))) (jolt-hash-map _o$4778 _o$4779 _o$4780 _o$4781 _o$4782 _o$4783 _o$4784 _o$4785))))))) analyze-letfn))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-special" (letrec ((analyze-special (lambda (ctx op items env) (let fnrec3839 ((ctx ctx) (op op) (items items) (env env)) (let* ((G__43 op)) (if (jolt= G__43 "quote") (jolt-invoke (var-deref "jolt.ir" "quote-node") (jolt-invoke (var-deref "clojure.core" "second") items)) (if (jolt= G__43 "if") (begin (if (jolt-truthy? (let* ((or__14__auto (< (jolt-count items) 3))) (if (jolt-truthy? or__14__auto) or__14__auto (> (jolt-count items) 4)))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Wrong number of args (" (jolt-dec (jolt-count items)) ") passed to: if")) jolt-nil) (let* ((_a$3840 (var-deref "jolt.ir" "if-node")) (_a$3841 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_a$3842 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 2) env)) (_a$3843 (if (> (jolt-count items) 3) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 3) env) (jolt-invoke (var-deref "jolt.ir" "const") jolt-nil)))) (jolt-invoke _a$3840 _a$3841 _a$3842 _a$3843))) (if (jolt= G__43 "do") (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-rest items) env) (if (jolt= G__43 "throw") (jolt-invoke (var-deref "jolt.ir" "throw-node") (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (if (jolt= G__43 "def") (let* ((name-sym (jolt-nth items 1))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") name-sym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "def name with map metadata") jolt-nil) (if (< (jolt-count items) 3) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((_o$3844 (keyword #f "op")) (_o$3845 (keyword #f "def")) (_o$3846 (keyword #f "ns")) (_o$3847 cur) (_o$3848 (keyword #f "name")) (_o$3849 nm) (_o$3850 (keyword #f "no-init")) (_o$3851 #t)) (jolt-hash-map _o$3844 _o$3845 _o$3846 _o$3847 _o$3848 _o$3849 _o$3850 _o$3851)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (has-doc (let* ((and__13__auto (> (jolt-count items) 3))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-nth items 2)) and__13__auto))) (val-form (jolt-nth items (if (jolt-truthy? has-doc) 3 2))) (base0 (let* ((or__14__auto (jolt-invoke (var-deref "jolt.host" "form-sym-meta") name-sym))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))) (tag (jolt-get base0 (keyword #f "tag"))) (tag-name (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") tag)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") tag) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") tag)) tag (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) (base-meta (if (jolt-truthy? tag-name) (let* ((c (jolt-invoke (var-deref "jolt.host" "resolve-class-hint") tag-name))) (if (jolt-truthy? c) (jolt-assoc base0 (keyword #f "tag") c) base0)) base0)) (node-meta (if (jolt-truthy? has-doc) (jolt-assoc base-meta (keyword #f "doc") (jolt-nth items 2)) base-meta))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (jolt-invoke (var-deref "jolt.ir" "def-node") cur nm (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx val-form env) node-meta)))))) (if (jolt= G__43 "let*") (let* ((bvec (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (r (jolt-invoke (var-deref "jolt.analyzer" "analyze-bindings") ctx bvec env))) (let* ((_a$3856 (var-deref "jolt.ir" "let-node")) (_a$3857 (jolt-first r)) (_a$3858 (let* ((_a$3852 (var-deref "jolt.analyzer" "analyze-seq")) (_a$3853 ctx) (_a$3854 (jolt-drop 2 items)) (_a$3855 (jolt-invoke (var-deref "clojure.core" "second") r))) (jolt-invoke _a$3852 _a$3853 _a$3854 _a$3855)))) (jolt-invoke _a$3856 _a$3857 _a$3858))) (if (jolt= G__43 "loop*") (let* ((bvec (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (rname (jolt-invoke (var-deref "jolt.analyzer" "gen-name") "loop")) (r (jolt-invoke (var-deref "jolt.analyzer" "analyze-bindings") ctx bvec env)) (env** (jolt-invoke (var-deref "jolt.analyzer" "with-recur") (jolt-invoke (var-deref "clojure.core" "second") r) rname))) (let* ((_o$3859 (keyword #f "op")) (_o$3860 (keyword #f "loop")) (_o$3861 (keyword #f "recur-name")) (_o$3862 rname) (_o$3863 (keyword #f "bindings")) (_o$3864 (jolt-first r)) (_o$3865 (keyword #f "body")) (_o$3866 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-drop 2 items) env**))) (jolt-hash-map _o$3859 _o$3860 _o$3861 _o$3862 _o$3863 _o$3864 _o$3865 _o$3866))) (if (jolt= G__43 "recur") (let* ((rt (jolt-get env (keyword #f "recur")))) (begin (if (jolt-not rt) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "recur outside loop/fn") jolt-nil) (let* ((_o$3871 (keyword #f "op")) (_o$3872 (keyword #f "recur")) (_o$3873 (keyword #f "recur-name")) (_o$3874 rt) (_o$3875 (keyword #f "args")) (_o$3876 (let* ((_a$3868 (var-deref "clojure.core" "mapv")) (_a$3869 (lambda (p__50_) (let fnrec3867 ((p__50_ p__50_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__50_ env)))) (_a$3870 (jolt-rest items))) (jolt-invoke _a$3868 _a$3869 _a$3870)))) (jolt-hash-map _o$3871 _o$3872 _o$3873 _o$3874 _o$3875 _o$3876)))) (if (jolt= G__43 "try") (jolt-invoke (var-deref "jolt.analyzer" "analyze-try") ctx items env) (if (jolt= G__43 "letfn") (jolt-invoke (var-deref "jolt.analyzer" "analyze-letfn") ctx items env) (if (jolt= G__43 "fn*") (jolt-invoke (var-deref "jolt.analyzer" "analyze-fn") ctx items env) (if (jolt= G__43 "syntax-quote") (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-invoke (var-deref "jolt.host" "form-syntax-quote-lower") ctx (jolt-invoke (var-deref "clojure.core" "second") items)) env) (if (jolt= G__43 "var") (let* ((sym (jolt-invoke (var-deref "clojure.core" "second") items)) (r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx sym))) (if (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind"))) (let* ((_a$3877 (var-deref "jolt.ir" "the-var")) (_a$3878 (jolt-get r (keyword #f "ns"))) (_a$3879 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$3877 _a$3878 _a$3879)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "var of non-var " (jolt-invoke (var-deref "jolt.host" "form-sym-name") sym))))) (if (jolt= G__43 "defmacro") (let* ((name-sym (jolt-nth items 1)) (nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (after (jolt-drop 2 items)) (after (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first after))) (jolt-rest after) after)) (after (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") (jolt-first after))) (jolt-rest after) after)) (fn-form (jolt-cons (jolt-invoke (var-deref "clojure.core" "symbol") "fn") after))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((_o$3880 (keyword #f "op")) (_o$3881 (keyword #f "defmacro")) (_o$3882 (keyword #f "ns")) (_o$3883 cur) (_o$3884 (keyword #f "name")) (_o$3885 nm) (_o$3886 (keyword #f "fn")) (_o$3887 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx fn-form env))) (jolt-hash-map _o$3880 _o$3881 _o$3882 _o$3883 _o$3884 _o$3885 _o$3886 _o$3887)))) (if (jolt= G__43 "set!") (let* ((target (jolt-nth items 1)) (val-node (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 2) env)) (ti (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") target)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") target)) jolt-nil)) (thead (if (jolt-truthy? (let* ((and__13__auto ti)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-pos? (jolt-count ti)))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first ti)) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first ti)) jolt-nil))) (if (jolt-truthy? (let* ((and__13__auto thead)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") thead) and__13__auto))) (let* ((_o$3888 (keyword #f "op")) (_o$3889 (keyword #f "set-field")) (_o$3890 (keyword #f "obj")) (_o$3891 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth ti 1) env)) (_o$3892 (keyword #f "field")) (_o$3893 (jolt-invoke (var-deref "clojure.core" "subs") thead 2)) (_o$3894 (keyword #f "val")) (_o$3895 val-node)) (jolt-hash-map _o$3888 _o$3889 _o$3890 _o$3891 _o$3892 _o$3893 _o$3894 _o$3895)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") target)) (begin (if (jolt-truthy? (jolt-invoke (var-deref "jolt.analyzer" "local?") env (jolt-invoke (var-deref "jolt.host" "form-sym-name") target))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of a local") jolt-nil) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx target))) (begin (if (jolt-not (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind")))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of a non-var") jolt-nil) (let* ((_o$3899 (keyword #f "op")) (_o$3900 (keyword #f "set-var")) (_o$3901 (keyword #f "the-var")) (_o$3902 (let* ((_a$3896 (var-deref "jolt.ir" "the-var")) (_a$3897 (jolt-get r (keyword #f "ns"))) (_a$3898 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$3896 _a$3897 _a$3898))) (_o$3903 (keyword #f "val")) (_o$3904 val-node)) (jolt-hash-map _o$3899 _o$3900 _o$3901 _o$3902 _o$3903 _o$3904))))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of an unsupported target") jolt-nil)))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "special form " op)))))))))))))))))))))) analyze-special))) + (def-var! "jolt.analyzer" "field-head?" (letrec ((field-head? (lambda (nm) (let fnrec4786 ((nm nm)) (let* ((and__13__auto (> (jolt-count nm) 2))) (if (jolt-truthy? and__13__auto) (jolt= ".-" (jolt-invoke (var-deref "clojure.core" "subs") nm 0 2)) and__13__auto)))))) field-head?))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "method-head?" (letrec ((method-head? (lambda (nm) (let fnrec3905 ((nm nm)) (let* ((and__13__auto (> (jolt-count nm) 1))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "." (jolt-invoke (var-deref "clojure.core" "subs") nm 0 1)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (jolt= "-" (jolt-invoke (var-deref "clojure.core" "subs") nm 1 2))))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt= "." (jolt-invoke (var-deref "clojure.core" "subs") nm 1 2))) and__13__auto)) and__13__auto)) and__13__auto)))))) method-head?))) + (def-var! "jolt.analyzer" "analyze-def" (letrec ((analyze-def (lambda (ctx items env) (let fnrec4787 ((ctx ctx) (items items) (env env)) (let* ((name-sym (jolt-nth items 1))) (begin (if (jolt-not (jolt-invoke (var-deref "jolt.host" "form-sym?") name-sym)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "def name with map metadata") jolt-nil) (if (< (jolt-count items) 3) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((_o$4788 (keyword #f "op")) (_o$4789 (keyword #f "def")) (_o$4790 (keyword #f "ns")) (_o$4791 cur) (_o$4792 (keyword #f "name")) (_o$4793 nm) (_o$4794 (keyword #f "no-init")) (_o$4795 #t)) (jolt-hash-map _o$4788 _o$4789 _o$4790 _o$4791 _o$4792 _o$4793 _o$4794 _o$4795)))) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (has-doc (let* ((and__13__auto (> (jolt-count items) 3))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-nth items 2)) and__13__auto))) (val-form (jolt-nth items (if (jolt-truthy? has-doc) 3 2))) (base0 (let* ((or__14__auto (jolt-invoke (var-deref "jolt.host" "form-sym-meta") name-sym))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))) (tag (jolt-get base0 (keyword #f "tag"))) (tag-name (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") tag)) (jolt-invoke (var-deref "jolt.host" "form-sym-name") tag) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") tag)) tag (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) (base-meta (if (jolt-truthy? tag-name) (let* ((c (jolt-invoke (var-deref "jolt.host" "resolve-class-hint") tag-name))) (if (jolt-truthy? c) (jolt-assoc base0 (keyword #f "tag") c) base0)) base0)) (node-meta (if (jolt-truthy? has-doc) (jolt-assoc base-meta (keyword #f "doc") (jolt-nth items 2)) base-meta))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (jolt-invoke (var-deref "jolt.ir" "def-node") cur nm (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx val-form env) node-meta)))))))))) analyze-def))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-host-call" (letrec ((analyze-host-call (lambda (ctx hname items env) (let fnrec3906 ((ctx ctx) (hname hname) (items items) (env env)) (begin (if (< (jolt-count items) 2) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed member expression, expecting (.method target ...): " hname)) jolt-nil) (let* ((_o$3911 (keyword #f "op")) (_o$3912 (keyword #f "host-call")) (_o$3913 (keyword #f "method")) (_o$3914 (jolt-invoke (var-deref "clojure.core" "subs") hname 1)) (_o$3915 (keyword #f "target")) (_o$3916 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$3917 (keyword #f "args")) (_o$3918 (let* ((_a$3908 (var-deref "clojure.core" "mapv")) (_a$3909 (lambda (p__51_) (let fnrec3907 ((p__51_ p__51_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__51_ env)))) (_a$3910 (jolt-drop 2 items))) (jolt-invoke _a$3908 _a$3909 _a$3910)))) (jolt-hash-map _o$3911 _o$3912 _o$3913 _o$3914 _o$3915 _o$3916 _o$3917 _o$3918))))))) analyze-host-call))) + (def-var! "jolt.analyzer" "analyze-set!" (letrec ((analyze-set! (lambda (ctx items env) (let fnrec4796 ((ctx ctx) (items items) (env env)) (let* ((target (jolt-nth items 1)) (val-node (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 2) env)) (ti (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") target)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") target)) jolt-nil)) (thead (if (jolt-truthy? (let* ((and__13__auto ti)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-pos? (jolt-count ti)))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-first ti)) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-first ti)) jolt-nil))) (if (jolt-truthy? (let* ((and__13__auto thead)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") thead) and__13__auto))) (let* ((_o$4797 (keyword #f "op")) (_o$4798 (keyword #f "set-field")) (_o$4799 (keyword #f "obj")) (_o$4800 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth ti 1) env)) (_o$4801 (keyword #f "field")) (_o$4802 (jolt-invoke (var-deref "clojure.core" "subs") thead 2)) (_o$4803 (keyword #f "val")) (_o$4804 val-node)) (jolt-hash-map _o$4797 _o$4798 _o$4799 _o$4800 _o$4801 _o$4802 _o$4803 _o$4804)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") target)) (begin (if (jolt-truthy? (jolt-invoke (var-deref "jolt.analyzer" "local?") env (jolt-invoke (var-deref "jolt.host" "form-sym-name") target))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of a local") jolt-nil) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx target))) (begin (if (jolt-not (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind")))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of a non-var") jolt-nil) (let* ((_o$4808 (keyword #f "op")) (_o$4809 (keyword #f "set-var")) (_o$4810 (keyword #f "the-var")) (_o$4811 (let* ((_a$4805 (var-deref "jolt.ir" "the-var")) (_a$4806 (jolt-get r (keyword #f "ns"))) (_a$4807 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$4805 _a$4806 _a$4807))) (_o$4812 (keyword #f "val")) (_o$4813 val-node)) (jolt-hash-map _o$4808 _o$4809 _o$4810 _o$4811 _o$4812 _o$4813))))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "set! of an unsupported target") jolt-nil)))))))) analyze-set!))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "ctor-head?" (letrec ((ctor-head? (lambda (nm) (let fnrec3919 ((nm nm)) (let* ((and__13__auto (> (jolt-count nm) 1))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "." (let* ((_a$3920 (var-deref "clojure.core" "subs")) (_a$3921 nm) (_a$3922 (jolt-dec (jolt-count nm))) (_a$3923 (jolt-count nm))) (jolt-invoke _a$3920 _a$3921 _a$3922 _a$3923))))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt= "." (jolt-invoke (var-deref "clojure.core" "subs") nm 0 1))) and__13__auto)) and__13__auto)))))) ctor-head?))) + (def-var! "jolt.analyzer" "analyze-special" (letrec ((analyze-special (lambda (ctx op items env) (let fnrec4814 ((ctx ctx) (op op) (items items) (env env)) (let* ((G__44 op)) (if (jolt= G__44 "quote") (jolt-invoke (var-deref "jolt.ir" "quote-node") (jolt-invoke (var-deref "clojure.core" "second") items)) (if (jolt= G__44 "if") (begin (if (jolt-truthy? (let* ((or__14__auto (< (jolt-count items) 3))) (if (jolt-truthy? or__14__auto) or__14__auto (> (jolt-count items) 4)))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Wrong number of args (" (jolt-dec (jolt-count items)) ") passed to: if")) jolt-nil) (let* ((_a$4815 (var-deref "jolt.ir" "if-node")) (_a$4816 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_a$4817 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 2) env)) (_a$4818 (if (> (jolt-count items) 3) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 3) env) (jolt-invoke (var-deref "jolt.ir" "const") jolt-nil)))) (jolt-invoke _a$4815 _a$4816 _a$4817 _a$4818))) (if (jolt= G__44 "do") (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-rest items) env) (if (jolt= G__44 "throw") (jolt-invoke (var-deref "jolt.ir" "throw-node") (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (if (jolt= G__44 "def") (jolt-invoke (var-deref "jolt.analyzer" "analyze-def") ctx items env) (if (jolt= G__44 "let*") (let* ((bvec (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (r (jolt-invoke (var-deref "jolt.analyzer" "analyze-bindings") ctx bvec env))) (let* ((_a$4823 (var-deref "jolt.ir" "let-node")) (_a$4824 (jolt-first r)) (_a$4825 (let* ((_a$4819 (var-deref "jolt.analyzer" "analyze-seq")) (_a$4820 ctx) (_a$4821 (jolt-drop 2 items)) (_a$4822 (jolt-invoke (var-deref "clojure.core" "second") r))) (jolt-invoke _a$4819 _a$4820 _a$4821 _a$4822)))) (jolt-invoke _a$4823 _a$4824 _a$4825))) (if (jolt= G__44 "loop*") (let* ((bvec (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 1)))) (rname (jolt-invoke (var-deref "jolt.analyzer" "gen-name") "loop")) (r (jolt-invoke (var-deref "jolt.analyzer" "analyze-bindings") ctx bvec env)) (env** (jolt-invoke (var-deref "jolt.analyzer" "with-recur") (jolt-invoke (var-deref "clojure.core" "second") r) rname))) (let* ((_o$4826 (keyword #f "op")) (_o$4827 (keyword #f "loop")) (_o$4828 (keyword #f "recur-name")) (_o$4829 rname) (_o$4830 (keyword #f "bindings")) (_o$4831 (jolt-first r)) (_o$4832 (keyword #f "body")) (_o$4833 (jolt-invoke (var-deref "jolt.analyzer" "analyze-seq") ctx (jolt-drop 2 items) env**))) (jolt-hash-map _o$4826 _o$4827 _o$4828 _o$4829 _o$4830 _o$4831 _o$4832 _o$4833))) (if (jolt= G__44 "recur") (let* ((rt (jolt-get env (keyword #f "recur")))) (begin (if (jolt-not rt) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "recur outside loop/fn") jolt-nil) (let* ((_o$4838 (keyword #f "op")) (_o$4839 (keyword #f "recur")) (_o$4840 (keyword #f "recur-name")) (_o$4841 rt) (_o$4842 (keyword #f "args")) (_o$4843 (let* ((_a$4835 (var-deref "clojure.core" "mapv")) (_a$4836 (lambda (p__50_) (let fnrec4834 ((p__50_ p__50_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__50_ env)))) (_a$4837 (jolt-rest items))) (jolt-invoke _a$4835 _a$4836 _a$4837)))) (jolt-hash-map _o$4838 _o$4839 _o$4840 _o$4841 _o$4842 _o$4843)))) (if (jolt= G__44 "try") (jolt-invoke (var-deref "jolt.analyzer" "analyze-try") ctx items env) (if (jolt= G__44 "letfn") (jolt-invoke (var-deref "jolt.analyzer" "analyze-letfn") ctx items env) (if (jolt= G__44 "fn*") (jolt-invoke (var-deref "jolt.analyzer" "analyze-fn") ctx items env) (if (jolt= G__44 "syntax-quote") (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-invoke (var-deref "jolt.host" "form-syntax-quote-lower") ctx (jolt-invoke (var-deref "clojure.core" "second") items)) env) (if (jolt= G__44 "var") (let* ((sym (jolt-invoke (var-deref "clojure.core" "second") items)) (r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx sym))) (if (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind"))) (let* ((_a$4844 (var-deref "jolt.ir" "the-var")) (_a$4845 (jolt-get r (keyword #f "ns"))) (_a$4846 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$4844 _a$4845 _a$4846)) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "var of non-var " (jolt-invoke (var-deref "jolt.host" "form-sym-name") sym))))) (if (jolt= G__44 "defmacro") (let* ((name-sym (jolt-nth items 1)) (nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") name-sym)) (cur (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx)) (after (jolt-drop 2 items)) (after (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first after))) (jolt-rest after) after)) (after (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") (jolt-first after))) (jolt-rest after) after)) (fn-form (jolt-cons (jolt-invoke (var-deref "clojure.core" "symbol") "fn") after))) (begin (jolt-invoke (var-deref "jolt.host" "host-intern!") ctx cur nm) (let* ((_o$4847 (keyword #f "op")) (_o$4848 (keyword #f "defmacro")) (_o$4849 (keyword #f "ns")) (_o$4850 cur) (_o$4851 (keyword #f "name")) (_o$4852 nm) (_o$4853 (keyword #f "fn")) (_o$4854 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx fn-form env))) (jolt-hash-map _o$4847 _o$4848 _o$4849 _o$4850 _o$4851 _o$4852 _o$4853 _o$4854)))) (if (jolt= G__44 "set!") (jolt-invoke (var-deref "jolt.analyzer" "analyze-set!") ctx items env) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "special form " op)))))))))))))))))))))) analyze-special))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-ctor" (letrec ((analyze-ctor (lambda (ctx class args env) (let fnrec3924 ((ctx ctx) (class class) (args args) (env env)) (jolt-invoke (var-deref "jolt.ir" "host-new") class (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__52_) (let fnrec3925 ((p__52_ p__52_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__52_ env))) args)))))) analyze-ctor))) + (def-var! "jolt.analyzer" "method-head?" (letrec ((method-head? (lambda (nm) (let fnrec4855 ((nm nm)) (let* ((and__13__auto (> (jolt-count nm) 1))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "." (jolt-invoke (var-deref "clojure.core" "subs") nm 0 1)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (jolt= "-" (jolt-invoke (var-deref "clojure.core" "subs") nm 1 2))))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt= "." (jolt-invoke (var-deref "clojure.core" "subs") nm 1 2))) and__13__auto)) and__13__auto)) and__13__auto)))))) method-head?))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-ffi-fn" (letrec ((analyze-ffi-fn (lambda (ctx items env) (let fnrec3926 ((ctx ctx) (items items) (env env)) (begin (if (jolt-not (<= 4 (jolt-count items) 5)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi/foreign-fn expects (foreign-fn \"sym\" [argtypes] rettype [:blocking])")) jolt-nil) (let* ((_o$3927 (keyword #f "op")) (_o$3928 (keyword #f "ffi-fn")) (_o$3929 (keyword #f "csym")) (_o$3930 (jolt-nth items 1)) (_o$3931 (keyword #f "argtypes")) (_o$3932 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "name") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 2)))) (_o$3933 (keyword #f "rettype")) (_o$3934 (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 3))) (_o$3935 (keyword #f "blocking")) (_o$3936 (let* ((and__13__auto (jolt= 5 (jolt-count items)))) (if (jolt-truthy? and__13__auto) (jolt= "blocking" (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 4))) and__13__auto)))) (jolt-hash-map _o$3927 _o$3928 _o$3929 _o$3930 _o$3931 _o$3932 _o$3933 _o$3934 _o$3935 _o$3936))))))) analyze-ffi-fn))) + (def-var! "jolt.analyzer" "analyze-host-call" (letrec ((analyze-host-call (lambda (ctx hname items env) (let fnrec4856 ((ctx ctx) (hname hname) (items items) (env env)) (begin (if (< (jolt-count items) 2) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed member expression, expecting (.method target ...): " hname)) jolt-nil) (let* ((_o$4861 (keyword #f "op")) (_o$4862 (keyword #f "host-call")) (_o$4863 (keyword #f "method")) (_o$4864 (jolt-invoke (var-deref "clojure.core" "subs") hname 1)) (_o$4865 (keyword #f "target")) (_o$4866 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$4867 (keyword #f "args")) (_o$4868 (let* ((_a$4858 (var-deref "clojure.core" "mapv")) (_a$4859 (lambda (p__51_) (let fnrec4857 ((p__51_ p__51_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__51_ env)))) (_a$4860 (jolt-drop 2 items))) (jolt-invoke _a$4858 _a$4859 _a$4860)))) (jolt-hash-map _o$4861 _o$4862 _o$4863 _o$4864 _o$4865 _o$4866 _o$4867 _o$4868))))))) analyze-host-call))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-dot" (letrec ((analyze-dot (lambda (ctx items env) (let fnrec3937 ((ctx ctx) (items items) (env env)) (begin (if (< (jolt-count items) 3) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (. target member ...) form")) jolt-nil) (let* ((member (jolt-nth items 2))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") member)) (let* ((_o$3942 (keyword #f "op")) (_o$3943 (keyword #f "host-call")) (_o$3944 (keyword #f "method")) (_o$3945 (jolt-invoke (var-deref "jolt.host" "form-sym-name") member)) (_o$3946 (keyword #f "target")) (_o$3947 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$3948 (keyword #f "args")) (_o$3949 (let* ((_a$3939 (var-deref "clojure.core" "mapv")) (_a$3940 (lambda (p__53_) (let fnrec3938 ((p__53_ p__53_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__53_ env)))) (_a$3941 (jolt-drop 3 items))) (jolt-invoke _a$3939 _a$3940 _a$3941)))) (jolt-hash-map _o$3942 _o$3943 _o$3944 _o$3945 _o$3946 _o$3947 _o$3948 _o$3949)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-keyword?") member)) (let* ((_a$3950 (var-deref "jolt.ir" "invoke")) (_a$3951 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx member env)) (_a$3952 (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)))) (jolt-invoke _a$3950 _a$3951 _a$3952)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "special form . (non-symbol member)") jolt-nil))))))))) analyze-dot))) + (def-var! "jolt.analyzer" "ctor-head?" (letrec ((ctor-head? (lambda (nm) (let fnrec4869 ((nm nm)) (let* ((and__13__auto (> (jolt-count nm) 1))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "." (let* ((_a$4870 (var-deref "clojure.core" "subs")) (_a$4871 nm) (_a$4872 (jolt-dec (jolt-count nm))) (_a$4873 (jolt-count nm))) (jolt-invoke _a$4870 _a$4871 _a$4872 _a$4873))))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt= "." (jolt-invoke (var-deref "clojure.core" "subs") nm 0 1))) and__13__auto)) and__13__auto)))))) ctor-head?))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "field-head?" (letrec ((field-head? (lambda (nm) (let fnrec3953 ((nm nm)) (let* ((and__13__auto (> (jolt-count nm) 2))) (if (jolt-truthy? and__13__auto) (jolt= ".-" (jolt-invoke (var-deref "clojure.core" "subs") nm 0 2)) and__13__auto)))))) field-head?))) + (def-var! "jolt.analyzer" "analyze-ctor" (letrec ((analyze-ctor (lambda (ctx class args env) (let fnrec4874 ((ctx ctx) (class class) (args args) (env env)) (jolt-invoke (var-deref "jolt.ir" "host-new") class (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (p__52_) (let fnrec4875 ((p__52_ p__52_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__52_ env))) args)))))) analyze-ctor))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-field" (letrec ((analyze-field (lambda (ctx hname items env) (let fnrec3954 ((ctx ctx) (hname hname) (items items) (env env)) (begin (if (< (jolt-count items) 2) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (.-field target) form")) jolt-nil) (let* ((_o$3955 (keyword #f "op")) (_o$3956 (keyword #f "host-call")) (_o$3957 (keyword #f "method")) (_o$3958 (jolt-invoke (var-deref "clojure.core" "subs") hname 1)) (_o$3959 (keyword #f "target")) (_o$3960 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$3961 (keyword #f "args")) (_o$3962 (jolt-vector))) (jolt-hash-map _o$3955 _o$3956 _o$3957 _o$3958 _o$3959 _o$3960 _o$3961 _o$3962))))))) analyze-field))) + (def-var! "jolt.analyzer" "analyze-ffi-fn" (letrec ((analyze-ffi-fn (lambda (ctx items env) (let fnrec4876 ((ctx ctx) (items items) (env env)) (begin (if (jolt-not (<= 4 (jolt-count items) 5)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi/foreign-fn expects (foreign-fn \"sym\" [argtypes] rettype [:blocking])")) jolt-nil) (let* ((_o$4877 (keyword #f "op")) (_o$4878 (keyword #f "ffi-fn")) (_o$4879 (keyword #f "csym")) (_o$4880 (jolt-nth items 1)) (_o$4881 (keyword #f "argtypes")) (_o$4882 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "name") (jolt-invoke (var-deref "jolt.host" "form-vec-items") (jolt-nth items 2)))) (_o$4883 (keyword #f "rettype")) (_o$4884 (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 3))) (_o$4885 (keyword #f "blocking")) (_o$4886 (let* ((and__13__auto (jolt= 5 (jolt-count items)))) (if (jolt-truthy? and__13__auto) (jolt= "blocking" (jolt-invoke (var-deref "clojure.core" "name") (jolt-nth items 4))) and__13__auto)))) (jolt-hash-map _o$4877 _o$4878 _o$4879 _o$4880 _o$4881 _o$4882 _o$4883 _o$4884 _o$4885 _o$4886))))))) analyze-ffi-fn))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-symbol" (letrec ((analyze-symbol (lambda (ctx form env) (let fnrec3963 ((ctx ctx) (form form) (env env)) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form)) (ns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "nil?") ns))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env nm) and__13__auto))) (let* ((h (jolt-get (jolt-get env (keyword #f "hints")) nm))) (if (jolt-truthy? h) (jolt-assoc (jolt-invoke (var-deref "jolt.ir" "local") nm) (keyword #f "hint") h) (jolt-invoke (var-deref "jolt.ir" "local") nm))) (if (jolt-truthy? ns) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (if (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind"))) (let* ((_a$3964 (var-deref "jolt.ir" "var-ref")) (_a$3965 (jolt-get r (keyword #f "ns"))) (_a$3966 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$3964 _a$3965 _a$3966)) (jolt-invoke (var-deref "jolt.ir" "host-static") ns nm))) (if (jolt-truthy? (keyword #f "else")) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (let* ((G__44 (jolt-get r (keyword #f "kind")))) (if (jolt= G__44 (keyword #f "var")) (let* ((_a$3967 (var-deref "jolt.ir" "var-ref")) (_a$3968 (jolt-get r (keyword #f "ns"))) (_a$3969 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$3967 _a$3968 _a$3969)) (if (jolt= G__44 (keyword #f "host")) (jolt-invoke (var-deref "jolt.ir" "host-ref") (jolt-get r (keyword #f "name"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "late-bind?") ctx)) (jolt-invoke (var-deref "jolt.ir" "var-ref") (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx) nm) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "Unable to resolve symbol: " nm " in this context"))))))) jolt-nil)))))))) analyze-symbol))) + (def-var! "jolt.analyzer" "analyze-dot" (letrec ((analyze-dot (lambda (ctx items env) (let fnrec4887 ((ctx ctx) (items items) (env env)) (begin (if (< (jolt-count items) 3) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (. target member ...) form")) jolt-nil) (let* ((member (jolt-nth items 2))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") member)) (let* ((_o$4892 (keyword #f "op")) (_o$4893 (keyword #f "host-call")) (_o$4894 (keyword #f "method")) (_o$4895 (jolt-invoke (var-deref "jolt.host" "form-sym-name") member)) (_o$4896 (keyword #f "target")) (_o$4897 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$4898 (keyword #f "args")) (_o$4899 (let* ((_a$4889 (var-deref "clojure.core" "mapv")) (_a$4890 (lambda (p__53_) (let fnrec4888 ((p__53_ p__53_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__53_ env)))) (_a$4891 (jolt-drop 3 items))) (jolt-invoke _a$4889 _a$4890 _a$4891)))) (jolt-hash-map _o$4892 _o$4893 _o$4894 _o$4895 _o$4896 _o$4897 _o$4898 _o$4899)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-keyword?") member)) (let* ((_a$4900 (var-deref "jolt.ir" "invoke")) (_a$4901 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx member env)) (_a$4902 (jolt-vector (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)))) (jolt-invoke _a$4900 _a$4901 _a$4902)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "special form . (non-symbol member)") jolt-nil))))))))) analyze-dot))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze-list" (letrec ((analyze-list (lambda (ctx form env) (let fnrec3970 ((ctx ctx) (form form) (env env)) (let* ((items (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-zero? (jolt-count items)) (jolt-invoke (var-deref "jolt.ir" "quote-node") form) (let* ((head (jolt-first items)) (hname (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)) and__13__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)) (shadowed (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env hname) and__13__auto)))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-macro?") ctx head) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-invoke (var-deref "jolt.host" "form-expand-1") ctx form) env) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "jolt.ffi" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__13__auto) (jolt= "__cfn" (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-ffi-fn") ctx items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (jolt-contains? (var-deref "jolt.analyzer" "handled") hname) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-special") ctx hname items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "method-head?") hname) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-host-call") ctx hname items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "ctor-head?") hname) and__13__auto)) and__13__auto))) (let* ((_a$3971 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$3972 ctx) (_a$3973 (jolt-invoke (var-deref "clojure.core" "subs") hname 0 (jolt-dec (jolt-count hname)))) (_a$3974 (jolt-rest items)) (_a$3975 env)) (jolt-invoke _a$3971 _a$3972 _a$3973 _a$3974 _a$3975)) (if (jolt-truthy? (let* ((and__13__auto (jolt= hname "new"))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (>= (jolt-count items) 2))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1)) and__13__auto)) and__13__auto)) and__13__auto))) (let* ((_a$3976 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$3977 ctx) (_a$3978 (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1))) (_a$3979 (jolt-drop 2 items)) (_a$3980 env)) (jolt-invoke _a$3976 _a$3977 _a$3978 _a$3979 _a$3980)) (if (jolt-truthy? (let* ((and__13__auto (jolt= hname "."))) (if (jolt-truthy? and__13__auto) (jolt-not shadowed) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-dot") ctx items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") hname) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-field") ctx hname items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-special?") hname) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "special form " hname)) (if (jolt-truthy? (keyword #f "else")) (let* ((n (let* ((_a$3985 (var-deref "jolt.ir" "invoke")) (_a$3986 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx head env)) (_a$3987 (let* ((_a$3982 (var-deref "clojure.core" "mapv")) (_a$3983 (lambda (p__54_) (let fnrec3981 ((p__54_ p__54_)) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx p__54_ env)))) (_a$3984 (jolt-rest items))) (jolt-invoke _a$3982 _a$3983 _a$3984)))) (jolt-invoke _a$3985 _a$3986 _a$3987))) (p (jolt-invoke (var-deref "jolt.host" "form-position") form))) (if (jolt-truthy? p) (jolt-assoc n (keyword #f "pos") p) n)) jolt-nil))))))))))))))))) analyze-list))) + (def-var! "jolt.analyzer" "analyze-field" (letrec ((analyze-field (lambda (ctx hname items env) (let fnrec4903 ((ctx ctx) (hname hname) (items items) (env env)) (begin (if (< (jolt-count items) 2) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Malformed (.-field target) form")) jolt-nil) (let* ((_o$4904 (keyword #f "op")) (_o$4905 (keyword #f "host-call")) (_o$4906 (keyword #f "method")) (_o$4907 (jolt-invoke (var-deref "clojure.core" "subs") hname 1)) (_o$4908 (keyword #f "target")) (_o$4909 (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-nth items 1) env)) (_o$4910 (keyword #f "args")) (_o$4911 (jolt-vector))) (jolt-hash-map _o$4904 _o$4905 _o$4906 _o$4907 _o$4908 _o$4909 _o$4910 _o$4911))))))) analyze-field))) (guard (e (#t #f)) - (def-var! "jolt.analyzer" "analyze" (letrec ((analyze (case-lambda ((ctx form) (let fnrec3988 ((ctx ctx) (form form)) (jolt-invoke analyze ctx form (jolt-invoke (var-deref "jolt.analyzer" "empty-env"))))) ((ctx form env) (let fnrec3989 ((ctx ctx) (form form) (env env)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.ir" "const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-symbol") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "jolt.ir" "vector-node") (let* ((_a$3991 (var-deref "clojure.core" "mapv")) (_a$3992 (lambda (p__55_) (let fnrec3990 ((p__55_ p__55_)) (jolt-invoke analyze ctx p__55_ env)))) (_a$3993 (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) (jolt-invoke _a$3991 _a$3992 _a$3993))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.ir" "map-node") (let* ((_a$3997 (var-deref "clojure.core" "mapv")) (_a$3998 (lambda (p) (let fnrec3994 ((p p)) (let* ((_o$3995 (jolt-invoke analyze ctx (jolt-first p) env)) (_o$3996 (jolt-invoke analyze ctx (jolt-invoke (var-deref "clojure.core" "second") p) env))) (jolt-vector _o$3995 _o$3996))))) (_a$3999 (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form))) (jolt-invoke _a$3997 _a$3998 _a$3999))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "jolt.ir" "set-node") (let* ((_a$4001 (var-deref "clojure.core" "mapv")) (_a$4002 (lambda (p__56_) (let fnrec4000 ((p__56_ p__56_)) (jolt-invoke analyze ctx p__56_ env)))) (_a$4003 (jolt-invoke (var-deref "jolt.host" "form-set-items") form))) (jolt-invoke _a$4001 _a$4002 _a$4003))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-list") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-regex?") form)) (let* ((_o$4004 (keyword #f "op")) (_o$4005 (keyword #f "regex")) (_o$4006 (keyword #f "source")) (_o$4007 (jolt-invoke (var-deref "jolt.host" "form-regex-source") form))) (jolt-hash-map _o$4004 _o$4005 _o$4006 _o$4007)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-inst?") form)) (let* ((_o$4008 (keyword #f "op")) (_o$4009 (keyword #f "inst")) (_o$4010 (keyword #f "source")) (_o$4011 (jolt-invoke (var-deref "jolt.host" "form-inst-source") form))) (jolt-hash-map _o$4008 _o$4009 _o$4010 _o$4011)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-uuid?") form)) (let* ((_o$4012 (keyword #f "op")) (_o$4013 (keyword #f "uuid")) (_o$4014 (keyword #f "source")) (_o$4015 (jolt-invoke (var-deref "jolt.host" "form-uuid-source") form))) (jolt-hash-map _o$4012 _o$4013 _o$4014 _o$4015)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-bigdec?") form)) (let* ((_o$4016 (keyword #f "op")) (_o$4017 (keyword #f "bigdec")) (_o$4018 (keyword #f "source")) (_o$4019 (jolt-invoke (var-deref "jolt.host" "form-bigdec-source") form))) (jolt-hash-map _o$4016 _o$4017 _o$4018 _o$4019)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-ns-value?") form)) (let* ((_o$4020 (keyword #f "op")) (_o$4021 (keyword #f "the-ns")) (_o$4022 (keyword #f "name")) (_o$4023 (jolt-invoke (var-deref "jolt.host" "form-ns-value-name") form))) (jolt-hash-map _o$4020 _o$4021 _o$4022 _o$4023)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "unsupported form") jolt-nil))))))))))))))))) analyze))) + (def-var! "jolt.analyzer" "analyze-symbol" (letrec ((analyze-symbol (lambda (ctx form env) (let fnrec4912 ((ctx ctx) (form form) (env env)) (let* ((nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form)) (ns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "nil?") ns))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env nm) and__13__auto))) (let* ((h (jolt-get (jolt-get env (keyword #f "hints")) nm))) (if (jolt-truthy? h) (jolt-assoc (jolt-invoke (var-deref "jolt.ir" "local") nm) (keyword #f "hint") h) (jolt-invoke (var-deref "jolt.ir" "local") nm))) (if (jolt-truthy? ns) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (if (jolt= (keyword #f "var") (jolt-get r (keyword #f "kind"))) (let* ((_a$4913 (var-deref "jolt.ir" "var-ref")) (_a$4914 (jolt-get r (keyword #f "ns"))) (_a$4915 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$4913 _a$4914 _a$4915)) (jolt-invoke (var-deref "jolt.ir" "host-static") ns nm))) (if (jolt-truthy? (keyword #f "else")) (let* ((r (jolt-invoke (var-deref "jolt.host" "resolve-global") ctx form))) (let* ((G__45 (jolt-get r (keyword #f "kind")))) (if (jolt= G__45 (keyword #f "var")) (let* ((_a$4916 (var-deref "jolt.ir" "var-ref")) (_a$4917 (jolt-get r (keyword #f "ns"))) (_a$4918 (jolt-get r (keyword #f "name")))) (jolt-invoke _a$4916 _a$4917 _a$4918)) (if (jolt= G__45 (keyword #f "host")) (jolt-invoke (var-deref "jolt.ir" "host-ref") (jolt-get r (keyword #f "name"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "late-bind?") ctx)) (jolt-invoke (var-deref "jolt.ir" "var-ref") (jolt-invoke (var-deref "jolt.host" "compile-ns") ctx) nm) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") (jolt-invoke (var-deref "clojure.core" "str") "Unable to resolve symbol: " nm " in this context"))))))) jolt-nil)))))))) analyze-symbol))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "native-ops" (let* ((_o$2876 "+") (_o$2877 "+") (_o$2878 "-") (_o$2879 "-") (_o$2880 "*") (_o$2881 "*") (_o$2882 "/") (_o$2883 "/") (_o$2884 "<") (_o$2885 "<") (_o$2886 ">") (_o$2887 ">") (_o$2888 "<=") (_o$2889 "<=") (_o$2890 ">=") (_o$2891 ">=") (_o$2892 "=") (_o$2893 "jolt=") (_o$2894 "inc") (_o$2895 "jolt-inc") (_o$2896 "dec") (_o$2897 "jolt-dec") (_o$2898 "not") (_o$2899 "jolt-not") (_o$2900 "min") (_o$2901 "min") (_o$2902 "max") (_o$2903 "max") (_o$2904 "mod") (_o$2905 "modulo") (_o$2906 "rem") (_o$2907 "remainder") (_o$2908 "quot") (_o$2909 "quotient") (_o$2910 "vector") (_o$2911 "jolt-vector") (_o$2912 "hash-map") (_o$2913 "jolt-hash-map") (_o$2914 "hash-set") (_o$2915 "jolt-hash-set") (_o$2916 "conj") (_o$2917 "jolt-conj") (_o$2918 "get") (_o$2919 "jolt-get") (_o$2920 "nth") (_o$2921 "jolt-nth") (_o$2922 "count") (_o$2923 "jolt-count") (_o$2924 "assoc") (_o$2925 "jolt-assoc") (_o$2926 "dissoc") (_o$2927 "jolt-dissoc") (_o$2928 "contains?") (_o$2929 "jolt-contains?") (_o$2930 "empty?") (_o$2931 "jolt-empty?") (_o$2932 "peek") (_o$2933 "jolt-peek") (_o$2934 "pop") (_o$2935 "jolt-pop") (_o$2936 "first") (_o$2937 "jolt-first") (_o$2938 "rest") (_o$2939 "jolt-rest") (_o$2940 "next") (_o$2941 "jolt-next") (_o$2942 "seq") (_o$2943 "jolt-seq") (_o$2944 "cons") (_o$2945 "jolt-cons") (_o$2946 "list") (_o$2947 "jolt-list") (_o$2948 "reverse") (_o$2949 "jolt-reverse") (_o$2950 "last") (_o$2951 "jolt-last") (_o$2952 "map") (_o$2953 "jolt-map") (_o$2954 "filter") (_o$2955 "jolt-filter") (_o$2956 "remove") (_o$2957 "jolt-remove") (_o$2958 "reduce") (_o$2959 "jolt-reduce") (_o$2960 "into") (_o$2961 "jolt-into") (_o$2962 "concat") (_o$2963 "jolt-concat") (_o$2964 "apply") (_o$2965 "jolt-apply") (_o$2966 "range") (_o$2967 "jolt-range") (_o$2968 "take") (_o$2969 "jolt-take") (_o$2970 "drop") (_o$2971 "jolt-drop") (_o$2972 "keys") (_o$2973 "jolt-keys") (_o$2974 "vals") (_o$2975 "jolt-vals") (_o$2976 "even?") (_o$2977 "jolt-even?") (_o$2978 "odd?") (_o$2979 "jolt-odd?") (_o$2980 "pos?") (_o$2981 "jolt-pos?") (_o$2982 "neg?") (_o$2983 "jolt-neg?") (_o$2984 "zero?") (_o$2985 "jolt-zero?") (_o$2986 "identity") (_o$2987 "jolt-identity") (_o$2988 "ex-info") (_o$2989 "jolt-ex-info")) (jolt-hash-map _o$2876 _o$2877 _o$2878 _o$2879 _o$2880 _o$2881 _o$2882 _o$2883 _o$2884 _o$2885 _o$2886 _o$2887 _o$2888 _o$2889 _o$2890 _o$2891 _o$2892 _o$2893 _o$2894 _o$2895 _o$2896 _o$2897 _o$2898 _o$2899 _o$2900 _o$2901 _o$2902 _o$2903 _o$2904 _o$2905 _o$2906 _o$2907 _o$2908 _o$2909 _o$2910 _o$2911 _o$2912 _o$2913 _o$2914 _o$2915 _o$2916 _o$2917 _o$2918 _o$2919 _o$2920 _o$2921 _o$2922 _o$2923 _o$2924 _o$2925 _o$2926 _o$2927 _o$2928 _o$2929 _o$2930 _o$2931 _o$2932 _o$2933 _o$2934 _o$2935 _o$2936 _o$2937 _o$2938 _o$2939 _o$2940 _o$2941 _o$2942 _o$2943 _o$2944 _o$2945 _o$2946 _o$2947 _o$2948 _o$2949 _o$2950 _o$2951 _o$2952 _o$2953 _o$2954 _o$2955 _o$2956 _o$2957 _o$2958 _o$2959 _o$2960 _o$2961 _o$2962 _o$2963 _o$2964 _o$2965 _o$2966 _o$2967 _o$2968 _o$2969 _o$2970 _o$2971 _o$2972 _o$2973 _o$2974 _o$2975 _o$2976 _o$2977 _o$2978 _o$2979 _o$2980 _o$2981 _o$2982 _o$2983 _o$2984 _o$2985 _o$2986 _o$2987 _o$2988 _o$2989)) (jolt-hash-map (keyword #f "private") #t))) + (def-var! "jolt.analyzer" "analyze-list" (letrec ((analyze-list (lambda (ctx form env) (let fnrec4919 ((ctx ctx) (form form) (env env)) (let* ((items (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "jolt.host" "form-elements") form)))) (if (jolt-zero? (jolt-count items)) (jolt-invoke (var-deref "jolt.ir" "quote-node") form) (let* ((head (jolt-first items)) (hname (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)) and__13__auto))) (jolt-invoke (var-deref "jolt.host" "form-sym-name") head) jolt-nil)) (shadowed (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "local?") env hname) and__13__auto)))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-macro?") ctx head) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze") ctx (jolt-invoke (var-deref "jolt.host" "form-expand-1") ctx form) env) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.host" "form-sym?") head))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "jolt.ffi" (jolt-invoke (var-deref "jolt.host" "form-sym-ns") head)))) (if (jolt-truthy? and__13__auto) (jolt= "__cfn" (jolt-invoke (var-deref "jolt.host" "form-sym-name") head)) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-ffi-fn") ctx items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (jolt-contains? (var-deref "jolt.analyzer" "handled") hname) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-special") ctx hname items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "method-head?") hname) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-host-call") ctx hname items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "ctor-head?") hname) and__13__auto)) and__13__auto))) (let* ((_a$4920 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$4921 ctx) (_a$4922 (jolt-invoke (var-deref "clojure.core" "subs") hname 0 (jolt-dec (jolt-count hname)))) (_a$4923 (jolt-rest items)) (_a$4924 env)) (jolt-invoke _a$4920 _a$4921 _a$4922 _a$4923 _a$4924)) (if (jolt-truthy? (let* ((and__13__auto (jolt= hname "new"))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (>= (jolt-count items) 2))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.host" "form-sym?") (jolt-nth items 1)) and__13__auto)) and__13__auto)) and__13__auto))) (let* ((_a$4925 (var-deref "jolt.analyzer" "analyze-ctor")) (_a$4926 ctx) (_a$4927 (jolt-invoke (var-deref "jolt.host" "form-sym-name") (jolt-nth items 1))) (_a$4928 (jolt-drop 2 items)) (_a$4929 env)) (jolt-invoke _a$4925 _a$4926 _a$4927 _a$4928 _a$4929)) (if (jolt-truthy? (let* ((and__13__auto (jolt= hname "."))) (if (jolt-truthy? and__13__auto) (jolt-not shadowed) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-dot") ctx items env) (if (jolt-truthy? (let* ((and__13__auto hname)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not shadowed))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.analyzer" "field-head?") hname) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.analyzer" "analyze-field") ctx hname items env) (if (jolt-truthy? 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"jolt.backend-scheme" "core-value-procs" (jolt-invoke (var-deref "clojure.core" "merge") (var-deref "jolt.backend-scheme" "native-ops") (let* ((_o$2990 "+") (_o$2991 "jolt-add") (_o$2992 "-") (_o$2993 "jolt-sub") (_o$2994 "*") (_o$2995 "jolt-mul") (_o$2996 "/") (_o$2997 "jolt-div")) (jolt-hash-map _o$2990 _o$2991 _o$2992 _o$2993 _o$2994 _o$2995 _o$2996 _o$2997))) (jolt-hash-map (keyword #f "private") #t))) + (def-var! "jolt.analyzer" "analyze" (letrec ((analyze (case-lambda ((ctx form) (let fnrec4937 ((ctx ctx) (form form)) (jolt-invoke analyze ctx form (jolt-invoke (var-deref "jolt.analyzer" "empty-env"))))) ((ctx form env) (let fnrec4938 ((ctx ctx) (form form) (env env)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.ir" "const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-symbol") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "jolt.ir" "vector-node") (let* ((_a$4940 (var-deref "clojure.core" "mapv")) (_a$4941 (lambda (p__55_) (let fnrec4939 ((p__55_ p__55_)) (jolt-invoke analyze ctx p__55_ env)))) (_a$4942 (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) (jolt-invoke _a$4940 _a$4941 _a$4942))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.ir" "map-node") (let* ((_a$4946 (var-deref "clojure.core" "mapv")) (_a$4947 (lambda (p) (let fnrec4943 ((p p)) (let* ((_o$4944 (jolt-invoke analyze ctx (jolt-first p) env)) (_o$4945 (jolt-invoke analyze ctx (jolt-invoke (var-deref "clojure.core" "second") p) env))) (jolt-vector _o$4944 _o$4945))))) (_a$4948 (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form))) (jolt-invoke _a$4946 _a$4947 _a$4948))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "jolt.ir" "set-node") (let* ((_a$4950 (var-deref "clojure.core" "mapv")) (_a$4951 (lambda (p__56_) (let fnrec4949 ((p__56_ p__56_)) (jolt-invoke analyze ctx p__56_ env)))) (_a$4952 (jolt-invoke (var-deref "jolt.host" "form-set-items") form))) (jolt-invoke _a$4950 _a$4951 _a$4952))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "jolt.analyzer" "analyze-list") ctx form env) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-regex?") form)) (let* ((_o$4953 (keyword #f "op")) (_o$4954 (keyword #f "regex")) (_o$4955 (keyword #f "source")) (_o$4956 (jolt-invoke (var-deref "jolt.host" "form-regex-source") form))) (jolt-hash-map _o$4953 _o$4954 _o$4955 _o$4956)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-inst?") form)) (let* ((_o$4957 (keyword #f "op")) (_o$4958 (keyword #f "inst")) (_o$4959 (keyword #f "source")) (_o$4960 (jolt-invoke (var-deref "jolt.host" "form-inst-source") form))) (jolt-hash-map _o$4957 _o$4958 _o$4959 _o$4960)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-uuid?") form)) (let* ((_o$4961 (keyword #f "op")) (_o$4962 (keyword #f "uuid")) (_o$4963 (keyword #f "source")) (_o$4964 (jolt-invoke (var-deref "jolt.host" "form-uuid-source") form))) (jolt-hash-map _o$4961 _o$4962 _o$4963 _o$4964)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-bigdec?") form)) (let* ((_o$4965 (keyword #f "op")) (_o$4966 (keyword #f "bigdec")) (_o$4967 (keyword #f "source")) (_o$4968 (jolt-invoke (var-deref "jolt.host" "form-bigdec-source") form))) (jolt-hash-map _o$4965 _o$4966 _o$4967 _o$4968)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-ns-value?") form)) (let* ((_o$4969 (keyword #f "op")) (_o$4970 (keyword #f "the-ns")) (_o$4971 (keyword #f "name")) (_o$4972 (jolt-invoke (var-deref "jolt.host" "form-ns-value-name") form))) (jolt-hash-map _o$4969 _o$4970 _o$4971 _o$4972)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.analyzer" "uncompilable") "unsupported form") jolt-nil))))))))))))))))) analyze))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "op-arity" (let* ((_o$3039 "inc") (_o$3040 (lambda (p__4_) (let fnrec2998 ((p__4_ p__4_)) (jolt= p__4_ 1)))) (_o$3041 "dec") (_o$3042 (lambda (p__5_) (let fnrec2999 ((p__5_ p__5_)) (jolt= p__5_ 1)))) (_o$3043 "not") (_o$3044 (lambda (p__6_) (let fnrec3000 ((p__6_ p__6_)) (jolt= p__6_ 1)))) (_o$3045 "count") (_o$3046 (lambda (p__7_) (let fnrec3001 ((p__7_ p__7_)) (jolt= p__7_ 1)))) (_o$3047 "empty?") 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(_o$3060 (lambda (p__14_) (let fnrec3008 ((p__14_ p__14_)) (jolt= p__14_ 2)))) (_o$3061 "get") (_o$3062 (lambda (p__15_) (let fnrec3009 ((p__15_ p__15_)) (let* ((or__14__auto (jolt= p__15_ 2))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= p__15_ 3)))))) (_o$3063 "nth") (_o$3064 (lambda (p__16_) (let fnrec3010 ((p__16_ p__16_)) (let* ((or__14__auto (jolt= p__16_ 2))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= p__16_ 3)))))) (_o$3065 "assoc") (_o$3066 (lambda (p__17_) (let fnrec3011 ((p__17_ p__17_)) (let* ((and__13__auto (>= p__17_ 3))) (if (jolt-truthy? and__13__auto) (jolt-odd? p__17_) and__13__auto))))) (_o$3067 "dissoc") (_o$3068 (lambda (p__18_) (let fnrec3012 ((p__18_ p__18_)) (>= p__18_ 1)))) (_o$3069 "conj") (_o$3070 (lambda (p__19_) (let fnrec3013 ((p__19_ p__19_)) (>= p__19_ 1)))) (_o$3071 "first") (_o$3072 (lambda (p__20_) (let fnrec3014 ((p__20_ p__20_)) (jolt= p__20_ 1)))) (_o$3073 "rest") (_o$3074 (lambda (p__21_) (let fnrec3015 ((p__21_ p__21_)) (jolt= p__21_ 1)))) (_o$3075 "next") (_o$3076 (lambda (p__22_) (let fnrec3016 ((p__22_ p__22_)) (jolt= p__22_ 1)))) (_o$3077 "seq") (_o$3078 (lambda (p__23_) (let fnrec3017 ((p__23_ p__23_)) (jolt= p__23_ 1)))) (_o$3079 "reverse") (_o$3080 (lambda (p__24_) (let fnrec3018 ((p__24_ p__24_)) (jolt= p__24_ 1)))) (_o$3081 "last") (_o$3082 (lambda (p__25_) (let fnrec3019 ((p__25_ p__25_)) (jolt= p__25_ 1)))) (_o$3083 "keys") (_o$3084 (lambda (p__26_) (let fnrec3020 ((p__26_ p__26_)) (jolt= p__26_ 1)))) (_o$3085 "vals") (_o$3086 (lambda (p__27_) (let fnrec3021 ((p__27_ p__27_)) (jolt= p__27_ 1)))) (_o$3087 "even?") 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"jolt.backend-scheme" "native-ops" (let* ((_o$3733 "+") (_o$3734 "+") (_o$3735 "-") (_o$3736 "-") (_o$3737 "*") (_o$3738 "*") (_o$3739 "/") (_o$3740 "/") (_o$3741 "<") (_o$3742 "<") (_o$3743 ">") (_o$3744 ">") (_o$3745 "<=") (_o$3746 "<=") (_o$3747 ">=") (_o$3748 ">=") (_o$3749 "=") (_o$3750 "jolt=") (_o$3751 "inc") (_o$3752 "jolt-inc") (_o$3753 "dec") (_o$3754 "jolt-dec") (_o$3755 "not") (_o$3756 "jolt-not") (_o$3757 "min") (_o$3758 "min") (_o$3759 "max") (_o$3760 "max") (_o$3761 "mod") (_o$3762 "modulo") (_o$3763 "rem") (_o$3764 "remainder") (_o$3765 "quot") (_o$3766 "quotient") (_o$3767 "vector") (_o$3768 "jolt-vector") (_o$3769 "hash-map") (_o$3770 "jolt-hash-map") (_o$3771 "hash-set") (_o$3772 "jolt-hash-set") (_o$3773 "conj") (_o$3774 "jolt-conj") (_o$3775 "get") (_o$3776 "jolt-get") (_o$3777 "nth") (_o$3778 "jolt-nth") (_o$3779 "count") (_o$3780 "jolt-count") (_o$3781 "assoc") (_o$3782 "jolt-assoc") (_o$3783 "dissoc") (_o$3784 "jolt-dissoc") (_o$3785 "contains?") (_o$3786 "jolt-contains?") (_o$3787 "empty?") (_o$3788 "jolt-empty?") (_o$3789 "peek") (_o$3790 "jolt-peek") (_o$3791 "pop") (_o$3792 "jolt-pop") (_o$3793 "first") (_o$3794 "jolt-first") (_o$3795 "rest") (_o$3796 "jolt-rest") (_o$3797 "next") (_o$3798 "jolt-next") (_o$3799 "seq") (_o$3800 "jolt-seq") (_o$3801 "cons") (_o$3802 "jolt-cons") (_o$3803 "list") (_o$3804 "jolt-list") (_o$3805 "reverse") (_o$3806 "jolt-reverse") (_o$3807 "last") (_o$3808 "jolt-last") (_o$3809 "map") (_o$3810 "jolt-map") (_o$3811 "filter") (_o$3812 "jolt-filter") (_o$3813 "remove") (_o$3814 "jolt-remove") (_o$3815 "reduce") (_o$3816 "jolt-reduce") (_o$3817 "into") (_o$3818 "jolt-into") (_o$3819 "concat") (_o$3820 "jolt-concat") (_o$3821 "apply") (_o$3822 "jolt-apply") (_o$3823 "range") (_o$3824 "jolt-range") (_o$3825 "take") (_o$3826 "jolt-take") (_o$3827 "drop") (_o$3828 "jolt-drop") (_o$3829 "keys") (_o$3830 "jolt-keys") (_o$3831 "vals") (_o$3832 "jolt-vals") (_o$3833 "even?") (_o$3834 "jolt-even?") 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"jolt.backend-scheme" "cmp1-ops" (let* ((_o$3121 "<") (_o$3122 ">") (_o$3123 "<=") (_o$3124 ">=")) (jolt-hash-set _o$3121 _o$3122 _o$3123 _o$3124)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "jolt.backend-scheme" "core-value-procs" (jolt-invoke (var-deref "clojure.core" "merge") (var-deref "jolt.backend-scheme" "native-ops") (let* ((_o$3847 "+") (_o$3848 "jolt-add") (_o$3849 "-") (_o$3850 "jolt-sub") (_o$3851 "*") (_o$3852 "jolt-mul") (_o$3853 "/") (_o$3854 "jolt-div")) (jolt-hash-map _o$3847 _o$3848 _o$3849 _o$3850 _o$3851 _o$3852 _o$3853 _o$3854))) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "supported-host-methods" (let* ((_o$3125 "isDirectory") (_o$3126 "listFiles")) (jolt-hash-set _o$3125 _o$3126)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "jolt.backend-scheme" "op-arity" (let* ((_o$3896 "inc") (_o$3897 (lambda (p__4_) (let fnrec3855 ((p__4_ p__4_)) (jolt= p__4_ 1)))) (_o$3898 "dec") (_o$3899 (lambda (p__5_) (let fnrec3856 ((p__5_ p__5_)) (jolt= p__5_ 1)))) (_o$3900 "not") (_o$3901 (lambda (p__6_) (let fnrec3857 ((p__6_ p__6_)) (jolt= p__6_ 1)))) (_o$3902 "count") (_o$3903 (lambda (p__7_) (let fnrec3858 ((p__7_ p__7_)) (jolt= p__7_ 1)))) (_o$3904 "empty?") (_o$3905 (lambda (p__8_) (let fnrec3859 ((p__8_ p__8_)) (jolt= p__8_ 1)))) (_o$3906 "peek") (_o$3907 (lambda (p__9_) (let fnrec3860 ((p__9_ p__9_)) (jolt= p__9_ 1)))) (_o$3908 "pop") (_o$3909 (lambda (p__10_) (let fnrec3861 ((p__10_ p__10_)) (jolt= p__10_ 1)))) (_o$3910 "mod") (_o$3911 (lambda (p__11_) (let fnrec3862 ((p__11_ p__11_)) (jolt= p__11_ 2)))) (_o$3912 "rem") (_o$3913 (lambda (p__12_) (let fnrec3863 ((p__12_ p__12_)) (jolt= p__12_ 2)))) (_o$3914 "quot") (_o$3915 (lambda (p__13_) (let fnrec3864 ((p__13_ p__13_)) (jolt= p__13_ 2)))) (_o$3916 "contains?") 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(_o$3945 (lambda (p__28_) (let fnrec3879 ((p__28_ p__28_)) (jolt= p__28_ 1)))) (_o$3946 "odd?") (_o$3947 (lambda (p__29_) (let fnrec3880 ((p__29_ p__29_)) (jolt= p__29_ 1)))) (_o$3948 "pos?") (_o$3949 (lambda (p__30_) (let fnrec3881 ((p__30_ p__30_)) (jolt= p__30_ 1)))) (_o$3950 "neg?") (_o$3951 (lambda (p__31_) (let fnrec3882 ((p__31_ p__31_)) (jolt= p__31_ 1)))) (_o$3952 "zero?") (_o$3953 (lambda (p__32_) (let fnrec3883 ((p__32_ p__32_)) (jolt= p__32_ 1)))) (_o$3954 "identity") (_o$3955 (lambda (p__33_) (let fnrec3884 ((p__33_ p__33_)) (jolt= p__33_ 1)))) (_o$3956 "cons") (_o$3957 (lambda (p__34_) (let fnrec3885 ((p__34_ p__34_)) (jolt= p__34_ 2)))) (_o$3958 "filter") (_o$3959 (lambda (p__35_) (let fnrec3886 ((p__35_ p__35_)) (jolt= p__35_ 2)))) (_o$3960 "remove") (_o$3961 (lambda (p__36_) (let fnrec3887 ((p__36_ p__36_)) (jolt= p__36_ 2)))) (_o$3962 "into") (_o$3963 (lambda (p__37_) (let fnrec3888 ((p__37_ p__37_)) (jolt= p__37_ 2)))) (_o$3964 "take") (_o$3965 (lambda (p__38_) (let fnrec3889 ((p__38_ p__38_)) (jolt= p__38_ 2)))) (_o$3966 "drop") (_o$3967 (lambda (p__39_) (let fnrec3890 ((p__39_ p__39_)) (jolt= p__39_ 2)))) (_o$3968 "map") (_o$3969 (lambda (p__40_) (let fnrec3891 ((p__40_ p__40_)) (>= p__40_ 2)))) (_o$3970 "apply") (_o$3971 (lambda (p__41_) (let fnrec3892 ((p__41_ p__41_)) (>= p__41_ 2)))) (_o$3972 "reduce") (_o$3973 (lambda (p__42_) (let fnrec3893 ((p__42_ p__42_)) (let* ((or__14__auto (jolt= p__42_ 2))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= p__42_ 3)))))) (_o$3974 "range") (_o$3975 (lambda (p__43_) (let fnrec3894 ((p__43_ p__43_)) (let* ((and__13__auto (>= p__43_ 0))) (if (jolt-truthy? and__13__auto) (<= p__43_ 3) and__13__auto))))) (_o$3976 "ex-info") (_o$3977 (lambda (p__44_) (let fnrec3895 ((p__44_ p__44_)) (let* ((or__14__auto (jolt= p__44_ 2))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= p__44_ 3))))))) (jolt-hash-map _o$3896 _o$3897 _o$3898 _o$3899 _o$3900 _o$3901 _o$3902 _o$3903 _o$3904 _o$3905 _o$3906 _o$3907 _o$3908 _o$3909 _o$3910 _o$3911 _o$3912 _o$3913 _o$3914 _o$3915 _o$3916 _o$3917 _o$3918 _o$3919 _o$3920 _o$3921 _o$3922 _o$3923 _o$3924 _o$3925 _o$3926 _o$3927 _o$3928 _o$3929 _o$3930 _o$3931 _o$3932 _o$3933 _o$3934 _o$3935 _o$3936 _o$3937 _o$3938 _o$3939 _o$3940 _o$3941 _o$3942 _o$3943 _o$3944 _o$3945 _o$3946 _o$3947 _o$3948 _o$3949 _o$3950 _o$3951 _o$3952 _o$3953 _o$3954 _o$3955 _o$3956 _o$3957 _o$3958 _o$3959 _o$3960 _o$3961 _o$3962 _o$3963 _o$3964 _o$3965 _o$3966 _o$3967 _o$3968 _o$3969 _o$3970 _o$3971 _o$3972 _o$3973 _o$3974 _o$3975 _o$3976 _o$3977)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "bool-returning-ops" (let* ((_o$3127 "<") (_o$3128 "<=") (_o$3129 ">") (_o$3130 ">=") (_o$3131 "jolt=") (_o$3132 "jolt-not") (_o$3133 "jolt-even?") (_o$3134 "jolt-odd?") (_o$3135 "jolt-pos?") (_o$3136 "jolt-neg?") (_o$3137 "jolt-zero?") (_o$3138 "jolt-empty?") (_o$3139 "jolt-contains?")) (jolt-hash-set _o$3127 _o$3128 _o$3129 _o$3130 _o$3131 _o$3132 _o$3133 _o$3134 _o$3135 _o$3136 _o$3137 _o$3138 _o$3139)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "jolt.backend-scheme" "cmp1-ops" (let* ((_o$3978 "<") (_o$3979 ">") (_o$3980 "<=") (_o$3981 ">=")) (jolt-hash-set _o$3978 _o$3979 _o$3980 _o$3981)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.backend-scheme" "supported-host-methods" (let* ((_o$3982 "isDirectory") (_o$3983 "listFiles")) (jolt-hash-set _o$3982 _o$3983)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.backend-scheme" "bool-returning-ops" (let* ((_o$3984 "<") (_o$3985 "<=") (_o$3986 ">") (_o$3987 ">=") (_o$3988 "jolt=") (_o$3989 "jolt-not") (_o$3990 "jolt-even?") (_o$3991 "jolt-odd?") (_o$3992 "jolt-pos?") (_o$3993 "jolt-neg?") (_o$3994 "jolt-zero?") (_o$3995 "jolt-empty?") (_o$3996 "jolt-contains?")) (jolt-hash-set _o$3984 _o$3985 _o$3986 _o$3987 _o$3988 _o$3989 _o$3990 _o$3991 _o$3992 _o$3993 _o$3994 _o$3995 _o$3996)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) (def-var! "jolt.backend-scheme" "prelude-mode?" (jolt-invoke (var-deref "clojure.core" "atom") #f))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "set-prelude-mode!" (letrec ((set-prelude-mode! (lambda (on) (let fnrec3140 ((on on)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "prelude-mode?") on))))) set-prelude-mode!))) + (def-var! "jolt.backend-scheme" "set-prelude-mode!" (letrec ((set-prelude-mode! (lambda (on) (let fnrec3997 ((on on)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.backend-scheme" "prelude-mode?") on))))) set-prelude-mode!))) (guard (e (#t #f)) (def-var-with-meta! "jolt.backend-scheme" "*recur-target*" jolt-nil (jolt-hash-map (keyword #f "dynamic") #t))) (guard (e (#t #f)) @@ -129,66 +131,310 @@ (guard (e (#t #f)) (def-var-with-meta! "jolt.backend-scheme" "gensym-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "fresh-label" (letrec ((fresh-label (lambda (prefix) (let fnrec3141 ((prefix prefix)) (jolt-invoke (var-deref "clojure.core" "str") prefix (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.backend-scheme" "gensym-counter") jolt-inc)))))) fresh-label))) + (def-var! "jolt.backend-scheme" "fresh-label" (letrec ((fresh-label (lambda (prefix) (let fnrec3998 ((prefix prefix)) (jolt-invoke (var-deref "clojure.core" "str") prefix (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.backend-scheme" "gensym-counter") jolt-inc)))))) fresh-label))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "scheme-reserved" (let* ((_o$3142 "if") (_o$3143 "begin") (_o$3144 "lambda") (_o$3145 "let") (_o$3146 "let*") (_o$3147 "letrec") (_o$3148 "letrec*") (_o$3149 "quote") (_o$3150 "quasiquote") (_o$3151 "unquote") (_o$3152 "set!") (_o$3153 "define") (_o$3154 "define-syntax") (_o$3155 "cond") (_o$3156 "case") (_o$3157 "when") (_o$3158 "unless") (_o$3159 "and") (_o$3160 "or") (_o$3161 "do") (_o$3162 "else") (_o$3163 "guard") (_o$3164 "parameterize") (_o$3165 "delay") (_o$3166 "values")) (jolt-hash-set _o$3142 _o$3143 _o$3144 _o$3145 _o$3146 _o$3147 _o$3148 _o$3149 _o$3150 _o$3151 _o$3152 _o$3153 _o$3154 _o$3155 _o$3156 _o$3157 _o$3158 _o$3159 _o$3160 _o$3161 _o$3162 _o$3163 _o$3164 _o$3165 _o$3166)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "jolt.backend-scheme" "scheme-reserved" (let* ((_o$3999 "if") (_o$4000 "begin") (_o$4001 "lambda") (_o$4002 "let") (_o$4003 "let*") (_o$4004 "letrec") (_o$4005 "letrec*") (_o$4006 "quote") (_o$4007 "quasiquote") (_o$4008 "unquote") (_o$4009 "set!") 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"jolt.backend-scheme" "munge-name" (letrec ((munge-name (lambda (s) (let fnrec4024 ((s s)) (let* ((s (jolt-invoke (var-deref "clojure.string" "replace") (jolt-invoke (var-deref "clojure.string" "replace") s "#" "_") "'" "_PRIME_"))) (if (jolt-contains? (var-deref "jolt.backend-scheme" "scheme-reserved") s) (jolt-invoke (var-deref "clojure.core" "str") "_" s) s)))))) munge-name))) (guard (e (#t #f)) (declare-var! "jolt.backend-scheme" "emit")) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "char-escape" (letrec ((char-escape (lambda (cp) (let fnrec3168 ((cp cp)) (if (jolt= cp 34) "\\\"" (if (jolt= cp 92) "\\\\" (if (jolt= cp 10) "\\n" (if (jolt= cp 9) "\\t" (if (jolt= cp 13) "\\r" (if (jolt-truthy? (let* ((and__13__auto (>= cp 32))) (if (jolt-truthy? and__13__auto) (< cp 127) and__13__auto))) (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "char") cp)) (if (jolt-truthy? 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(jolt-invoke (var-deref "clojure.core" "boolean?") v)) (if (jolt-truthy? v) "#t" "#f") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (if (jolt= v +inf.0) "+inf.0" (if (jolt= v -inf.0) "-inf.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") v v)) "+nan.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "float?") v)) (let* ((s (jolt-invoke (var-deref "clojure.core" "str") v))) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "."))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "e")))) s (jolt-invoke (var-deref "clojure.core" "str") s ".0"))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") v) jolt-nil))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") v) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (let* ((temp__4__auto (jolt-invoke (var-deref "clojure.core" "namespace") v))) (if (jolt-truthy? temp__4__auto) (let* ((kns temp__4__auto)) (let* ((_a$3172 (var-deref "clojure.core" "str")) (_a$3173 "(keyword ") (_a$3174 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") kns)) (_a$3175 " ") (_a$3176 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v))) (_a$3177 ")")) (jolt-invoke _a$3172 _a$3173 _a$3174 _a$3175 _a$3176 _a$3177))) (jolt-invoke (var-deref "clojure.core" "str") "(keyword #f " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v)) ")"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") v)) (jolt-invoke (var-deref "clojure.core" "str") "(integer->char " (jolt-invoke (var-deref "jolt.host" "form-char-code") v) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$3178 (jolt-invoke (var-deref "clojure.core" "str") "emit-const: unsupported literal " (jolt-invoke (var-deref "clojure.core" "pr-str") v))) (_a$3179 (jolt-hash-map))) (jolt-ex-info _a$3178 _a$3179))) jolt-nil))))))))))) emit-const))) + (def-var! "jolt.backend-scheme" "emit-const" (letrec ((emit-const (lambda (v) (let fnrec4028 ((v v)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") v)) "jolt-nil" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "boolean?") v)) (if (jolt-truthy? v) "#t" "#f") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (if (jolt= v +inf.0) "+inf.0" (if (jolt= v -inf.0) "-inf.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") v v)) "+nan.0" (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "float?") v)) (let* ((s (jolt-invoke (var-deref "clojure.core" "str") v))) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "."))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.string" "includes?") s "e")))) s (jolt-invoke (var-deref "clojure.core" "str") s ".0"))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") v) jolt-nil))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") v) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (let* ((temp__4__auto (jolt-invoke (var-deref "clojure.core" "namespace") v))) (if (jolt-truthy? temp__4__auto) (let* ((kns temp__4__auto)) (let* ((_a$4029 (var-deref "clojure.core" "str")) (_a$4030 "(keyword ") (_a$4031 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") kns)) (_a$4032 " ") (_a$4033 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v))) (_a$4034 ")")) (jolt-invoke _a$4029 _a$4030 _a$4031 _a$4032 _a$4033 _a$4034))) (jolt-invoke (var-deref "clojure.core" "str") "(keyword #f " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-invoke (var-deref "clojure.core" "name") v)) ")"))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") v)) (jolt-invoke (var-deref "clojure.core" "str") "(integer->char " (jolt-invoke (var-deref "jolt.host" "form-char-code") v) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$4035 (jolt-invoke (var-deref "clojure.core" "str") "emit-const: unsupported literal " (jolt-invoke (var-deref "clojure.core" "pr-str") v))) (_a$4036 (jolt-hash-map))) (jolt-ex-info _a$4035 _a$4036))) jolt-nil))))))))))) emit-const))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-ordered" (letrec ((emit-ordered (lambda (ctor arg-strs) (let fnrec3180 ((ctor ctor) (arg-strs arg-strs)) (if (< (jolt-count arg-strs) 2) (jolt-invoke (var-deref "clojure.core" "str") "(" ctor (if (jolt-empty? arg-strs) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " arg-strs))) ")") (let* ((tmps (jolt-map (lambda (_) (let fnrec3181 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_o$"))) arg-strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec3182 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps arg-strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") (" ctor " " (jolt-invoke (var-deref "clojure.string" "join") " " tmps) "))"))))))) emit-ordered))) + (def-var! "jolt.backend-scheme" "emit-ordered" (letrec ((emit-ordered (lambda (ctor arg-strs) (let fnrec4037 ((ctor ctor) (arg-strs arg-strs)) (if (< (jolt-count arg-strs) 2) (jolt-invoke (var-deref "clojure.core" "str") "(" ctor (if (jolt-empty? arg-strs) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " arg-strs))) ")") (let* ((tmps (jolt-map (lambda (_) (let fnrec4038 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_o$"))) arg-strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec4039 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps arg-strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") (" ctor " " (jolt-invoke (var-deref "clojure.string" "join") " " tmps) "))"))))))) emit-ordered))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "side-effect-free?" (letrec ((side-effect-free? (lambda (n) (let fnrec3183 ((n n)) (let* ((_a$3189 (let* ((_o$3184 (keyword #f "const")) (_o$3185 (keyword #f "local")) (_o$3186 (keyword #f "var")) (_o$3187 (keyword #f "the-var")) (_o$3188 (keyword #f "quote"))) (jolt-hash-set _o$3184 _o$3185 _o$3186 _o$3187 _o$3188))) (_a$3190 (jolt-get n (keyword #f "op")))) (jolt-contains? _a$3189 _a$3190)))))) side-effect-free?))) + (def-var! "jolt.backend-scheme" "side-effect-free?" (letrec ((side-effect-free? (lambda (n) (let fnrec4040 ((n n)) (let* ((_a$4046 (let* ((_o$4041 (keyword #f "const")) (_o$4042 (keyword #f "local")) (_o$4043 (keyword #f "var")) (_o$4044 (keyword #f "the-var")) (_o$4045 (keyword #f "quote"))) (jolt-hash-set _o$4041 _o$4042 _o$4043 _o$4044 _o$4045))) (_a$4047 (jolt-get n (keyword #f "op")))) (jolt-contains? _a$4046 _a$4047)))))) side-effect-free?))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "needs-order?" (letrec ((needs-order? (lambda (nodes) (let fnrec3191 ((nodes nodes)) (> (jolt-count (jolt-remove (var-deref "jolt.backend-scheme" "side-effect-free?") nodes)) 1))))) needs-order?))) + (def-var! "jolt.backend-scheme" "needs-order?" (letrec ((needs-order? (lambda (nodes) (let fnrec4048 ((nodes nodes)) (> (jolt-count (jolt-remove (var-deref "jolt.backend-scheme" "side-effect-free?") nodes)) 1))))) needs-order?))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "ordered-call" (letrec ((ordered-call (lambda (nodes strs build) (let fnrec3192 ((nodes nodes) (strs strs) (build build)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "needs-order?") nodes)) (let* ((tmps (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (_) (let fnrec3193 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_a$"))) strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec3194 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") " (jolt-invoke build tmps) ")")) (jolt-invoke build strs)))))) ordered-call))) + (def-var! "jolt.backend-scheme" "ordered-call" (letrec ((ordered-call (lambda (nodes strs build) (let fnrec4049 ((nodes nodes) (strs strs) (build build)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "needs-order?") nodes)) (let* ((tmps (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (_) (let fnrec4050 ((_ _)) (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "_a$"))) strs)) (binds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (t a) (let fnrec4051 ((t t) (a a)) (jolt-invoke (var-deref "clojure.core" "str") "(" t " " a ")"))) tmps strs)))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" binds ") " (jolt-invoke build tmps) ")")) (jolt-invoke build strs)))))) ordered-call))) (guard (e (#t #f)) (declare-var! "jolt.backend-scheme" "emit-quoted")) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-quoted-map" (letrec ((emit-quoted-map (lambda (pairs) (let fnrec3195 ((pairs pairs)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (p) (let fnrec3196 ((p p)) (let* ((_o$3197 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 0))) (_o$3198 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 1)))) (jolt-vector _o$3197 _o$3198)))) pairs)) ")"))))) emit-quoted-map))) + (def-var! "jolt.backend-scheme" "emit-quoted-map" (letrec ((emit-quoted-map (lambda (pairs) (let fnrec4052 ((pairs pairs)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (p) (let fnrec4053 ((p p)) (let* ((_o$4054 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 0))) (_o$4055 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-nth p 1)))) (jolt-vector _o$4054 _o$4055)))) pairs)) ")"))))) emit-quoted-map))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-quoted-map-value" (letrec ((emit-quoted-map-value (lambda (m) (let fnrec3199 ((m m)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " (let* ((_a$3203 (var-deref "clojure.core" "mapcat")) (_a$3204 (lambda (k) (let fnrec3200 ((k k)) (let* ((_o$3201 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") k)) (_o$3202 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get m k)))) (jolt-vector _o$3201 _o$3202))))) (_a$3205 (jolt-keys m))) (jolt-invoke _a$3203 _a$3204 _a$3205))) ")"))))) emit-quoted-map-value))) + (def-var! "jolt.backend-scheme" "emit-quoted-map-value" (letrec ((emit-quoted-map-value (lambda (m) (let fnrec4056 ((m m)) (let* ((pairs (jolt-invoke (var-deref "clojure.core" "sort") (let* ((_a$4062 (lambda (k) (let fnrec4057 ((k k)) (let* ((_a$4058 (var-deref "clojure.core" "str")) (_a$4059 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") k)) (_a$4060 " ") (_a$4061 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get m k)))) (jolt-invoke _a$4058 _a$4059 _a$4060 _a$4061))))) (_a$4063 (jolt-keys m))) (jolt-map _a$4062 _a$4063))))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-map " (jolt-invoke (var-deref "clojure.string" "join") " " pairs) ")")))))) emit-quoted-map-value))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-quoted" (letrec ((emit-quoted (lambda (form) (let fnrec3206 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") form)) (sns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form)) (nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form))) (if (jolt-truthy? (let* ((and__13__auto m)) (if (jolt-truthy? and__13__auto) (jolt-pos? (jolt-count m)) and__13__auto))) (let* ((_a$3207 (var-deref "clojure.core" "str")) (_a$3208 "(jolt-symbol/meta ") (_a$3209 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$3210 " ") (_a$3211 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$3212 " ") (_a$3213 (jolt-invoke emit-quoted m)) (_a$3214 ")")) (jolt-invoke _a$3207 _a$3208 _a$3209 _a$3210 _a$3211 _a$3212 _a$3213 _a$3214)) (let* ((_a$3215 (var-deref "clojure.core" "str")) (_a$3216 "(jolt-symbol ") (_a$3217 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$3218 " ") (_a$3219 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$3220 ")")) (jolt-invoke _a$3215 _a$3216 _a$3217 _a$3218 _a$3219 _a$3220)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-set-items") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-elements") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map") (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map-value") form) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$3221 (jolt-invoke (var-deref "clojure.core" "str") "emit-quoted: unsupported quoted form " (jolt-invoke (var-deref "clojure.core" "pr-str") form))) (_a$3222 (jolt-hash-map))) (jolt-ex-info _a$3221 _a$3222))) jolt-nil)))))))))))))))) emit-quoted))) + (def-var! "jolt.backend-scheme" "emit-quoted" (letrec ((emit-quoted (lambda (form) (let fnrec4064 ((form form)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-char?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-literal?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") form) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-sym?") form)) (let* ((m (jolt-invoke (var-deref "jolt.host" "form-sym-meta") form)) (sns (jolt-invoke (var-deref "jolt.host" "form-sym-ns") form)) (nm (jolt-invoke (var-deref "jolt.host" "form-sym-name") form))) (if (jolt-truthy? (let* ((and__13__auto m)) (if (jolt-truthy? and__13__auto) (jolt-pos? (jolt-count m)) and__13__auto))) (let* ((_a$4065 (var-deref "clojure.core" "str")) (_a$4066 "(jolt-symbol/meta ") (_a$4067 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$4068 " ") (_a$4069 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$4070 " ") (_a$4071 (jolt-invoke emit-quoted m)) (_a$4072 ")")) (jolt-invoke _a$4065 _a$4066 _a$4067 _a$4068 _a$4069 _a$4070 _a$4071 _a$4072)) (let* ((_a$4073 (var-deref "clojure.core" "str")) (_a$4074 "(jolt-symbol ") (_a$4075 (if (jolt-truthy? sns) (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") sns) "#f")) (_a$4076 " ") (_a$4077 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") nm)) (_a$4078 ")")) (jolt-invoke _a$4073 _a$4074 _a$4075 _a$4076 _a$4077 _a$4078)))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "sort") (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-set-items") form)))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-list?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-elements") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-vec?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted (jolt-invoke (var-deref "jolt.host" "form-vec-items") form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "form-map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map") (jolt-invoke (var-deref "jolt.host" "form-map-pairs") form)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") form)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted-map-value") form) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-vector " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-hash-set " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-invoke (var-deref "clojure.core" "sort") (jolt-map emit-quoted form))) ")") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") form)) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-list " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit-quoted form)) ")") (if (jolt-truthy? (keyword #f "else")) (jolt-throw (let* ((_a$4079 (jolt-invoke (var-deref "clojure.core" "str") "emit-quoted: unsupported quoted form " (jolt-invoke (var-deref "clojure.core" "pr-str") form))) (_a$4080 (jolt-hash-map))) (jolt-ex-info _a$4079 _a$4080))) jolt-nil)))))))))))))))) emit-quoted))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "jmeta-nonempty?" (letrec ((jmeta-nonempty? (lambda (m) (let fnrec3223 ((m m)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") m))) (if (jolt-truthy? and__13__auto) (jolt-pos? (jolt-count m)) and__13__auto)))))) jmeta-nonempty?))) + (def-var! "jolt.backend-scheme" "jmeta-nonempty?" (letrec ((jmeta-nonempty? (lambda (m) (let fnrec4081 ((m m)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") m))) (if (jolt-truthy? and__13__auto) (jolt-pos? (jolt-count m)) and__13__auto)))))) jmeta-nonempty?))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-binding" (letrec ((emit-binding (lambda (b) (let fnrec3224 ((b b)) (let* ((_a$3225 (var-deref "clojure.core" "str")) (_a$3226 "(") (_a$3227 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth b 0))) (_a$3228 " ") (_a$3229 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth b 1))) (_a$3230 ")")) (jolt-invoke _a$3225 _a$3226 _a$3227 _a$3228 _a$3229 _a$3230)))))) emit-binding))) + (def-var! "jolt.backend-scheme" "emit-binding" (letrec ((emit-binding (lambda (b) (let fnrec4082 ((b b)) (let* ((_a$4083 (var-deref "clojure.core" "str")) (_a$4084 "(") (_a$4085 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth b 0))) (_a$4086 " ") (_a$4087 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth b 1))) (_a$4088 ")")) (jolt-invoke _a$4083 _a$4084 _a$4085 _a$4086 _a$4087 _a$4088)))))) emit-binding))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-let" (letrec ((emit-let (lambda (node) (let fnrec3231 ((node node)) (let* ((kw (if (jolt-truthy? (jolt-get node (keyword #f "letrec"))) "letrec*" "let*"))) (let* ((_a$3232 (var-deref "clojure.core" "str")) (_a$3233 "(") (_a$3234 kw) (_a$3235 " (") (_a$3236 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "emit-binding") (jolt-get node (keyword #f "bindings"))))) (_a$3237 ") ") (_a$3238 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$3239 ")")) (jolt-invoke _a$3232 _a$3233 _a$3234 _a$3235 _a$3236 _a$3237 _a$3238 _a$3239))))))) emit-let))) + (def-var! "jolt.backend-scheme" "emit-let" (letrec ((emit-let (lambda (node) (let fnrec4089 ((node node)) (let* ((kw (if (jolt-truthy? (jolt-get node (keyword #f "letrec"))) "letrec*" "let*"))) (let* ((_a$4090 (var-deref "clojure.core" "str")) (_a$4091 "(") (_a$4092 kw) (_a$4093 " (") (_a$4094 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "emit-binding") (jolt-get node (keyword #f "bindings"))))) (_a$4095 ") ") (_a$4096 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$4097 ")")) (jolt-invoke _a$4090 _a$4091 _a$4092 _a$4093 _a$4094 _a$4095 _a$4096 _a$4097))))))) emit-let))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-loop" (letrec ((emit-loop (lambda (node) (let fnrec3240 ((node node)) (let* ((label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "loop")) (pairs (jolt-get node (keyword #f "bindings"))) (names (jolt-map (lambda (p__45_) (let fnrec3241 ((p__45_ p__45_)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth p__45_ 0)))) pairs)) (inits (jolt-map (lambda (p__46_) (let fnrec3242 ((p__46_ p__46_)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth p__46_ 1)))) pairs)) (seq-bs (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n i) (let fnrec3243 ((n n) (i i)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " i ")"))) names inits))) (rebinds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n) (let fnrec3244 ((n n)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " n ")"))) names))) (body (let* ((frame__8__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__8__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" seq-bs ") (let " label " (" rebinds ") " body "))")))))) emit-loop))) + (def-var! "jolt.backend-scheme" "emit-loop" (letrec ((emit-loop (lambda (node) (let fnrec4098 ((node node)) (let* ((label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "loop")) (pairs (jolt-get node (keyword #f "bindings"))) (names (jolt-map (lambda (p__45_) (let fnrec4099 ((p__45_ p__45_)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-nth p__45_ 0)))) pairs)) (inits (jolt-map (lambda (p__46_) (let fnrec4100 ((p__46_ p__46_)) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-nth p__46_ 1)))) pairs)) (seq-bs (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n i) (let fnrec4101 ((n n) (i i)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " i ")"))) names inits))) (rebinds (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (n) (let fnrec4102 ((n n)) (jolt-invoke (var-deref "clojure.core" "str") "(" n " " n ")"))) names))) (body (let* ((frame__8__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__8__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings")))))))) (jolt-invoke (var-deref "clojure.core" "str") "(let* (" seq-bs ") (let " label " (" rebinds ") " body "))")))))) emit-loop))) (guard (e (#t #f)) - (def-var-with-meta! "jolt.backend-scheme" "ffi-types" (let* ((_o$3245 "int") (_o$3246 "int") (_o$3247 "uint") (_o$3248 "unsigned-int") (_o$3249 "long") (_o$3250 "long") (_o$3251 "ulong") (_o$3252 "unsigned-long") (_o$3253 "int64") (_o$3254 "integer-64") (_o$3255 "uint64") (_o$3256 "unsigned-64") (_o$3257 "size_t") (_o$3258 "size_t") (_o$3259 "ssize_t") (_o$3260 "ssize_t") (_o$3261 "iptr") (_o$3262 "iptr") (_o$3263 "uptr") (_o$3264 "uptr") (_o$3265 "double") (_o$3266 "double") (_o$3267 "float") (_o$3268 "float") (_o$3269 "pointer") (_o$3270 "void*") (_o$3271 "void*") (_o$3272 "void*") (_o$3273 "string") (_o$3274 "string") (_o$3275 "void") (_o$3276 "void") (_o$3277 "uint8") (_o$3278 "unsigned-8") (_o$3279 "u8") (_o$3280 "unsigned-8") (_o$3281 "byte") (_o$3282 "unsigned-8") (_o$3283 "char") (_o$3284 "char")) (jolt-hash-map _o$3245 _o$3246 _o$3247 _o$3248 _o$3249 _o$3250 _o$3251 _o$3252 _o$3253 _o$3254 _o$3255 _o$3256 _o$3257 _o$3258 _o$3259 _o$3260 _o$3261 _o$3262 _o$3263 _o$3264 _o$3265 _o$3266 _o$3267 _o$3268 _o$3269 _o$3270 _o$3271 _o$3272 _o$3273 _o$3274 _o$3275 _o$3276 _o$3277 _o$3278 _o$3279 _o$3280 _o$3281 _o$3282 _o$3283 _o$3284)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "jolt.backend-scheme" "ffi-types" (let* ((_o$4103 "int") (_o$4104 "int") (_o$4105 "uint") (_o$4106 "unsigned-int") (_o$4107 "long") (_o$4108 "long") (_o$4109 "ulong") (_o$4110 "unsigned-long") (_o$4111 "int64") (_o$4112 "integer-64") (_o$4113 "uint64") (_o$4114 "unsigned-64") (_o$4115 "size_t") (_o$4116 "size_t") (_o$4117 "ssize_t") (_o$4118 "ssize_t") (_o$4119 "iptr") (_o$4120 "iptr") (_o$4121 "uptr") (_o$4122 "uptr") (_o$4123 "double") (_o$4124 "double") (_o$4125 "float") (_o$4126 "float") (_o$4127 "pointer") (_o$4128 "void*") (_o$4129 "void*") (_o$4130 "void*") (_o$4131 "string") (_o$4132 "string") (_o$4133 "void") (_o$4134 "void") (_o$4135 "uint8") (_o$4136 "unsigned-8") (_o$4137 "u8") (_o$4138 "unsigned-8") (_o$4139 "byte") (_o$4140 "unsigned-8") (_o$4141 "char") (_o$4142 "char")) (jolt-hash-map _o$4103 _o$4104 _o$4105 _o$4106 _o$4107 _o$4108 _o$4109 _o$4110 _o$4111 _o$4112 _o$4113 _o$4114 _o$4115 _o$4116 _o$4117 _o$4118 _o$4119 _o$4120 _o$4121 _o$4122 _o$4123 _o$4124 _o$4125 _o$4126 _o$4127 _o$4128 _o$4129 _o$4130 _o$4131 _o$4132 _o$4133 _o$4134 _o$4135 _o$4136 _o$4137 _o$4138 _o$4139 _o$4140 _o$4141 _o$4142)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "ffi-type->chez" (letrec ((ffi-type->chez (lambda (t) (let fnrec3285 ((t t)) (let* ((or__14__auto (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-types") t))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-throw (let* ((_a$3286 (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi: unknown foreign type :" t)) (_a$3287 (jolt-hash-map))) (jolt-ex-info _a$3286 _a$3287))))))))) ffi-type->chez))) + (def-var! "jolt.backend-scheme" "ffi-type->chez" (letrec ((ffi-type->chez (lambda (t) (let fnrec4143 ((t t)) (let* ((or__14__auto (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-types") t))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-throw (let* ((_a$4144 (jolt-invoke (var-deref "clojure.core" "str") "jolt.ffi: unknown foreign type :" t)) (_a$4145 (jolt-hash-map))) (jolt-ex-info _a$4144 _a$4145))))))))) ffi-type->chez))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-ffi-fn" (letrec ((emit-ffi-fn (lambda (node) (let fnrec3288 ((node node)) (let* ((_a$3289 (var-deref "clojure.core" "str")) (_a$3290 "(foreign-procedure ") (_a$3291 (if (jolt-truthy? (jolt-get node (keyword #f "blocking"))) "__collect_safe " jolt-nil)) (_a$3292 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "csym")))) (_a$3293 " (") (_a$3294 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "argtypes"))))) (_a$3295 ") ") (_a$3296 (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "rettype")))) (_a$3297 ")")) (jolt-invoke _a$3289 _a$3290 _a$3291 _a$3292 _a$3293 _a$3294 _a$3295 _a$3296 _a$3297)))))) emit-ffi-fn))) + (def-var! "jolt.backend-scheme" "emit-ffi-fn" (letrec ((emit-ffi-fn (lambda (node) (let fnrec4146 ((node node)) (let* ((_a$4147 (var-deref "clojure.core" "str")) (_a$4148 "(foreign-procedure ") (_a$4149 (if (jolt-truthy? (jolt-get node (keyword #f "blocking"))) "__collect_safe " jolt-nil)) (_a$4150 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "csym")))) (_a$4151 " (") (_a$4152 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "argtypes"))))) (_a$4153 ") ") (_a$4154 (jolt-invoke (var-deref "jolt.backend-scheme" "ffi-type->chez") (jolt-get node (keyword #f "rettype")))) (_a$4155 ")")) (jolt-invoke _a$4147 _a$4148 _a$4149 _a$4150 _a$4151 _a$4152 _a$4153 _a$4154 _a$4155)))))) emit-ffi-fn))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-recur" (letrec ((emit-recur (lambda (node) (let fnrec3298 ((node node)) (begin (if (jolt-not (var-deref "jolt.backend-scheme" "*recur-target*")) (jolt-throw (jolt-ex-info "emit: recur outside a loop/fn target" (jolt-hash-map))) jolt-nil) (let* ((arg-nodes (jolt-get node (keyword #f "args")))) (let* ((_a$3300 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$3301 arg-nodes) (_a$3302 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (_a$3303 (lambda (as) (let fnrec3299 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" (var-deref "jolt.backend-scheme" "*recur-target*") " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")"))))) (jolt-invoke _a$3300 _a$3301 _a$3302 _a$3303)))))))) emit-recur))) + (def-var! "jolt.backend-scheme" "emit-recur" (letrec ((emit-recur (lambda (node) (let fnrec4156 ((node node)) (begin (if (jolt-not (var-deref "jolt.backend-scheme" "*recur-target*")) (jolt-throw (jolt-ex-info "emit: recur outside a loop/fn target" (jolt-hash-map))) jolt-nil) (let* ((arg-nodes (jolt-get node (keyword #f "args")))) (let* ((_a$4158 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$4159 arg-nodes) (_a$4160 (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (_a$4161 (lambda (as) (let fnrec4157 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" (var-deref "jolt.backend-scheme" "*recur-target*") " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")"))))) (jolt-invoke _a$4158 _a$4159 _a$4160 _a$4161)))))))) emit-recur))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-arity-clause" (letrec ((emit-arity-clause (lambda (a) (let fnrec3304 ((a a)) (let* ((params (jolt-map (var-deref "jolt.backend-scheme" "munge-name") (jolt-get a (keyword #f "params")))) (restp (let* ((temp__15__auto (jolt-get a (keyword #f "rest")))) (if (jolt-truthy? temp__15__auto) (let* ((r temp__15__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") r)) jolt-nil))) (label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "fnrec")) (body (let* ((frame__8__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__8__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get a (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (paramlist (if (jolt-truthy? (let* ((and__13__auto restp)) (if (jolt-truthy? and__13__auto) (jolt-empty? params) and__13__auto))) restp (if (jolt-truthy? restp) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) " . " restp ")") (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) ")") jolt-nil)))) (binds (if (jolt-truthy? restp) (let* ((_a$3306 (jolt-map (lambda (p) (let fnrec3305 ((p p)) (jolt-invoke (var-deref "clojure.core" "str") "(" p " " p ")"))) params)) (_a$3307 (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "(" restp " (list->cseq " restp "))")))) (jolt-concat _a$3306 _a$3307)) (jolt-map (lambda (p) (let fnrec3308 ((p p)) (jolt-invoke (var-deref "clojure.core" "str") "(" p " " p ")"))) params)))) (let* ((_o$3309 paramlist) (_o$3310 (jolt-invoke (var-deref "clojure.core" "str") "(let " label " (" (jolt-invoke (var-deref "clojure.string" "join") " " binds) ") " body ")"))) (jolt-vector _o$3309 _o$3310))))))) emit-arity-clause))) + (def-var! "jolt.backend-scheme" "emit-arity-clause" (letrec ((emit-arity-clause (lambda (a) (let fnrec4162 ((a a)) (let* ((params (jolt-map (var-deref "jolt.backend-scheme" "munge-name") (jolt-get a (keyword #f "params")))) (restp (let* ((temp__15__auto (jolt-get a (keyword #f "rest")))) (if (jolt-truthy? temp__15__auto) (let* ((r temp__15__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") r)) jolt-nil))) (label (jolt-invoke (var-deref "jolt.backend-scheme" "fresh-label") "fnrec")) (body (let* ((frame__8__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*recur-target*") label))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__8__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get a (keyword #f "body")))) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (paramlist (if (jolt-truthy? (let* ((and__13__auto restp)) (if (jolt-truthy? and__13__auto) (jolt-empty? params) and__13__auto))) restp (if (jolt-truthy? restp) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) " . " restp ")") (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") "(" (jolt-invoke (var-deref "clojure.string" "join") " " params) ")") jolt-nil)))) (binds (if (jolt-truthy? restp) (let* ((_a$4164 (jolt-map (lambda (p) (let fnrec4163 ((p p)) (jolt-invoke (var-deref "clojure.core" "str") "(" p " " p ")"))) params)) (_a$4165 (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "(" restp " (list->cseq " restp "))")))) (jolt-concat _a$4164 _a$4165)) (jolt-map (lambda (p) (let fnrec4166 ((p p)) (jolt-invoke (var-deref "clojure.core" "str") "(" p " " p ")"))) params)))) (let* ((_o$4167 paramlist) (_o$4168 (jolt-invoke (var-deref "clojure.core" "str") "(let " label " (" (jolt-invoke (var-deref "clojure.string" "join") " " binds) ") " body ")"))) (jolt-vector _o$4167 _o$4168))))))) emit-arity-clause))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-fn" (letrec ((emit-fn (lambda (node) (let fnrec3311 ((node node)) (let* ((arities (jolt-get node (keyword #f "arities"))) (self (let* ((temp__15__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__15__auto) (let* ((nm temp__15__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm)) jolt-nil))) (clauses (let* ((frame__8__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*known-procs*") (if (jolt-truthy? self) (jolt-conj (var-deref "jolt.backend-scheme" "*known-procs*") self) (var-deref "jolt.backend-scheme" "*known-procs*"))))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__8__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit-arity-clause") arities)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (_lambda (if (jolt= 1 (jolt-count clauses)) (let* ((c (jolt-first clauses))) (let* ((_a$3312 (var-deref "clojure.core" "str")) (_a$3313 "(lambda ") (_a$3314 (jolt-nth c 0)) (_a$3315 " ") (_a$3316 (jolt-nth c 1)) (_a$3317 ")")) (jolt-invoke _a$3312 _a$3313 _a$3314 _a$3315 _a$3316 _a$3317))) (jolt-invoke (var-deref "clojure.core" "str") "(case-lambda " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (c) (let fnrec3318 ((c c)) (let* ((_a$3319 (var-deref "clojure.core" "str")) (_a$3320 "(") (_a$3321 (jolt-nth c 0)) (_a$3322 " ") (_a$3323 (jolt-nth c 1)) (_a$3324 ")")) (jolt-invoke _a$3319 _a$3320 _a$3321 _a$3322 _a$3323 _a$3324)))) clauses)) ")")))) (let* ((temp__4__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__4__auto) (let* ((nm temp__4__auto)) (let* ((m (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm))) (jolt-invoke (var-deref "clojure.core" "str") "(letrec ((" m " " _lambda ")) " m ")"))) _lambda))))))) emit-fn))) + (def-var! "jolt.backend-scheme" "emit-fn" (letrec ((emit-fn (lambda (node) (let fnrec4169 ((node node)) (let* ((arities (jolt-get node (keyword #f "arities"))) (self (let* ((temp__15__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__15__auto) (let* ((nm temp__15__auto)) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm)) jolt-nil))) (clauses (let* ((frame__8__auto (jolt-invoke (var-deref "clojure.core" "array-map") (jolt-var "jolt.backend-scheme" "*known-procs*") (if (jolt-truthy? self) (jolt-conj (var-deref "jolt.backend-scheme" "*known-procs*") self) (var-deref "jolt.backend-scheme" "*known-procs*"))))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") frame__8__auto) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit-arity-clause") arities)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))) (_lambda (if (jolt= 1 (jolt-count clauses)) (let* ((c (jolt-first clauses))) (let* ((_a$4170 (var-deref "clojure.core" "str")) (_a$4171 "(lambda ") (_a$4172 (jolt-nth c 0)) (_a$4173 " ") (_a$4174 (jolt-nth c 1)) (_a$4175 ")")) (jolt-invoke _a$4170 _a$4171 _a$4172 _a$4173 _a$4174 _a$4175))) (jolt-invoke (var-deref "clojure.core" "str") "(case-lambda " (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map (lambda (c) (let fnrec4176 ((c c)) (let* ((_a$4177 (var-deref "clojure.core" "str")) (_a$4178 "(") (_a$4179 (jolt-nth c 0)) (_a$4180 " ") (_a$4181 (jolt-nth c 1)) (_a$4182 ")")) (jolt-invoke _a$4177 _a$4178 _a$4179 _a$4180 _a$4181 _a$4182)))) clauses)) ")")))) (let* ((temp__4__auto (jolt-get node (keyword #f "name")))) (if (jolt-truthy? temp__4__auto) (let* ((nm temp__4__auto)) (let* ((m (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") nm))) (jolt-invoke (var-deref "clojure.core" "str") "(letrec ((" m " " _lambda ")) " m ")"))) _lambda))))))) emit-fn))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "native-op" (letrec ((native-op (lambda (fnode nargs) (let fnrec3325 ((fnode fnode) (nargs nargs)) (let* ((nm (let* ((G__33 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__33 (keyword #f "var")) (if (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) (jolt-get fnode (keyword #f "name")) jolt-nil) (if (jolt= G__33 (keyword #f "host")) (jolt-get fnode (keyword #f "name")) jolt-nil)))) (op (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "native-ops") nm) jolt-nil)) (arity-ok (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "op-arity") nm) jolt-nil))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") op)) jolt-nil (if (jolt-truthy? (let* ((and__13__auto arity-ok)) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke arity-ok nargs)) and__13__auto))) jolt-nil (if (jolt-truthy? (keyword #f "else")) op jolt-nil)))))))) native-op))) + (def-var! "jolt.backend-scheme" "native-op" (letrec ((native-op (lambda (fnode nargs) (let fnrec4183 ((fnode fnode) (nargs nargs)) (let* ((nm (let* ((G__34 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__34 (keyword #f "var")) (if (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) (jolt-get fnode (keyword #f "name")) jolt-nil) (if (jolt= G__34 (keyword #f "host")) (jolt-get fnode (keyword #f "name")) jolt-nil)))) (op (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "native-ops") nm) jolt-nil)) (arity-ok (if (jolt-truthy? nm) (jolt-invoke (var-deref "jolt.backend-scheme" "op-arity") nm) jolt-nil))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") op)) jolt-nil (if (jolt-truthy? (let* ((and__13__auto arity-ok)) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke arity-ok nargs)) and__13__auto))) jolt-nil (if (jolt-truthy? (keyword #f "else")) op jolt-nil)))))))) native-op))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "ifn-kind" (letrec ((ifn-kind (lambda (fnode) (let fnrec3326 ((fnode fnode)) (let* ((G__34 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__34 (keyword #f "const")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val")))) (keyword #f "keyword") jolt-nil) (if (jolt-truthy? (let* ((or__14__auto (jolt= G__34 (keyword #f "map")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= G__34 (keyword #f "set")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= G__34 (keyword #f "vector"))))))) (keyword #f "coll") jolt-nil))))))) ifn-kind))) + (def-var! "jolt.backend-scheme" "ifn-kind" (letrec ((ifn-kind (lambda (fnode) (let fnrec4184 ((fnode fnode)) (let* ((G__35 (jolt-get fnode (keyword #f "op")))) (if (jolt= G__35 (keyword #f "const")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val")))) (keyword #f "keyword") jolt-nil) (if (jolt-truthy? (let* ((or__14__auto (jolt= G__35 (keyword #f "map")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= G__35 (keyword #f "set")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= G__35 (keyword #f "vector"))))))) (keyword #f "coll") jolt-nil))))))) ifn-kind))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "stdlib-var?" (letrec ((stdlib-var? (lambda (n) (let fnrec3327 ((n n)) (let* ((and__13__auto (jolt= (keyword #f "var") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.string" "starts-with?") (let* ((or__14__auto (jolt-get n (keyword #f "ns")))) (if (jolt-truthy? or__14__auto) or__14__auto "")) "clojure.") and__13__auto)))))) stdlib-var?))) + (def-var! "jolt.backend-scheme" "stdlib-var?" (letrec ((stdlib-var? (lambda (n) (let fnrec4185 ((n n)) (let* ((and__13__auto (jolt= (keyword #f "var") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.string" "starts-with?") (let* ((or__14__auto (jolt-get n (keyword #f "ns")))) (if (jolt-truthy? or__14__auto) or__14__auto "")) "clojure.") and__13__auto)))))) stdlib-var?))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-invoke" (letrec ((emit-invoke (lambda (node) (let fnrec3328 ((node node)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (arg-nodes (jolt-get node (keyword #f "args"))) (args (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (nop (jolt-invoke (var-deref "jolt.backend-scheme" "native-op") fnode (jolt-count args))) (kind (jolt-invoke (var-deref "jolt.backend-scheme" "ifn-kind") fnode)) (order-args (lambda (build) (let fnrec3329 ((build build)) (jolt-invoke (var-deref "jolt.backend-scheme" "ordered-call") arg-nodes args build)))) (defstr (lambda (as) (let fnrec3330 ((as as)) (if (> (jolt-count as) 1) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-nth as 1)) "")))) (invoke (lambda () (let fnrec3331 () (let* ((_a$3333 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$3334 (jolt-cons fnode arg-nodes)) (_a$3335 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$3336 (lambda (G__35) (let fnrec3332 ((G__35 G__35)) (let* ((G__36 G__35) (f (jolt-nth G__36 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__36 1))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-invoke " f (if (jolt-truthy? (jolt-seq as)) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)) "") ")")))))) (jolt-invoke _a$3333 _a$3334 _a$3335 _a$3336)))))) (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-empty? args))) (if (jolt-truthy? and__13__auto) (jolt= nop "+") and__13__auto)) and__13__auto))) "0" (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-empty? args))) (if (jolt-truthy? and__13__auto) (jolt= nop "*") and__13__auto)) and__13__auto))) "1" (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "cmp1-ops") nop) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "clojure.core" "str") "(begin " (jolt-first args) " #t)") (if (jolt-truthy? nop) (jolt-invoke order-args (lambda (as) (let fnrec3337 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" nop " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))) (if (jolt= kind (keyword #f "keyword")) (jolt-invoke order-args (lambda (as) (let fnrec3338 ((as as)) (let* ((_a$3339 (var-deref "clojure.core" "str")) (_a$3340 "(jolt-get ") (_a$3341 (jolt-first as)) (_a$3342 " ") (_a$3343 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode)) (_a$3344 (jolt-invoke defstr as)) (_a$3345 ")")) (jolt-invoke _a$3339 _a$3340 _a$3341 _a$3342 _a$3343 _a$3344 _a$3345))))) (if (jolt= kind (keyword #f "coll")) (let* ((_a$3347 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$3348 (jolt-cons fnode arg-nodes)) (_a$3349 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$3350 (lambda (G__37) (let fnrec3346 ((G__37 G__37)) (let* ((G__38 G__37) (c (jolt-nth G__38 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__38 1))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-get " c " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))))) (jolt-invoke _a$3347 _a$3348 _a$3349 _a$3350)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") fnode))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__13__auto))) (jolt-throw (let* ((_a$3357 (let* ((_a$3351 (var-deref "clojure.core" "str")) (_a$3352 "emit: unsupported stdlib fn `") (_a$3353 (jolt-get fnode (keyword #f "ns"))) (_a$3354 "/") (_a$3355 (jolt-get fnode (keyword #f "name"))) (_a$3356 "` (no core on Chez yet)")) (jolt-invoke _a$3351 _a$3352 _a$3353 _a$3354 _a$3355 _a$3356))) (_a$3358 (jolt-hash-map))) (jolt-ex-info _a$3357 _a$3358))) (if (jolt= (keyword #f "host-static") (jolt-get fnode (keyword #f "op"))) (jolt-invoke order-args (lambda (as) (let fnrec3359 ((as as)) (let* ((_a$3360 (var-deref "clojure.core" "str")) (_a$3361 "(host-static-call ") (_a$3362 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "class")))) (_a$3363 " ") (_a$3364 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "member")))) (_a$3365 (if (jolt-empty? as) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)))) (_a$3366 ")")) (jolt-invoke _a$3360 _a$3361 _a$3362 _a$3363 _a$3364 _a$3365 _a$3366))))) (if (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))) (jolt-throw (let* ((_a$3367 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host call `" (jolt-get fnode (keyword #f "name")) "`")) (_a$3368 (jolt-hash-map))) (jolt-ex-info _a$3367 _a$3368))) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "local") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "*known-procs*") (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get fnode (keyword #f "name"))))) and__13__auto))) (jolt-invoke invoke) (if (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))) (jolt-invoke invoke) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke invoke) jolt-nil))))))))))))))))) emit-invoke))) + (def-var! "jolt.backend-scheme" "emit-invoke" (letrec ((emit-invoke (lambda (node) (let fnrec4186 ((node node)) (let* ((fnode (jolt-get node (keyword #f "fn"))) (arg-nodes (jolt-get node (keyword #f "args"))) (args (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "jolt.backend-scheme" "emit") arg-nodes)) (nop (jolt-invoke (var-deref "jolt.backend-scheme" "native-op") fnode (jolt-count args))) (kind (jolt-invoke (var-deref "jolt.backend-scheme" "ifn-kind") fnode)) (order-args (lambda (build) (let fnrec4187 ((build build)) (jolt-invoke (var-deref "jolt.backend-scheme" "ordered-call") arg-nodes args build)))) (defstr (lambda (as) (let fnrec4188 ((as as)) (if (> (jolt-count as) 1) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-nth as 1)) "")))) (invoke (lambda () (let fnrec4189 () (let* ((_a$4191 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$4192 (jolt-cons fnode arg-nodes)) (_a$4193 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$4194 (lambda (G__36) (let fnrec4190 ((G__36 G__36)) (let* ((G__37 G__36) (f (jolt-nth G__37 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__37 1))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-invoke " f (if (jolt-truthy? (jolt-seq as)) (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)) "") ")")))))) (jolt-invoke _a$4191 _a$4192 _a$4193 _a$4194)))))) (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-empty? args))) (if (jolt-truthy? and__13__auto) (jolt= nop "+") and__13__auto)) and__13__auto))) "0" (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-empty? args))) (if (jolt-truthy? and__13__auto) (jolt= nop "*") and__13__auto)) and__13__auto))) "1" (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "cmp1-ops") nop) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "clojure.core" "str") "(begin " (jolt-first args) " #t)") (if (jolt-truthy? nop) (jolt-invoke order-args (lambda (as) (let fnrec4195 ((as as)) (jolt-invoke (var-deref "clojure.core" "str") "(" nop " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))) (if (jolt= kind (keyword #f "keyword")) (jolt-invoke order-args (lambda (as) (let fnrec4196 ((as as)) (let* ((_a$4197 (var-deref "clojure.core" "str")) (_a$4198 "(jolt-get ") (_a$4199 (jolt-first as)) (_a$4200 " ") (_a$4201 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode)) (_a$4202 (jolt-invoke defstr as)) (_a$4203 ")")) (jolt-invoke _a$4197 _a$4198 _a$4199 _a$4200 _a$4201 _a$4202 _a$4203))))) (if (jolt= kind (keyword #f "coll")) (let* ((_a$4205 (var-deref "jolt.backend-scheme" "ordered-call")) (_a$4206 (jolt-cons fnode arg-nodes)) (_a$4207 (jolt-cons (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fnode) args)) (_a$4208 (lambda (G__38) (let fnrec4204 ((G__38 G__38)) (let* ((G__39 G__38) (c (jolt-nth G__39 0 jolt-nil)) (as (jolt-invoke (var-deref "clojure.core" "nthnext") G__39 1))) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-get " c " " (jolt-invoke (var-deref "clojure.string" "join") " " as) ")")))))) (jolt-invoke _a$4205 _a$4206 _a$4207 _a$4208)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") fnode))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__13__auto))) (jolt-throw (let* ((_a$4215 (let* ((_a$4209 (var-deref "clojure.core" "str")) (_a$4210 "emit: unsupported stdlib fn `") (_a$4211 (jolt-get fnode (keyword #f "ns"))) (_a$4212 "/") (_a$4213 (jolt-get fnode (keyword #f "name"))) (_a$4214 "` (no core on Chez yet)")) (jolt-invoke _a$4209 _a$4210 _a$4211 _a$4212 _a$4213 _a$4214))) (_a$4216 (jolt-hash-map))) (jolt-ex-info _a$4215 _a$4216))) (if (jolt= (keyword #f "host-static") (jolt-get fnode (keyword #f "op"))) (jolt-invoke order-args (lambda (as) (let fnrec4217 ((as as)) (let* ((_a$4218 (var-deref "clojure.core" "str")) (_a$4219 "(host-static-call ") (_a$4220 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "class")))) (_a$4221 " ") (_a$4222 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get fnode (keyword #f "member")))) (_a$4223 (if (jolt-empty? as) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " as)))) (_a$4224 ")")) (jolt-invoke _a$4218 _a$4219 _a$4220 _a$4221 _a$4222 _a$4223 _a$4224))))) (if (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))) (jolt-throw (let* ((_a$4225 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host call `" (jolt-get fnode (keyword #f "name")) "`")) (_a$4226 (jolt-hash-map))) (jolt-ex-info _a$4225 _a$4226))) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "local") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "jolt.backend-scheme" "*known-procs*") (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get fnode (keyword #f "name"))))) and__13__auto))) (jolt-invoke invoke) (if (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))) (jolt-invoke invoke) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke invoke) jolt-nil))))))))))))))))) emit-invoke))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit-try" (letrec ((emit-try (lambda (node) (let fnrec3369 ((node node)) (let* ((core (let* ((temp__4__auto (jolt-get node (keyword #f "catch-sym")))) (if (jolt-truthy? temp__4__auto) (let* ((cs temp__4__auto)) (let* ((_a$3370 (var-deref "clojure.core" "str")) (_a$3371 "(guard (") (_a$3372 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") cs)) (_a$3373 " (else ") (_a$3374 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "catch-body")))) (_a$3375 ")) ") (_a$3376 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$3377 ")")) (jolt-invoke _a$3370 _a$3371 _a$3372 _a$3373 _a$3374 _a$3375 _a$3376 _a$3377))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body"))))))) (let* ((temp__4__auto (jolt-get node (keyword #f "finally")))) (if (jolt-truthy? temp__4__auto) (let* ((fin temp__4__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(dynamic-wind (lambda () #f) (lambda () " core ") (lambda () " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fin) "))")) core))))))) emit-try))) + (def-var! "jolt.backend-scheme" "emit-try" (letrec ((emit-try (lambda (node) (let fnrec4227 ((node node)) (let* ((core (let* ((temp__4__auto (jolt-get node (keyword #f "catch-sym")))) (if (jolt-truthy? temp__4__auto) (let* ((cs temp__4__auto)) (let* ((_a$4228 (var-deref "clojure.core" "str")) (_a$4229 "(guard (") (_a$4230 (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") cs)) (_a$4231 " (else ") (_a$4232 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "catch-body")))) (_a$4233 ")) ") (_a$4234 (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body")))) (_a$4235 ")")) (jolt-invoke _a$4228 _a$4229 _a$4230 _a$4231 _a$4232 _a$4233 _a$4234 _a$4235))) (jolt-invoke (var-deref "jolt.backend-scheme" "emit") (jolt-get node (keyword #f "body"))))))) (let* ((temp__4__auto (jolt-get node (keyword #f "finally")))) (if (jolt-truthy? temp__4__auto) (let* ((fin temp__4__auto)) (jolt-invoke (var-deref "clojure.core" "str") "(dynamic-wind (lambda () #f) (lambda () " core ") (lambda () " (jolt-invoke (var-deref "jolt.backend-scheme" "emit") fin) "))")) core))))))) emit-try))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "returns-scheme-bool?" (letrec ((returns-scheme-bool? (lambda (node) (let fnrec3378 ((node node)) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "boolean?") (jolt-get node (keyword #f "val"))) and__13__auto))) #t (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((nop (let* ((_a$3379 (var-deref "jolt.backend-scheme" "native-op")) (_a$3380 (jolt-get node (keyword #f "fn"))) (_a$3381 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt-invoke _a$3379 _a$3380 _a$3381)))) (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "bool-returning-ops") nop) and__13__auto))) #t #f)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))) returns-scheme-bool?))) + (def-var! "jolt.backend-scheme" "returns-scheme-bool?" (letrec ((returns-scheme-bool? (lambda (node) (let fnrec4236 ((node node)) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get node (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "boolean?") (jolt-get node (keyword #f "val"))) and__13__auto))) #t (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((nop (let* ((_a$4237 (var-deref "jolt.backend-scheme" "native-op")) (_a$4238 (jolt-get node (keyword #f "fn"))) (_a$4239 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt-invoke _a$4237 _a$4238 _a$4239)))) (if (jolt-truthy? (let* ((and__13__auto nop)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "bool-returning-ops") nop) and__13__auto))) #t #f)) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))) returns-scheme-bool?))) (guard (e (#t #f)) - (def-var! "jolt.backend-scheme" "emit" (letrec ((emit (lambda (node) (let fnrec3382 ((node node)) (let* ((G__39 (jolt-get node (keyword #f "op")))) (if (jolt= G__39 (keyword #f "const")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") (jolt-get node (keyword #f "val"))) (if (jolt= G__39 (keyword #f "local")) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get node (keyword #f "name"))) (if (jolt= G__39 (keyword #f "var")) (let* ((core-proc (let* ((and__13__auto (jolt= "clojure.core" (jolt-get node (keyword #f "ns"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "core-value-procs") (jolt-get node (keyword #f "name"))) and__13__auto)))) (if (jolt-truthy? core-proc) core-proc (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") node))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__13__auto))) (jolt-throw (let* ((_a$3389 (let* ((_a$3383 (var-deref "clojure.core" "str")) (_a$3384 "emit: unsupported stdlib ref `") (_a$3385 (jolt-get node (keyword #f "ns"))) (_a$3386 "/") (_a$3387 (jolt-get node (keyword #f "name"))) (_a$3388 "` (no core on Chez yet)")) (jolt-invoke _a$3383 _a$3384 _a$3385 _a$3386 _a$3387 _a$3388))) (_a$3390 (jolt-hash-map))) (jolt-ex-info _a$3389 _a$3390))) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$3391 (var-deref "clojure.core" "str")) (_a$3392 "(var-deref ") (_a$3393 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3394 " ") (_a$3395 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3396 ")")) (jolt-invoke _a$3391 _a$3392 _a$3393 _a$3394 _a$3395 _a$3396)) jolt-nil)))) (if (jolt= G__39 (keyword #f "the-var")) (let* ((_a$3397 (var-deref "clojure.core" "str")) (_a$3398 "(jolt-var ") (_a$3399 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3400 " ") (_a$3401 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3402 ")")) (jolt-invoke _a$3397 _a$3398 _a$3399 _a$3400 _a$3401 _a$3402)) (if (jolt= G__39 (keyword #f "set-var")) (let* ((_a$3403 (var-deref "clojure.core" "str")) (_a$3404 "(jolt-var-set ") (_a$3405 (jolt-invoke emit (jolt-get node (keyword #f "the-var")))) (_a$3406 " ") (_a$3407 (jolt-invoke emit (jolt-get node (keyword #f "val")))) (_a$3408 ")")) (jolt-invoke _a$3403 _a$3404 _a$3405 _a$3406 _a$3407 _a$3408)) (if (jolt= G__39 (keyword #f "set-field")) (let* ((_a$3409 (var-deref "clojure.core" "str")) (_a$3410 "(jolt-set-field! ") (_a$3411 (jolt-invoke emit (jolt-get node (keyword #f "obj")))) (_a$3412 " (keyword #f ") (_a$3413 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "field")))) (_a$3414 ") ") (_a$3415 (jolt-invoke emit (jolt-get node (keyword #f "val")))) (_a$3416 ")")) (jolt-invoke _a$3409 _a$3410 _a$3411 _a$3412 _a$3413 _a$3414 _a$3415 _a$3416)) (if (jolt= G__39 (keyword #f "defmacro")) (let* ((_a$3417 (var-deref "clojure.core" "str")) (_a$3418 "(begin (def-var! ") (_a$3419 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3420 " ") (_a$3421 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3422 " ") (_a$3423 (jolt-invoke emit (jolt-get node (keyword #f "fn")))) (_a$3424 ") (mark-macro! ") (_a$3425 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3426 " ") (_a$3427 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3428 ") jolt-nil)")) (jolt-invoke _a$3417 _a$3418 _a$3419 _a$3420 _a$3421 _a$3422 _a$3423 _a$3424 _a$3425 _a$3426 _a$3427 _a$3428)) (if (jolt= G__39 (keyword #f "host")) (jolt-throw (let* ((_a$3429 (jolt-invoke (var-deref "clojure.core" "str") "emit: unsupported host ref `" (jolt-get node (keyword #f "name")) "`")) (_a$3430 (jolt-hash-map))) (jolt-ex-info _a$3429 _a$3430))) (if (jolt= G__39 (keyword #f "host-static")) (let* ((_a$3431 (var-deref "clojure.core" "str")) (_a$3432 "(host-static-ref ") (_a$3433 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "class")))) (_a$3434 " ") (_a$3435 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "member")))) (_a$3436 ")")) (jolt-invoke _a$3431 _a$3432 _a$3433 _a$3434 _a$3435 _a$3436)) (if (jolt= G__39 (keyword #f "host-new")) (let* ((_a$3437 (var-deref "clojure.core" "str")) (_a$3438 "(host-new ") (_a$3439 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "class")))) (_a$3440 (let* ((args (jolt-map emit (jolt-get node (keyword #f "args"))))) (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args))))) (_a$3441 ")")) (jolt-invoke _a$3437 _a$3438 _a$3439 _a$3440 _a$3441)) (if (jolt= G__39 (keyword #f "if")) (let* ((test (jolt-get node (keyword #f "test"))) (t (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "returns-scheme-bool?") test)) (jolt-invoke emit test) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-truthy? " (jolt-invoke emit test) ")")))) (let* ((_a$3442 (var-deref "clojure.core" "str")) (_a$3443 "(if ") (_a$3444 t) (_a$3445 " ") (_a$3446 (jolt-invoke emit (jolt-get node (keyword #f "then")))) (_a$3447 " ") (_a$3448 (jolt-invoke emit (jolt-get node (keyword #f "else")))) (_a$3449 ")")) (jolt-invoke _a$3442 _a$3443 _a$3444 _a$3445 _a$3446 _a$3447 _a$3448 _a$3449))) (if (jolt= G__39 (keyword #f "do")) (let* ((_a$3450 (var-deref "clojure.core" "str")) (_a$3451 "(begin ") (_a$3452 (jolt-invoke (var-deref "clojure.string" "join") " " (jolt-map emit (jolt-get node (keyword #f "statements"))))) (_a$3453 (if (jolt-empty? (jolt-get node (keyword #f "statements"))) "" " ")) (_a$3454 (jolt-invoke emit (jolt-get node (keyword #f "ret")))) (_a$3455 ")")) (jolt-invoke _a$3450 _a$3451 _a$3452 _a$3453 _a$3454 _a$3455)) (if (jolt= G__39 (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-invoke") node) (if (jolt= G__39 (keyword #f "vector")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ordered") "jolt-vector" (jolt-map emit (jolt-get node (keyword #f "items")))) (if (jolt= G__39 (keyword #f "set")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ordered") "jolt-hash-set" (jolt-map emit (jolt-get node (keyword #f "items")))) (if (jolt= G__39 (keyword #f "map")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ordered") "jolt-hash-map" (let* ((_a$3459 (var-deref "clojure.core" "mapcat")) (_a$3460 (lambda (p) (let fnrec3456 ((p p)) (let* ((_o$3457 (jolt-invoke emit (jolt-nth p 0))) (_o$3458 (jolt-invoke emit (jolt-nth p 1)))) (jolt-vector _o$3457 _o$3458))))) (_a$3461 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$3459 _a$3460 _a$3461))) (if (jolt= G__39 (keyword #f "quote")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get node (keyword #f "form"))) (if (jolt= G__39 (keyword #f "throw")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-throw " (jolt-invoke emit (jolt-get node (keyword #f "expr"))) ")") (if (jolt= G__39 (keyword #f "try")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-try") node) (if (jolt= G__39 (keyword #f "regex")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-regex " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__39 (keyword #f "inst")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-inst-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__39 (keyword #f "uuid")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-uuid-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__39 (keyword #f "bigdec")) (jolt-invoke (var-deref "clojure.core" "str") "(jolt-bigdec-from-string " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "source"))) ")") (if (jolt= G__39 (keyword #f "the-ns")) (jolt-invoke (var-deref "clojure.core" "str") "(intern-ns! " (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name"))) ")") (if (jolt= G__39 (keyword #f "host-call")) (let* ((m (jolt-get node (keyword #f "method"))) (target (jolt-invoke emit (jolt-get node (keyword #f "target")))) (args (jolt-map emit (jolt-get node (keyword #f "args"))))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "supported-host-methods") m)) (let* ((_a$3462 (var-deref "clojure.core" "str")) (_a$3463 "(jolt-host-call ") (_a$3464 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") m)) (_a$3465 " ") (_a$3466 target) (_a$3467 (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args)))) (_a$3468 ")")) (jolt-invoke _a$3462 _a$3463 _a$3464 _a$3465 _a$3466 _a$3467 _a$3468)) (let* ((_a$3469 (var-deref "clojure.core" "str")) (_a$3470 "(record-method-dispatch ") (_a$3471 target) (_a$3472 " ") (_a$3473 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") m)) (_a$3474 " (jolt-vector") (_a$3475 (if (jolt-empty? args) "" (jolt-invoke (var-deref "clojure.core" "str") " " (jolt-invoke (var-deref "clojure.string" "join") " " args)))) (_a$3476 "))")) (jolt-invoke _a$3469 _a$3470 _a$3471 _a$3472 _a$3473 _a$3474 _a$3475 _a$3476)))) (if (jolt= G__39 (keyword #f "let")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-let") node) (if (jolt= G__39 (keyword #f "loop")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-loop") node) (if (jolt= G__39 (keyword #f "recur")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-recur") node) (if (jolt= G__39 (keyword #f "ffi-fn")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-ffi-fn") node) (if (jolt= G__39 (keyword #f "fn")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-fn") node) (if (jolt= G__39 (keyword #f "def")) (if (jolt-truthy? (jolt-get node (keyword #f "no-init"))) (let* ((_a$3477 (var-deref "clojure.core" "str")) (_a$3478 "(declare-var! ") (_a$3479 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3480 " ") (_a$3481 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3482 ")")) (jolt-invoke _a$3477 _a$3478 _a$3479 _a$3480 _a$3481 _a$3482)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.backend-scheme" "jmeta-nonempty?") (jolt-get node (keyword #f "meta")))) (let* ((_a$3483 (var-deref "clojure.core" "str")) (_a$3484 "(def-var-with-meta! ") (_a$3485 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3486 " ") (_a$3487 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3488 " ") (_a$3489 (jolt-invoke emit (jolt-get node (keyword #f "init")))) (_a$3490 " ") (_a$3491 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get node (keyword #f "meta")))) (_a$3492 ")")) (jolt-invoke _a$3483 _a$3484 _a$3485 _a$3486 _a$3487 _a$3488 _a$3489 _a$3490 _a$3491 _a$3492)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$3493 (var-deref "clojure.core" "str")) (_a$3494 "(def-var! ") (_a$3495 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$3496 " ") (_a$3497 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$3498 " ") (_a$3499 (jolt-invoke emit (jolt-get node (keyword #f "init")))) (_a$3500 ")")) (jolt-invoke _a$3493 _a$3494 _a$3495 _a$3496 _a$3497 _a$3498 _a$3499 _a$3500)) jolt-nil))) (jolt-throw (let* ((_a$3501 (jolt-invoke (var-deref "clojure.core" "str") "emit: op not yet ported / unhandled: " (jolt-invoke (var-deref "clojure.core" "pr-str") (jolt-get node (keyword #f "op"))))) (_a$3502 (jolt-hash-map))) (jolt-ex-info _a$3501 _a$3502))))))))))))))))))))))))))))))))))))))) emit))) \ No newline at end of file + (def-var! "jolt.backend-scheme" "emit" (letrec ((emit (lambda (node) (let fnrec4240 ((node node)) (let* ((G__40 (jolt-get node (keyword #f "op")))) (if (jolt= G__40 (keyword #f "const")) (jolt-invoke (var-deref "jolt.backend-scheme" "emit-const") (jolt-get node (keyword #f "val"))) (if (jolt= G__40 (keyword #f "local")) (jolt-invoke (var-deref "jolt.backend-scheme" "munge-name") (jolt-get node (keyword #f "name"))) (if (jolt= G__40 (keyword #f "var")) (let* ((core-proc (let* ((and__13__auto (jolt= "clojure.core" (jolt-get node (keyword #f "ns"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.backend-scheme" "core-value-procs") (jolt-get node (keyword #f "name"))) and__13__auto)))) (if (jolt-truthy? core-proc) core-proc (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.backend-scheme" "stdlib-var?") node))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.backend-scheme" "prelude-mode?"))) and__13__auto))) (jolt-throw (let* ((_a$4247 (let* ((_a$4241 (var-deref "clojure.core" "str")) (_a$4242 "emit: unsupported stdlib ref `") (_a$4243 (jolt-get node (keyword #f "ns"))) (_a$4244 "/") (_a$4245 (jolt-get node (keyword #f "name"))) (_a$4246 "` (no core on Chez yet)")) (jolt-invoke _a$4241 _a$4242 _a$4243 _a$4244 _a$4245 _a$4246))) (_a$4248 (jolt-hash-map))) (jolt-ex-info _a$4247 _a$4248))) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$4249 (var-deref "clojure.core" "str")) (_a$4250 "(var-deref ") (_a$4251 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$4252 " ") (_a$4253 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$4254 ")")) (jolt-invoke _a$4249 _a$4250 _a$4251 _a$4252 _a$4253 _a$4254)) jolt-nil)))) (if (jolt= G__40 (keyword #f "the-var")) (let* ((_a$4255 (var-deref "clojure.core" "str")) (_a$4256 "(jolt-var ") (_a$4257 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$4258 " ") (_a$4259 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$4260 ")")) (jolt-invoke _a$4255 _a$4256 _a$4257 _a$4258 _a$4259 _a$4260)) (if (jolt= G__40 (keyword #f "set-var")) (let* ((_a$4261 (var-deref "clojure.core" "str")) (_a$4262 "(jolt-var-set ") (_a$4263 (jolt-invoke emit (jolt-get node (keyword #f "the-var")))) (_a$4264 " ") (_a$4265 (jolt-invoke emit (jolt-get node (keyword #f "val")))) (_a$4266 ")")) (jolt-invoke _a$4261 _a$4262 _a$4263 _a$4264 _a$4265 _a$4266)) (if (jolt= G__40 (keyword #f "set-field")) (let* ((_a$4267 (var-deref "clojure.core" "str")) (_a$4268 "(jolt-set-field! ") (_a$4269 (jolt-invoke emit (jolt-get node (keyword #f "obj")))) (_a$4270 " (keyword #f ") (_a$4271 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "field")))) (_a$4272 ") ") (_a$4273 (jolt-invoke emit (jolt-get node (keyword #f "val")))) (_a$4274 ")")) (jolt-invoke _a$4267 _a$4268 _a$4269 _a$4270 _a$4271 _a$4272 _a$4273 _a$4274)) (if (jolt= G__40 (keyword #f "defmacro")) (let* ((_a$4275 (var-deref "clojure.core" "str")) (_a$4276 "(begin (def-var! ") (_a$4277 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$4278 " ") (_a$4279 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$4280 " ") (_a$4281 (jolt-invoke emit (jolt-get node (keyword #f "fn")))) (_a$4282 ") (mark-macro! 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") (_a$4343 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$4344 " ") (_a$4345 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$4346 " ") (_a$4347 (jolt-invoke emit (jolt-get node (keyword #f "init")))) (_a$4348 " ") (_a$4349 (jolt-invoke (var-deref "jolt.backend-scheme" "emit-quoted") (jolt-get node (keyword #f "meta")))) (_a$4350 ")")) (jolt-invoke _a$4341 _a$4342 _a$4343 _a$4344 _a$4345 _a$4346 _a$4347 _a$4348 _a$4349 _a$4350)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$4351 (var-deref "clojure.core" "str")) (_a$4352 "(def-var! ") (_a$4353 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "ns")))) (_a$4354 " ") (_a$4355 (jolt-invoke (var-deref "jolt.backend-scheme" "chez-str-lit") (jolt-get node (keyword #f "name")))) (_a$4356 " ") (_a$4357 (jolt-invoke emit (jolt-get node (keyword #f "init")))) (_a$4358 ")")) (jolt-invoke _a$4351 _a$4352 _a$4353 _a$4354 _a$4355 _a$4356 _a$4357 _a$4358)) jolt-nil))) (jolt-throw (let* ((_a$4359 (jolt-invoke (var-deref "clojure.core" "str") "emit: op not yet ported / unhandled: " (jolt-invoke (var-deref "clojure.core" "pr-str") (jolt-get node (keyword #f "op"))))) (_a$4360 (jolt-hash-map))) (jolt-ex-info _a$4359 _a$4360))))))))))))))))))))))))))))))))))))))) emit))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.fold" "foldable" (let* ((_o$4361 "+") (_o$4362 jolt-add) (_o$4363 "-") (_o$4364 jolt-sub) (_o$4365 "*") (_o$4366 jolt-mul) (_o$4367 "/") (_o$4368 jolt-div) (_o$4369 "<") (_o$4370 <) (_o$4371 ">") (_o$4372 >) (_o$4373 "<=") (_o$4374 <=) (_o$4375 ">=") (_o$4376 >=) (_o$4377 "=") (_o$4378 jolt=) (_o$4379 "inc") (_o$4380 jolt-inc) (_o$4381 "dec") (_o$4382 jolt-dec) (_o$4383 "mod") (_o$4384 modulo) (_o$4385 "rem") (_o$4386 remainder) (_o$4387 "quot") (_o$4388 quotient) (_o$4389 "bit-and") (_o$4390 (var-deref "clojure.core" "__bit-and")) (_o$4391 "bit-or") (_o$4392 (var-deref "clojure.core" "__bit-or")) (_o$4393 "bit-xor") (_o$4394 (var-deref "clojure.core" "__bit-xor"))) (jolt-hash-map _o$4361 _o$4362 _o$4363 _o$4364 _o$4365 _o$4366 _o$4367 _o$4368 _o$4369 _o$4370 _o$4371 _o$4372 _o$4373 _o$4374 _o$4375 _o$4376 _o$4377 _o$4378 _o$4379 _o$4380 _o$4381 _o$4382 _o$4383 _o$4384 _o$4385 _o$4386 _o$4387 _o$4388 _o$4389 _o$4390 _o$4391 _o$4392 _o$4393 _o$4394)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.fold" "const?" (letrec ((const? (lambda (n) (let fnrec4395 ((n n)) (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))))) const?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.fold" "const-num?" (letrec ((const-num? (lambda (n) (let fnrec4396 ((n n)) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.fold" "const?") n))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "number?") (jolt-get n (keyword #f "val"))) and__13__auto)))))) const-num?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.fold" "fold-fn" (letrec ((fold-fn (lambda (fnode) (let fnrec4397 ((fnode fnode)) (let* ((op (jolt-get fnode (keyword #f "op")))) (if (jolt-truthy? (let* ((or__14__auto (let* ((and__13__auto (jolt= op (keyword #f "var")))) (if (jolt-truthy? and__13__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__13__auto)))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= op (keyword #f "host"))))) (jolt-get (var-deref "jolt.passes.fold" "foldable") (jolt-get fnode (keyword #f "name"))) jolt-nil)))))) fold-fn))) +(guard (e (#t #f)) + (def-var! "jolt.passes.fold" "const-fold" (letrec ((const-fold (lambda (node) (let fnrec4398 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (let* ((n (jolt-invoke (var-deref "jolt.ir" "map-ir-children") const-fold node)) (ff (jolt-invoke (var-deref "jolt.passes.fold" "fold-fn") (jolt-get n (keyword #f "fn")))) (args (jolt-get n (keyword #f "args"))) (folded (if (jolt-truthy? (let* ((and__13__auto ff)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-pos? (jolt-count args)))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.fold" "const-num?") args) and__13__auto)) and__13__auto))) (guard (e (else jolt-nil)) (let* ((_o$4400 (keyword #f "op")) (_o$4401 (keyword #f "const")) (_o$4402 (keyword #f "val")) (_o$4403 (jolt-apply ff (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec4399 ((a a)) (jolt-get a (keyword #f "val")))) args)))) (jolt-hash-map _o$4400 _o$4401 _o$4402 _o$4403))) jolt-nil))) (let* ((or__14__auto folded)) (if (jolt-truthy? or__14__auto) or__14__auto n))) (if (jolt= op (keyword #f "if")) (let* ((t (jolt-invoke const-fold (jolt-get node (keyword #f "test"))))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.fold" "const?") t)) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-get t (keyword #f "val"))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= #f (jolt-get t (keyword #f "val")))))) (jolt-invoke const-fold (jolt-get node (keyword #f "else"))) (jolt-invoke const-fold (jolt-get node (keyword #f "then")))) (let* ((_a$4404 node) (_a$4405 (keyword #f "test")) (_a$4406 t) (_a$4407 (keyword #f "then")) (_a$4408 (jolt-invoke const-fold (jolt-get node (keyword #f "then")))) (_a$4409 (keyword #f "else")) (_a$4410 (jolt-invoke const-fold (jolt-get node (keyword #f "else"))))) (jolt-assoc _a$4404 _a$4405 _a$4406 _a$4407 _a$4408 _a$4409 _a$4410)))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") const-fold node) jolt-nil)))))))) const-fold))) +(guard (e (#t #f)) + (def-var! "jolt.passes.fold" "scalar-const?" (letrec ((scalar-const? (lambda (n) (let fnrec4411 ((n n)) (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get n (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((v (jolt-get n (keyword #f "val")))) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "keyword?") v))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "string?") v))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "number?") v))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "boolean?") v)))))))) and__13__auto)))))) scalar-const?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "dirty" (jolt-invoke (var-deref "clojure.core" "atom") #f))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "mark!" (letrec ((mark! (lambda () (let fnrec3443 () (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "dirty") #t))))) mark!))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.inline" "rec-shapes" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "set-rec-shapes!" (letrec ((set-rec-shapes! (lambda (m) (let fnrec3444 ((m m)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "rec-shapes") (let* ((or__14__auto m)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))))))) set-rec-shapes!))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.inline" "fresh-counter" (jolt-invoke (var-deref "clojure.core" "atom") 0) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "fresh" (letrec ((fresh (lambda (base) (let fnrec3445 ((base base)) (let* ((n (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "fresh-counter")))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.inline" "fresh-counter") jolt-inc) (jolt-invoke (var-deref "clojure.core" "str") base "__il" n))))))) fresh))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "safe-op?" (letrec ((safe-op? (lambda (op) (let fnrec3446 ((op op)) (let* ((or__14__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "local")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "var")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "host")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "the-var")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "quote")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "if")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "do")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "let")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "invoke")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "map")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "vector")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= op (keyword #f "set")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= op (keyword #f "throw")))))))))))))))))))))))))))))))) safe-op?))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.inline" "inline-budget" 120 (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "body-size" (letrec ((body-size (lambda (node) (let fnrec3447 ((node node)) (if (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") (jolt-get node (keyword #f "op")))) 100000 (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (acc c) (let fnrec3448 ((acc acc) (c c)) (+ acc (jolt-invoke body-size c)))) 1 node)))))) body-size))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "subst" (letrec ((subst (lambda (node env) (let fnrec3449 ((node node) (env env)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "local")) (let* ((r (jolt-get env (jolt-get node (keyword #f "name"))))) (if (jolt-truthy? r) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "local") (jolt-get r (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-get node (keyword #f "hint")))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-get r (keyword #f "hint"))) and__13__auto)) and__13__auto))) (jolt-assoc r (keyword #f "hint") (jolt-get node (keyword #f "hint"))) r) node)) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$3461 (lambda (acc b) (let fnrec3450 ((acc acc) (b b)) (let* ((e (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (nm (jolt-nth b 0)) (init (jolt-invoke subst (jolt-nth b 1) e)) (f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") nm))) (let* ((_o$3457 (jolt-assoc e nm (let* ((_o$3451 (keyword #f "op")) (_o$3452 (keyword #f "local")) (_o$3453 (keyword #f "name")) (_o$3454 f)) (jolt-hash-map _o$3451 _o$3452 _o$3453 _o$3454)))) (_o$3458 (jolt-conj binds (let* ((_o$3455 f) (_o$3456 init)) (jolt-vector _o$3455 _o$3456))))) (jolt-vector _o$3457 _o$3458)))))) (_a$3462 (let* ((_o$3459 env) (_o$3460 (jolt-vector))) (jolt-vector _o$3459 _o$3460))) (_a$3463 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$3461 _a$3462 _a$3463)))) (let* ((_a$3467 node) (_a$3468 (keyword #f "bindings")) (_a$3469 (jolt-nth res 1)) (_a$3470 (keyword #f "body")) (_a$3471 (let* ((_a$3464 subst) (_a$3465 (jolt-get node (keyword #f "body"))) (_a$3466 (jolt-nth res 0))) (jolt-invoke _a$3464 _a$3465 _a$3466)))) (jolt-assoc _a$3467 _a$3468 _a$3469 _a$3470 _a$3471))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec3472 ((c c)) (jolt-invoke subst c env))) node) jolt-nil)))))))) subst))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "trivial-arg?" (letrec ((trivial-arg? (lambda (n) (let fnrec3473 ((n n)) (let* ((op (jolt-get n (keyword #f "op")))) (let* ((or__14__auto (jolt= op (keyword #f "local")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= op (keyword #f "const"))))))))) trivial-arg?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "body-closed?" (letrec ((body-closed? (lambda (node scope) (let fnrec3474 ((node node) (scope scope)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "local")) (jolt-contains? scope (jolt-get node (keyword #f "name"))) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$3480 (lambda (acc b) (let fnrec3475 ((acc acc) (b b)) (let* ((sc (jolt-nth acc 0)) (ok (jolt-nth acc 1))) (if (jolt-not ok) acc (let* ((_o$3476 (jolt-conj sc (jolt-nth b 0))) (_o$3477 (jolt-invoke body-closed? (jolt-nth b 1) sc))) (jolt-vector _o$3476 _o$3477))))))) (_a$3481 (let* ((_o$3478 scope) (_o$3479 #t)) (jolt-vector _o$3478 _o$3479))) (_a$3482 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$3480 _a$3481 _a$3482)))) (let* ((and__13__auto (jolt-nth res 1))) (if (jolt-truthy? and__13__auto) (let* ((_a$3483 body-closed?) (_a$3484 (jolt-get node (keyword #f "body"))) (_a$3485 (jolt-nth res 0))) (jolt-invoke _a$3483 _a$3484 _a$3485)) and__13__auto))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") op)) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (ok c) (let fnrec3486 ((ok ok) (c c)) (let* ((and__13__auto ok)) (if (jolt-truthy? and__13__auto) (jolt-invoke body-closed? c scope) and__13__auto)))) #t node) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))) body-closed?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "try-inline" (letrec ((try-inline (lambda (node ctx) (let fnrec3487 ((node node) (ctx ctx)) (let* ((f (jolt-get node (keyword #f "fn")))) (if (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))) (let* ((stash (let* ((_a$3488 (var-deref "jolt.host" "inline-ir")) (_a$3489 ctx) (_a$3490 (jolt-get f (keyword #f "ns"))) (_a$3491 (jolt-get f (keyword #f "name")))) (jolt-invoke _a$3488 _a$3489 _a$3490 _a$3491)))) (if (jolt-truthy? stash) (let* ((params (jolt-get stash (keyword #f "params"))) (body (jolt-get stash (keyword #f "body"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__13__auto (let* ((_a$3492 (jolt-count params)) (_a$3493 (jolt-count args))) (jolt= _a$3492 _a$3493)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (<= (jolt-invoke (var-deref "jolt.passes.inline" "body-size") body) (var-deref "jolt.passes.inline" "inline-budget")))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.inline" "body-closed?") body (jolt-reduce jolt-conj (jolt-hash-set) params)) and__13__auto)) and__13__auto))) (let* ((n (jolt-count params)) (res (let* ((i 0) (env (jolt-hash-map)) (binds (jolt-vector))) (let loop3494 ((i i) (env env) (binds binds)) (if (< i n) (let* ((p (jolt-nth params i)) (a (jolt-nth args i))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "trivial-arg?") a)) (let* ((_a$3495 (jolt-inc i)) (_a$3496 (jolt-assoc env p a)) (_a$3497 binds)) (loop3494 _a$3495 _a$3496 _a$3497)) (let* ((f (jolt-invoke (var-deref "jolt.passes.inline" "fresh") p))) (let* ((_a$3504 (jolt-inc i)) (_a$3505 (jolt-assoc env p (let* ((_o$3498 (keyword #f "op")) (_o$3499 (keyword #f "local")) (_o$3500 (keyword #f "name")) (_o$3501 f)) (jolt-hash-map _o$3498 _o$3499 _o$3500 _o$3501)))) (_a$3506 (jolt-conj binds (let* ((_o$3502 f) (_o$3503 a)) (jolt-vector _o$3502 _o$3503))))) (loop3494 _a$3504 _a$3505 _a$3506))))) (let* ((_o$3507 env) (_o$3508 binds)) (jolt-vector _o$3507 _o$3508)))))) (env (jolt-nth res 0)) (binds (jolt-nth res 1)) (rbody (jolt-invoke (var-deref "jolt.passes.inline" "subst") body env))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (if (jolt= 0 (jolt-count binds)) rbody (let* ((_o$3509 (keyword #f "op")) (_o$3510 (keyword #f "let")) (_o$3511 (keyword #f "bindings")) (_o$3512 binds) (_o$3513 (keyword #f "body")) (_o$3514 rbody)) (jolt-hash-map _o$3509 _o$3510 _o$3511 _o$3512 _o$3513 _o$3514))))) node)) node)) node)))))) try-inline))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "inline-node" (letrec ((inline-node (lambda (node ctx) (let fnrec3515 ((node node) (ctx ctx)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.inline" "try-inline") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec3516 ((c c)) (jolt-invoke inline-node c ctx))) node) ctx) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec3517 ((c c)) (jolt-invoke inline-node c ctx))) node)))))) inline-node))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "flatten-let-bindings" (letrec ((flatten-let-bindings (lambda (binds) (let fnrec3518 ((binds binds)) (let* ((_a$3524 (lambda (out b) (let fnrec3519 ((out out) (b b)) (let* ((nm (jolt-nth b 0)) (init (jolt-nth b 1))) (if (jolt= (keyword #f "let") (jolt-get init (keyword #f "op"))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (let* ((_a$3522 (jolt-reduce jolt-conj out (jolt-get init (keyword #f "bindings")))) (_a$3523 (let* ((_o$3520 nm) (_o$3521 (jolt-get init (keyword #f "body")))) (jolt-vector _o$3520 _o$3521)))) (jolt-conj _a$3522 _a$3523))) (jolt-conj out b)))))) (_a$3525 (jolt-vector)) (_a$3526 binds)) (jolt-reduce _a$3524 _a$3525 _a$3526)))))) flatten-let-bindings))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "flatten-lets" (letrec ((flatten-lets (lambda (node) (let fnrec3527 ((node node)) (if (jolt= (keyword #f "let") (jolt-get node (keyword #f "op"))) (let* ((n (jolt-invoke (var-deref "jolt.ir" "map-ir-children") flatten-lets node))) (jolt-assoc n (keyword #f "bindings") (jolt-invoke (var-deref "jolt.passes.inline" "flatten-let-bindings") (jolt-get n (keyword #f "bindings"))))) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") flatten-lets node)))))) flatten-lets))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.inline" "pure-fns" (let* ((_o$3528 "+") (_o$3529 "-") (_o$3530 "*") (_o$3531 "/") (_o$3532 "<") (_o$3533 ">") (_o$3534 "<=") (_o$3535 ">=") (_o$3536 "=") (_o$3537 "not=") (_o$3538 "inc") (_o$3539 "dec") (_o$3540 "mod") (_o$3541 "rem") (_o$3542 "quot") (_o$3543 "min") (_o$3544 "max") (_o$3545 "abs") (_o$3546 "nil?") (_o$3547 "some?") (_o$3548 "not") (_o$3549 "get") (_o$3550 "zero?") (_o$3551 "pos?") (_o$3552 "neg?") (_o$3553 "even?") (_o$3554 "odd?") (_o$3555 "bit-and") (_o$3556 "bit-or") (_o$3557 "bit-xor")) (jolt-hash-set _o$3528 _o$3529 _o$3530 _o$3531 _o$3532 _o$3533 _o$3534 _o$3535 _o$3536 _o$3537 _o$3538 _o$3539 _o$3540 _o$3541 _o$3542 _o$3543 _o$3544 _o$3545 _o$3546 _o$3547 _o$3548 _o$3549 _o$3550 _o$3551 _o$3552 _o$3553 _o$3554 _o$3555 _o$3556 _o$3557)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "pure-fn?" (letrec ((pure-fn? (lambda (f) (let fnrec3558 ((f f)) (let* ((op (jolt-get f (keyword #f "op")))) (if (jolt-truthy? (let* ((and__13__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get f (keyword #f "val"))) and__13__auto))) #t (if (jolt= op (keyword #f "var")) (let* ((and__13__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__13__auto) (jolt-contains? (var-deref "jolt.passes.inline" "pure-fns") (jolt-get f (keyword #f "name"))) and__13__auto)) (if (jolt= op (keyword #f "host")) (jolt-contains? (var-deref "jolt.passes.inline" "pure-fns") (jolt-get f (keyword #f "name"))) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil))))))))) pure-fn?))) +(guard (e (#t #f)) + (declare-var! "jolt.passes.inline" "ctor-shape")) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "pure?" (letrec ((pure? (lambda (node) (let fnrec3559 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (let* ((and__13__auto (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.inline" "pure-fn?") (jolt-get node (keyword #f "fn"))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") node))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "every?") pure? (jolt-get node (keyword #f "args"))) and__13__auto)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "safe-op?") op)) (jolt-invoke (var-deref "jolt.ir" "reduce-ir-children") (lambda (ok c) (let fnrec3560 ((ok ok) (c c)) (let* ((and__13__auto ok)) (if (jolt-truthy? and__13__auto) (jolt-invoke pure? c) and__13__auto)))) #t node) (if (jolt-truthy? (keyword #f "else")) #f jolt-nil)))))))) pure?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "const-key-map?" (letrec ((const-key-map? (lambda (node) (let fnrec3561 ((node node)) (let* ((prs (jolt-get node (keyword #f "pairs")))) (let* ((and__13__auto (> (jolt-count prs) 0))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (pr) (let fnrec3562 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth pr 0)))) prs) and__13__auto))))))) const-key-map?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "all-vals-pure?" (letrec ((all-vals-pure? (lambda (node) (let fnrec3563 ((node node)) (let* ((_a$3565 (var-deref "clojure.core" "every?")) (_a$3566 (lambda (pr) (let fnrec3564 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.inline" "pure?") (jolt-nth pr 1))))) (_a$3567 (jolt-get node (keyword #f "pairs")))) (jolt-invoke _a$3565 _a$3566 _a$3567)))))) all-vals-pure?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "map-val" (letrec ((map-val (lambda (mapnode k) (let fnrec3568 ((mapnode mapnode) (k k)) (let* ((prs (jolt-get mapnode (keyword #f "pairs"))) (n (jolt-count prs))) (let* ((i 0)) (let loop3569 ((i i)) (if (< i n) (let* ((pr (jolt-nth prs i))) (if (jolt= (jolt-get (jolt-nth pr 0) (keyword #f "val")) k) (jolt-nth pr 1) (loop3569 (jolt-inc i)))) (let* ((_o$3570 (keyword #f "op")) (_o$3571 (keyword #f "const")) (_o$3572 (keyword #f "val")) (_o$3573 jolt-nil)) (jolt-hash-map _o$3570 _o$3571 _o$3572 _o$3573)))))))))) map-val))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "lookup-key" (letrec ((lookup-key (lambda (node nm) (let fnrec3574 ((node node) (nm nm)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get f (keyword #f "val"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= 1 (jolt-count args)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt= nm (jolt-get (jolt-nth args 0) (keyword #f "name"))) and__13__auto)) and__13__auto)) and__13__auto)) and__13__auto))) (jolt-get f (keyword #f "val")) (if (jolt-truthy? (let* ((and__13__auto (let* ((or__14__auto (let* ((and__13__auto (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "clojure.core" (jolt-get f (keyword #f "ns"))))) (if (jolt-truthy? and__13__auto) (jolt= "get" (jolt-get f (keyword #f "name"))) and__13__auto)) and__13__auto)))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((and__13__auto (jolt= (keyword #f "host") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt= "get" (jolt-get f (keyword #f "name"))) and__13__auto)))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= 2 (jolt-count args)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= (keyword #f "local") (jolt-get (jolt-nth args 0) (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= nm (jolt-get (jolt-nth args 0) (keyword #f "name"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth args 1)) and__13__auto)) and__13__auto)) and__13__auto)) and__13__auto))) (jolt-get (jolt-nth args 1) (keyword #f "val")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) jolt-nil))))) lookup-key))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "any-binding-named?" (letrec ((any-binding-named? (lambda (binds nm) (let fnrec3575 ((binds binds) (nm nm)) (let* ((i 0)) (let loop3576 ((i i)) (if (< i (jolt-count binds)) (if (jolt= nm (jolt-nth (jolt-nth binds i) 0)) #t (loop3576 (jolt-inc i))) #f))))))) any-binding-named?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "any-name?" (letrec ((any-name? (lambda (names nm) (let fnrec3577 ((names names) (nm nm)) (let* ((i 0)) (let loop3578 ((i i)) (if (< i (jolt-count names)) (if (jolt= nm (jolt-nth names i)) #t (loop3578 (jolt-inc i))) #f))))))) any-name?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "local-escapes?" (letrec ((local-escapes? (lambda (node nm) (let fnrec3579 ((node node) (nm nm)) (let* ((op (jolt-get node (keyword #f "op"))) (k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (let* ((args (jolt-get node (keyword #f "args")))) (if (> (jolt-count args) 1) (let* ((i 1)) (let loop3580 ((i i)) (if (< i (jolt-count args)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth args i) nm)) #t (loop3580 (jolt-inc i))) #f))) #f)) (if (jolt= op (keyword #f "local")) (jolt= nm (jolt-get node (keyword #f "name"))) (if (jolt= op (keyword #f "const")) #f (if (jolt= op (keyword #f "var")) #f (if (jolt= op (keyword #f "host")) #f (if (jolt= op (keyword #f "the-var")) #f (if (jolt= op (keyword #f "quote")) #f (if (jolt= op (keyword #f "if")) (let* ((or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "test")) nm))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "then")) nm))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "else")) nm))))) (if (jolt= op (keyword #f "do")) (let* ((or__14__auto (let* ((i 0) (ss (jolt-get node (keyword #f "statements")))) (let loop3581 ((i i) (ss ss)) (if (< i (jolt-count ss)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth ss i) nm)) #t (loop3581 (jolt-inc i) ss)) #f))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "ret")) nm))) (if (jolt= op (keyword #f "throw")) (jolt-invoke local-escapes? (jolt-get node (keyword #f "expr")) nm) (if (jolt= op (keyword #f "invoke")) (let* ((or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "fn")) nm))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((i 0) (as (jolt-get node (keyword #f "args")))) (let loop3582 ((i i) (as as)) (if (< i (jolt-count as)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth as i) nm)) #t (loop3582 (jolt-inc i) as)) #f))))) (if (jolt= op (keyword #f "vector")) (let* ((i 0) (xs (jolt-get node (keyword #f "items")))) (let loop3583 ((i i) (xs xs)) (if (< i (jolt-count xs)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth xs i) nm)) #t (loop3583 (jolt-inc i) xs)) #f))) (if (jolt= op (keyword #f "set")) (let* ((i 0) (xs (jolt-get node (keyword #f "items")))) (let loop3584 ((i i) (xs xs)) (if (< i (jolt-count xs)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth xs i) nm)) #t (loop3584 (jolt-inc i) xs)) #f))) (if (jolt= op (keyword #f "map")) (let* ((i 0) (ps (jolt-get node (keyword #f "pairs")))) (let loop3585 ((i i) (ps ps)) (if (< i (jolt-count ps)) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke local-escapes? (jolt-nth (jolt-nth ps i) 0) nm))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke local-escapes? (jolt-nth (jolt-nth ps i) 1) nm)))) #t (loop3585 (jolt-inc i) ps)) #f))) (if (jolt= op (keyword #f "let")) (let* ((binds (jolt-get node (keyword #f "bindings")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") binds nm)) #t (let* ((or__14__auto (let* ((i 0)) (let loop3586 ((i i)) (if (< i (jolt-count binds)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth (jolt-nth binds i) 1) nm)) #t (loop3586 (jolt-inc i))) #f))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "body")) nm))))) (if (jolt= op (keyword #f "recur")) (let* ((i 0) (as (jolt-get node (keyword #f "args")))) (let loop3587 ((i i) (as as)) (if (< i (jolt-count as)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth as i) nm)) #t (loop3587 (jolt-inc i) as)) #f))) (if (jolt= op (keyword #f "loop")) (let* ((binds (jolt-get node (keyword #f "bindings")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") binds nm)) #t (let* ((or__14__auto (let* ((i 0)) (let loop3588 ((i i)) (if (< i (jolt-count binds)) (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-nth (jolt-nth binds i) 1) nm)) #t (loop3588 (jolt-inc i))) #f))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "body")) nm))))) (if (jolt= op (keyword #f "fn")) (let* ((i 0) (ars (jolt-get node (keyword #f "arities")))) (let loop3589 ((i i) (ars ars)) (if (< i (jolt-count ars)) (let* ((ar (jolt-nth ars i)) (ps (jolt-get ar (keyword #f "params")))) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.inline" "any-name?") ps nm))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= nm (jolt-get ar (keyword #f "rest")))))) #t (if (jolt-truthy? (jolt-invoke local-escapes? (jolt-get ar (keyword #f "body")) nm)) #t (loop3589 (jolt-inc i) ars)))) #f))) (if (jolt= op (keyword #f "try")) (let* ((or__14__auto (jolt-invoke local-escapes? (jolt-get node (keyword #f "body")) nm))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (let* ((cb (jolt-get node (keyword #f "catch-body")))) (let* ((and__13__auto cb)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (jolt= nm (jolt-get node (keyword #f "catch-sym")))))) (if (jolt-truthy? and__13__auto) (jolt-invoke local-escapes? cb nm) and__13__auto)) and__13__auto))))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((f (jolt-get node (keyword #f "finally")))) (let* ((and__13__auto f)) (if (jolt-truthy? and__13__auto) (jolt-invoke local-escapes? f nm) and__13__auto))))))) (if (jolt= op (keyword #f "def")) (jolt-invoke local-escapes? (jolt-get node (keyword #f "init")) nm) (if (jolt-truthy? (keyword #f "else")) #t jolt-nil)))))))))))))))))))))))))) local-escapes?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "ctor-shape" (letrec ((ctor-shape (lambda (node) (let fnrec3590 ((node node)) (if (jolt= (keyword #f "invoke") (jolt-get node (keyword #f "op"))) (let* ((f (jolt-get node (keyword #f "fn")))) (if (jolt= (keyword #f "var") (jolt-get f (keyword #f "op"))) (let* ((rs (let* ((_a$3595 (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "rec-shapes"))) (_a$3596 (let* ((_a$3591 (var-deref "clojure.core" "str")) (_a$3592 (jolt-get f (keyword #f "ns"))) (_a$3593 "/") (_a$3594 (jolt-get f (keyword #f "name")))) (jolt-invoke _a$3591 _a$3592 _a$3593 _a$3594)))) (jolt-get _a$3595 _a$3596)))) (if (jolt-truthy? (let* ((and__13__auto rs)) (if (jolt-truthy? and__13__auto) (let* ((_a$3597 (jolt-count (jolt-get rs (keyword #f "fields")))) (_a$3598 (jolt-count (jolt-get node (keyword #f "args"))))) (jolt= _a$3597 _a$3598)) and__13__auto))) rs jolt-nil)) jolt-nil)) jolt-nil))))) ctor-shape))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "ctor-all-args-pure?" (letrec ((ctor-all-args-pure? (lambda (node) (let fnrec3599 ((node node)) (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.inline" "pure?") (jolt-get node (keyword #f "args"))))))) ctor-all-args-pure?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "field-index" (letrec ((field-index (lambda (fields k) (let fnrec3600 ((fields fields) (k k)) (let* ((n (jolt-count fields))) (let* ((i 0)) (let loop3601 ((i i)) (if (< i n) (if (jolt= (jolt-nth fields i) k) i (loop3601 (jolt-inc i))) jolt-nil)))))))) field-index))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "ctor-val" (letrec ((ctor-val (lambda (ctor rs k) (let fnrec3602 ((ctor ctor) (rs rs) (k k)) (let* ((_a$3603 (jolt-get ctor (keyword #f "args"))) (_a$3604 (jolt-invoke (var-deref "jolt.passes.inline" "field-index") (jolt-get rs (keyword #f "fields")) k))) (jolt-nth _a$3603 _a$3604)))))) ctor-val))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "collect-keys!" (letrec ((collect-keys! (lambda (node nm acc) (let fnrec3605 ((node node) (nm nm) (acc acc)) (let* ((k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (jolt-invoke (var-deref "clojure.core" "swap!") acc jolt-conj k) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec3606 ((c c)) (begin (jolt-invoke collect-keys! c nm acc) c))) node))))))) collect-keys!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "lookups-all-fields?" (letrec ((lookups-all-fields? (lambda (nodes nm fields) (let fnrec3607 ((nodes nodes) (nm nm) (fields fields)) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (node) (let fnrec3608 ((node node)) (let* ((acc (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-set)))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "collect-keys!") node nm acc) (let* ((_a$3610 (var-deref "clojure.core" "every?")) (_a$3611 (lambda (k) (let fnrec3609 ((k k)) (jolt-invoke (var-deref "jolt.passes.inline" "field-index") fields k)))) (_a$3612 (jolt-invoke (var-deref "clojure.core" "deref") acc))) (jolt-invoke _a$3610 _a$3611 _a$3612)))))) nodes))))) lookups-all-fields?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "src-val" (letrec ((src-val (lambda (src k) (let fnrec3613 ((src src) (k k)) (if (jolt= (keyword #f "map") (jolt-get src (keyword #f "op"))) (jolt-invoke (var-deref "jolt.passes.inline" "map-val") src k) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-val") src (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") src) k)))))) src-val))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "subst-lookup" (letrec ((subst-lookup (lambda (node nm src) (let fnrec3614 ((node node) (nm nm) (src src)) (let* ((k (jolt-invoke (var-deref "jolt.passes.inline" "lookup-key") node nm))) (if (jolt-truthy? k) (jolt-invoke (var-deref "jolt.passes.inline" "src-val") src k) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") (lambda (c) (let fnrec3615 ((c c)) (jolt-invoke subst-lookup c nm src))) node))))))) subst-lookup))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "fold-kw-literal" (letrec ((fold-kw-literal (lambda (node) (let fnrec3616 ((node node)) (let* ((f (jolt-get node (keyword #f "fn"))) (args (jolt-get node (keyword #f "args")))) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get f (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get f (keyword #f "val"))))) (if (jolt-truthy? and__13__auto) (jolt= 1 (jolt-count args)) and__13__auto)) and__13__auto))) (let* ((m (jolt-nth args 0)) (k (jolt-get f (keyword #f "val")))) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "map") (jolt-get m (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.inline" "const-key-map?") m))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.inline" "all-vals-pure?") m) and__13__auto)) and__13__auto))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (jolt-invoke (var-deref "jolt.passes.inline" "map-val") m k)) (let* ((rs (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") m))) (if (jolt-truthy? (let* ((and__13__auto rs)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.inline" "ctor-all-args-pure?") m))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.inline" "field-index") (jolt-get rs (keyword #f "fields")) k) and__13__auto)) and__13__auto))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-val") m rs k)) node)))) node)))))) fold-kw-literal))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "elim-let-structs" (letrec ((elim-let-structs (lambda (node) (let fnrec3617 ((node node)) (let* ((binds (jolt-get node (keyword #f "bindings"))) (n (jolt-count binds)) (body (jolt-get node (keyword #f "body")))) (let* ((i 0)) (let loop3618 ((i i)) (if (< i n) (let* ((b (jolt-nth binds i)) (nm (jolt-nth b 0)) (init (jolt-nth b 1)) (ismap (let* ((and__13__auto (jolt= (keyword #f "map") (jolt-get init (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.inline" "const-key-map?") init))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.inline" "all-vals-pure?") init) and__13__auto)) and__13__auto))) (rs (if (jolt-not ismap) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-shape") init) jolt-nil)) (isrec (let* ((and__13__auto rs)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.inline" "ctor-all-args-pure?") init) and__13__auto)))) (if (jolt-truthy? (let* ((and__13__auto (let* ((or__14__auto ismap)) (if (jolt-truthy? or__14__auto) or__14__auto isrec)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "any-binding-named?") (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n) nm)))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (let* ((j (jolt-inc i))) (let loop3619 ((j j)) (if (< j n) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.inline" "local-escapes?") (jolt-nth (jolt-nth binds j) 1) nm)) #t (loop3619 (jolt-inc j))) #f)))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (jolt-invoke (var-deref "jolt.passes.inline" "local-escapes?") body nm)))) (if (jolt-truthy? and__13__auto) (let* ((or__14__auto ismap)) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((_a$3624 (var-deref "jolt.passes.inline" "lookups-all-fields?")) (_a$3625 (jolt-conj (let* ((_a$3621 (var-deref "clojure.core" "mapv")) (_a$3622 (lambda (bb) (let fnrec3620 ((bb bb)) (jolt-nth bb 1)))) (_a$3623 (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n))) (jolt-invoke _a$3621 _a$3622 _a$3623)) body)) (_a$3626 nm) (_a$3627 (jolt-get rs (keyword #f "fields")))) (jolt-invoke _a$3624 _a$3625 _a$3626 _a$3627)))) and__13__auto)) and__13__auto)) and__13__auto)) and__13__auto))) (let* ((head (jolt-invoke (var-deref "clojure.core" "subvec") binds 0 i)) (tail (let* ((_a$3631 (var-deref "clojure.core" "mapv")) (_a$3632 (lambda (bb) (let fnrec3628 ((bb bb)) (let* ((_o$3629 (jolt-nth bb 0)) (_o$3630 (jolt-invoke (var-deref "jolt.passes.inline" "subst-lookup") (jolt-nth bb 1) nm init))) (jolt-vector _o$3629 _o$3630))))) (_a$3633 (jolt-invoke (var-deref "clojure.core" "subvec") binds (jolt-inc i) n))) (jolt-invoke _a$3631 _a$3632 _a$3633))) (newbinds (jolt-reduce jolt-conj head tail)) (newbody (jolt-invoke (var-deref "jolt.passes.inline" "subst-lookup") body nm init))) (begin (jolt-invoke (var-deref "jolt.passes.inline" "mark!")) (if (jolt= 0 (jolt-count newbinds)) newbody (jolt-assoc node (keyword #f "bindings") newbinds (keyword #f "body") newbody)))) (loop3618 (jolt-inc i)))) node)))))))) elim-let-structs))) +(guard (e (#t #f)) + (def-var! "jolt.passes.inline" "scalar-replace" (letrec ((scalar-replace (lambda (node) (let fnrec3634 ((node node)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "invoke")) (jolt-invoke (var-deref "jolt.passes.inline" "fold-kw-literal") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node)) (if (jolt= op (keyword #f "let")) (jolt-invoke (var-deref "jolt.passes.inline" "elim-let-structs") (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.ir" "map-ir-children") scalar-replace node) jolt-nil)))))))) scalar-replace))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "velem" (letrec ((velem (lambda (t) (let fnrec3635 ((t t)) (jolt-get t (keyword #f "vec")))))) velem))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "selem" (letrec ((selem (lambda (t) (let fnrec3636 ((t t)) (jolt-get t (keyword #f "set")))))) selem))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "sfields" (letrec ((sfields (lambda (t) (let fnrec3637 ((t t)) (jolt-get t (keyword #f "struct")))))) sfields))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "vec-type?" (letrec ((vec-type? (lambda (t) (let fnrec3638 ((t t)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") t)))))) vec-type?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "set-type?" (letrec ((set-type? (lambda (t) (let fnrec3639 ((t t)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") t)))))) set-type?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "struct-type?" (letrec ((struct-type? (lambda (t) (let fnrec3640 ((t t)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t)))))) struct-type?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "mk-vec" (letrec ((mk-vec (lambda (t) (let fnrec3641 ((t t)) (let* ((_o$3642 (keyword #f "vec")) (_o$3643 (if (jolt-truthy? t) t (keyword #f "any")))) (jolt-hash-map _o$3642 _o$3643)))))) mk-vec))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "mk-set" (letrec ((mk-set (lambda (t) (let fnrec3644 ((t t)) (let* ((_o$3645 (keyword #f "set")) (_o$3646 (if (jolt-truthy? t) t (keyword #f "any")))) (jolt-hash-map _o$3645 _o$3646)))))) mk-set))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "mk-struct" (letrec ((mk-struct (lambda (fs) (let fnrec3647 ((fs fs)) (let* ((_o$3648 (keyword #f "struct")) (_o$3649 fs)) (jolt-hash-map _o$3648 _o$3649)))))) mk-struct))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "union-cap" 4)) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "scalar-t?" (letrec ((scalar-t? (lambda (t) (let fnrec3650 ((t t)) (let* ((or__14__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "truthy")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= t (keyword #f "phm")))))))))))))) scalar-t?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "union-type?" (letrec ((union-type? (lambda (t) (let fnrec3651 ((t t)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-get t (keyword #f "union"))))))) union-type?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "umembers" (letrec ((umembers (lambda (t) (let fnrec3652 ((t t)) (jolt-get t (keyword #f "union")))))) umembers))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "union-of" (letrec ((union-of (lambda (ts) (let fnrec3653 ((ts ts)) (let* ((flat (let* ((_a$3655 (lambda (acc t) (let fnrec3654 ((acc acc) (t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-reduce jolt-conj acc (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t)) (jolt-conj acc t))))) (_a$3656 (jolt-hash-set)) (_a$3657 ts)) (jolt-reduce _a$3655 _a$3656 _a$3657)))) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") (var-deref "jolt.passes.types.lattice" "scalar-t?") flat)) (keyword #f "any") (if (jolt= 0 (jolt-count flat)) (keyword #f "any") (if (jolt= 1 (jolt-count flat)) (jolt-first flat) (if (> (jolt-count flat) (var-deref "jolt.passes.types.lattice" "union-cap")) (keyword #f "any") (if (jolt-truthy? (keyword #f "else")) (let* ((_o$3658 (keyword #f "union")) (_o$3659 flat)) (jolt-hash-map _o$3658 _o$3659)) jolt-nil)))))))))) union-of))) +(guard (e (#t #f)) + (declare-var! "jolt.passes.types.lattice" "join-t")) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "merge-fields" (letrec ((merge-fields (lambda (fa fb) (let fnrec3660 ((fa fa) (fb fb)) (let* ((m1 (let* ((_a$3665 (lambda (m k) (let fnrec3661 ((m m) (k k)) (jolt-assoc m k (let* ((_a$3662 (var-deref "jolt.passes.types.lattice" "join-t")) (_a$3663 (jolt-get fa k (keyword #f "any"))) (_a$3664 (jolt-get fb k (keyword #f "any")))) (jolt-invoke _a$3662 _a$3663 _a$3664)))))) (_a$3666 (jolt-hash-map)) (_a$3667 (jolt-keys fa))) (jolt-reduce _a$3665 _a$3666 _a$3667)))) (let* ((_a$3672 (lambda (m k) (let fnrec3668 ((m m) (k k)) (if (jolt-truthy? (jolt-get m k)) m (jolt-assoc m k (let* ((_a$3669 (var-deref "jolt.passes.types.lattice" "join-t")) (_a$3670 (jolt-get fa k (keyword #f "any"))) (_a$3671 (jolt-get fb k (keyword #f "any")))) (jolt-invoke _a$3669 _a$3670 _a$3671))))))) (_a$3673 m1) (_a$3674 (jolt-keys fb))) (jolt-reduce _a$3672 _a$3673 _a$3674))))))) merge-fields))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "join-t" (letrec ((join-t (lambda (a b) (let fnrec3675 ((a a) (b b)) (if (jolt= a b) a (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) b (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) a (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") a))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") b) and__13__auto))) (let* ((merged (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$3676 (var-deref "jolt.passes.types.lattice" "merge-fields")) (_a$3677 (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") a)) (_a$3678 (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") b))) (jolt-invoke _a$3676 _a$3677 _a$3678))))) (if (jolt-truthy? (let* ((and__13__auto (jolt-get a (keyword #f "shape")))) (if (jolt-truthy? and__13__auto) (let* ((_a$3679 (jolt-get a (keyword #f "shape"))) (_a$3680 (jolt-get b (keyword #f "shape")))) (jolt= _a$3679 _a$3680)) and__13__auto))) (jolt-assoc merged (keyword #f "shape") (jolt-get a (keyword #f "shape"))) merged)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") a))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") b) and__13__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$3681 join-t) (_a$3682 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") a)) (_a$3683 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") b))) (jolt-invoke _a$3681 _a$3682 _a$3683))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") a))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") b) and__13__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") (let* ((_a$3684 join-t) (_a$3685 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") a)) (_a$3686 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") b))) (jolt-invoke _a$3684 _a$3685 _a$3686))) (if (jolt-truthy? (keyword #f "else")) (let* ((ma (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") a)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") a) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "scalar-t?") a)) (jolt-hash-set a) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil)))) (mb (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") b) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "scalar-t?") b)) (jolt-hash-set b) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))) (if (jolt-truthy? (let* ((and__13__auto ma)) (if (jolt-truthy? and__13__auto) mb and__13__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-of") (jolt-reduce jolt-conj ma mb)) (keyword #f "any"))) jolt-nil))))))))))) join-t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "join" (letrec ((join (lambda (a b) (let fnrec3687 ((a a) (b b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join-t") a b))))) join))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "type-depth" 4)) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "cap" (letrec ((cap (lambda (t d) (let fnrec3688 ((t t) (d d)) (if (<= d 0) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)))))) (keyword #f "any") t) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t)) (let* ((capped (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$3693 (lambda (m k) (let fnrec3689 ((m m) (k k)) (jolt-assoc m k (let* ((_a$3690 cap) (_a$3691 (jolt-get (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t) k)) (_a$3692 (jolt-dec d))) (jolt-invoke _a$3690 _a$3691 _a$3692)))))) (_a$3694 (jolt-hash-map)) (_a$3695 (jolt-keys (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t)))) (jolt-reduce _a$3693 _a$3694 _a$3695)))) (capped (if (jolt-truthy? (jolt-get t (keyword #f "shape"))) (jolt-assoc capped (keyword #f "shape") (jolt-get t (keyword #f "shape"))) capped)) (capped (if (jolt-truthy? (jolt-get t (keyword #f "type"))) (jolt-assoc capped (keyword #f "type") (jolt-get t (keyword #f "type"))) capped))) capped) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$3696 cap) (_a$3697 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") t)) (_a$3698 (jolt-dec d))) (jolt-invoke _a$3696 _a$3697 _a$3698))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") (let* ((_a$3699 cap) (_a$3700 (jolt-invoke (var-deref "jolt.passes.types.lattice" "selem") t)) (_a$3701 (jolt-dec d))) (jolt-invoke _a$3699 _a$3700 _a$3701))) (if (jolt-truthy? (keyword #f "else")) t jolt-nil))))))))) cap))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "struct-safe?" (letrec ((struct-safe? (lambda (t) (let fnrec3702 ((t t)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))))) struct-safe?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "field-type" (letrec ((field-type (lambda (t k) (let fnrec3703 ((t t) (k k)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t)) (jolt-get (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") t) k (keyword #f "any")) (keyword #f "any")))))) field-type))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "shape-order" (letrec ((shape-order (lambda (ks) (let fnrec3704 ((ks ks)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "sort") (lambda (a b) (let fnrec3705 ((a a) (b b)) (let* ((_a$3706 (var-deref "clojure.core" "compare")) (_a$3707 (jolt-invoke (var-deref "clojure.core" "str") a)) (_a$3708 (jolt-invoke (var-deref "clojure.core" "str") b))) (jolt-invoke _a$3706 _a$3707 _a$3708)))) ks)))))) shape-order))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "type-shape" (letrec ((type-shape (lambda (t) (let fnrec3709 ((t t)) (jolt-get t (keyword #f "shape")))))) type-shape))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "mark-struct" (letrec ((mark-struct (lambda (node t) (let fnrec3710 ((node node) (t t)) (let* ((n (jolt-assoc node (keyword #f "hint") (keyword #f "struct")))) (if (jolt-truthy? (jolt-get t (keyword #f "shape"))) (jolt-assoc n (keyword #f "shape") (jolt-get t (keyword #f "shape"))) n)))))) mark-struct))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "truthy-type?" (letrec ((truthy-type? (lambda (t) (let fnrec3711 ((t t)) (let* ((or__14__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "truthy")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "phm")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t))))))))))))))))))) truthy-type?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "num-ret-fns" (let* ((_o$3712 "+") (_o$3713 "-") (_o$3714 "*") (_o$3715 "/") (_o$3716 "inc") (_o$3717 "dec") (_o$3718 "mod") (_o$3719 "rem") (_o$3720 "quot") (_o$3721 "min") (_o$3722 "max") (_o$3723 "abs") (_o$3724 "bit-and") (_o$3725 "bit-or") (_o$3726 "bit-xor") (_o$3727 "count")) (jolt-hash-set _o$3712 _o$3713 _o$3714 _o$3715 _o$3716 _o$3717 _o$3718 _o$3719 _o$3720 _o$3721 _o$3722 _o$3723 _o$3724 _o$3725 _o$3726 _o$3727)))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types.lattice" "vector-ret-fns" (let* ((_o$3728 "vec") (_o$3729 "vector") (_o$3730 "mapv") (_o$3731 "filterv") (_o$3732 "subvec")) (jolt-hash-set _o$3728 _o$3729 _o$3730 _o$3731 _o$3732)))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "config-box" (jolt-invoke (var-deref "clojure.core" "atom") (let* ((_o$2877 (keyword #f "rtenv")) (_o$2878 (jolt-hash-map)) (_o$2879 (keyword #f "vtypes")) (_o$2880 (jolt-hash-map)) (_o$2881 (keyword #f "record-shapes")) (_o$2882 (jolt-hash-map)) (_o$2883 (keyword #f "protocol-methods")) (_o$2884 (jolt-hash-map)) (_o$2885 (keyword #f "map-shapes?")) (_o$2886 #f)) (jolt-hash-map _o$2877 _o$2878 _o$2879 _o$2880 _o$2881 _o$2882 _o$2883 _o$2884 _o$2885 _o$2886))) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "escapes-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-set)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "user-sig-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "last-diags-box" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "check-mode-box" (jolt-invoke (var-deref "clojure.core" "atom") (let* ((_o$2887 (keyword #f "on")) (_o$2888 #f) (_o$2889 (keyword #f "strict")) (_o$2890 #f)) (jolt-hash-map _o$2887 _o$2888 _o$2889 _o$2890))) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "mk-env" (letrec ((mk-env (lambda (checking? strict?) (let fnrec2891 ((checking? checking?) (strict? strict?)) (let* ((c (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "config-box")))) (let* ((_o$2892 (keyword #f "rtenv")) (_o$2893 (jolt-get c (keyword #f "rtenv"))) (_o$2894 (keyword #f "vtypes")) (_o$2895 (jolt-get c (keyword #f "vtypes"))) (_o$2896 (keyword #f "record-shapes")) (_o$2897 (jolt-get c (keyword #f "record-shapes"))) (_o$2898 (keyword #f "protocol-methods")) (_o$2899 (jolt-get c (keyword #f "protocol-methods"))) (_o$2900 (keyword #f "map-shapes?")) (_o$2901 (jolt-get c (keyword #f "map-shapes?"))) (_o$2902 (keyword #f "checking?")) (_o$2903 checking?) (_o$2904 (keyword #f "strict?")) (_o$2905 strict?) (_o$2906 (keyword #f "diags")) (_o$2907 (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (_o$2908 (keyword #f "calls")) (_o$2909 (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))) (_o$2910 (keyword #f "checking-set")) (_o$2911 (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-set))) (_o$2912 (keyword #f "diag-memo")) (_o$2913 (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map))) (_o$2914 (keyword #f "escapes")) (_o$2915 (var-deref "jolt.passes.types" "escapes-box")) (_o$2916 (keyword #f "user-sigs")) (_o$2917 (var-deref "jolt.passes.types" "user-sig-box"))) (jolt-hash-map _o$2892 _o$2893 _o$2894 _o$2895 _o$2896 _o$2897 _o$2898 _o$2899 _o$2900 _o$2901 _o$2902 _o$2903 _o$2904 _o$2905 _o$2906 _o$2907 _o$2908 _o$2909 _o$2910 _o$2911 _o$2912 _o$2913 _o$2914 _o$2915 _o$2916 _o$2917))))))) mk-env))) +(guard (e (#t #f)) + (declare-var! "jolt.passes.types" "record-type-from-entry")) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "field-type-from-tag" (letrec ((field-type-from-tag (lambda (tag depth shapes) (let fnrec2918 ((tag tag) (depth depth) (shapes shapes)) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") tag))) (if (jolt-truthy? or__14__auto) or__14__auto (<= depth 0)))) (keyword #f "any") (if (jolt= tag "num") (keyword #f "num") (if (jolt-truthy? (keyword #f "else")) (let* ((e (jolt-get shapes tag))) (if (jolt-truthy? e) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e depth shapes) (keyword #f "any"))) jolt-nil))))))) field-type-from-tag))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "record-type-from-entry" (letrec ((record-type-from-entry (lambda (rs depth shapes) (let fnrec2919 ((rs rs) (depth depth) (shapes shapes)) (let* ((fields (jolt-get rs (keyword #f "fields"))) (tags (jolt-get rs (keyword #f "tags"))) (fmap (let* ((_a$2928 (lambda (m i) (let fnrec2920 ((m m) (i i)) (let* ((_a$2925 m) (_a$2926 (jolt-nth fields i)) (_a$2927 (let* ((_a$2921 (var-deref "jolt.passes.types" "field-type-from-tag")) (_a$2922 (if (jolt-truthy? tags) (jolt-nth tags i) jolt-nil)) (_a$2923 (jolt-dec depth)) (_a$2924 shapes)) (jolt-invoke _a$2921 _a$2922 _a$2923 _a$2924)))) (jolt-assoc _a$2925 _a$2926 _a$2927))))) (_a$2929 (jolt-hash-map)) (_a$2930 (jolt-range (jolt-count fields)))) (jolt-reduce _a$2928 _a$2929 _a$2930)))) (let* ((_a$2931 (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") fmap)) (_a$2932 (keyword #f "shape")) (_a$2933 (jolt-invoke (var-deref "clojure.core" "vec") fields)) (_a$2934 (keyword #f "type")) (_a$2935 (jolt-get rs (keyword #f "type")))) (jolt-assoc _a$2931 _a$2932 _a$2933 _a$2934 _a$2935))))))) record-type-from-entry))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "elem-fns" (let* ((_o$2936 "rand-nth") (_o$2937 "first") (_o$2938 "peek") (_o$2939 "last") (_o$2940 "nth") (_o$2941 "fnext") (_o$2942 "second")) (jolt-hash-set _o$2936 _o$2937 _o$2938 _o$2939 _o$2940 _o$2941 _o$2942)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (begin (declare-var! "jolt.passes.types" "check-invoke") (declare-var! "jolt.passes.types" "check-user-call") (declare-var! "jolt.passes.types" "register-user-fn!") (declare-var! "jolt.passes.types" "not-callable?") (declare-var! "jolt.passes.types" "type-name"))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "var-key" (letrec ((var-key (lambda (fnode) (let fnrec2943 ((fnode fnode)) (let* ((_a$2944 (var-deref "clojure.core" "str")) (_a$2945 (jolt-get fnode (keyword #f "ns"))) (_a$2946 "/") (_a$2947 (jolt-get fnode (keyword #f "name")))) (jolt-invoke _a$2944 _a$2945 _a$2946 _a$2947)))))) var-key))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "call-ret-type" (letrec ((call-ret-type (lambda (fnode env) (let fnrec2948 ((fnode fnode) (env env)) (let* ((op (jolt-get fnode (keyword #f "op"))) (shapes (jolt-get env (keyword #f "record-shapes")))) (if (jolt= op (keyword #f "var")) (let* ((rs (jolt-get shapes (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)))) (if (jolt-truthy? rs) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") rs (var-deref "jolt.passes.types.lattice" "type-depth") shapes) (let* ((r (let* ((_a$2949 (jolt-get env (keyword #f "rtenv"))) (_a$2950 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$2949 _a$2950)))) (if (jolt-truthy? r) r (let* ((nm (let* ((and__13__auto (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))))) (if (jolt-truthy? and__13__auto) (jolt-get fnode (keyword #f "name")) and__13__auto)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") nm)) (keyword #f "any") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "num-ret-fns") nm) (keyword #f "num") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "vector-ret-fns") nm) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "any")) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil))))))))) (if (jolt= op (keyword #f "host")) (let* ((nm (jolt-get fnode (keyword #f "name")))) (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "num-ret-fns") nm) (keyword #f "num") (if (jolt-contains? (var-deref "jolt.passes.types.lattice" "vector-ret-fns") nm) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "any")) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))) (if (jolt-truthy? (keyword #f "else")) (keyword #f "any") jolt-nil)))))))) call-ret-type))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "fold-preds" (let* ((_o$2951 "number?") (_o$2952 "string?") (_o$2953 "keyword?") (_o$2954 "record?") (_o$2955 "nil?") (_o$2956 "some?")) (jolt-hash-set _o$2951 _o$2952 _o$2953 _o$2954 _o$2955 _o$2956)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "record-t?" (letrec ((record-t? (lambda (t) (let fnrec2957 ((t t)) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-get t (keyword #f "type"))) and__13__auto)))))) record-t?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "pred-on" (letrec ((pred-on (lambda (pname t) (let fnrec2958 ((pname pname) (t t)) (if (jolt-truthy? (let* ((or__14__auto (jolt= t (keyword #f "any")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= t (keyword #f "truthy"))))) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (let* ((vs (let* ((_a$2960 (lambda (m) (let fnrec2959 ((m m)) (jolt-invoke pred-on pname m)))) (_a$2961 (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t))) (jolt-map _a$2960 _a$2961)))) (if (jolt-truthy? (let* ((and__13__auto (jolt-seq vs))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-first vs))))) (if (jolt-truthy? and__13__auto) (jolt-apply jolt= vs) and__13__auto)) and__13__auto))) (jolt-first vs) jolt-nil)) (if (jolt-truthy? (keyword #f "else")) (let* ((G__33 pname)) (if (jolt= G__33 "number?") (jolt= t (keyword #f "num")) (if (jolt= G__33 "string?") (jolt= t (keyword #f "str")) (if (jolt= G__33 "keyword?") (jolt= t (keyword #f "kw")) (if (jolt= G__33 "record?") (jolt-invoke (var-deref "jolt.passes.types" "record-t?") t) (if (jolt= G__33 "nil?") #f (if (jolt= G__33 "some?") #t jolt-nil))))))) jolt-nil))))))) pred-on))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "pure-node?" (letrec ((pure-node? (lambda (n) (let fnrec2962 ((n n)) (let* ((op (jolt-get n (keyword #f "op")))) (let* ((or__14__auto (jolt= op (keyword #f "const")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= op (keyword #f "local"))))))))) pure-node?))) +(guard (e (#t #f)) + (declare-var! "jolt.passes.types" "infer")) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "hof-table" (let* ((_o$2979 "map") (_o$2980 (let* ((_o$2963 (keyword #f "epos")) (_o$2964 0)) (jolt-hash-map _o$2963 _o$2964))) (_o$2981 "mapv") (_o$2982 (let* ((_o$2965 (keyword #f "epos")) (_o$2966 0)) (jolt-hash-map _o$2965 _o$2966))) (_o$2983 "filter") (_o$2984 (let* ((_o$2967 (keyword #f "epos")) (_o$2968 0)) (jolt-hash-map _o$2967 _o$2968))) (_o$2985 "filterv") (_o$2986 (let* ((_o$2969 (keyword #f "epos")) (_o$2970 0)) (jolt-hash-map _o$2969 _o$2970))) (_o$2987 "keep") (_o$2988 (let* ((_o$2971 (keyword #f "epos")) (_o$2972 0)) (jolt-hash-map _o$2971 _o$2972))) (_o$2989 "remove") (_o$2990 (let* ((_o$2973 (keyword #f "epos")) (_o$2974 0)) (jolt-hash-map _o$2973 _o$2974))) (_o$2991 "run!") (_o$2992 (let* ((_o$2975 (keyword #f "epos")) (_o$2976 0)) (jolt-hash-map _o$2975 _o$2976))) (_o$2993 "mapcat") (_o$2994 (let* ((_o$2977 (keyword #f "epos")) (_o$2978 0)) (jolt-hash-map _o$2977 _o$2978)))) (jolt-hash-map _o$2979 _o$2980 _o$2981 _o$2982 _o$2983 _o$2984 _o$2985 _o$2986 _o$2987 _o$2988 _o$2989 _o$2990 _o$2991 _o$2992 _o$2993 _o$2994)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "infer-fn-seeded" (letrec ((infer-fn-seeded (lambda (node seeds tenv env) (let fnrec2995 ((node node) (seeds seeds) (tenv tenv) (env env)) (let* ((res (let* ((_a$3006 (var-deref "clojure.core" "mapv")) (_a$3007 (lambda (a) (let fnrec2996 ((a a)) (let* ((params (jolt-get a (keyword #f "params"))) (pe (let* ((_a$3001 (lambda (e i) (let fnrec2997 ((e e) (i i)) (let* ((_a$2998 e) (_a$2999 (jolt-nth params i)) (_a$3000 (let* ((s (jolt-get seeds i))) (if (jolt-truthy? s) s (keyword #f "any"))))) (jolt-assoc _a$2998 _a$2999 _a$3000))))) (_a$3002 tenv) (_a$3003 (jolt-range (jolt-count params)))) (jolt-reduce _a$3001 _a$3002 _a$3003))) (pe (if (jolt-truthy? (jolt-get a (keyword #f "rest"))) (jolt-assoc pe (jolt-get a (keyword #f "rest")) (keyword #f "any")) pe)) (br (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-get a (keyword #f "body")) pe env))) (let* ((_o$3004 (jolt-nth br 0)) (_o$3005 (jolt-assoc a (keyword #f "body") (jolt-nth br 1)))) (jolt-vector _o$3004 _o$3005)))))) (_a$3008 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$3006 _a$3007 _a$3008))) (rets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3009 ((r r)) (jolt-nth r 0))) res)) (ret (if (jolt-empty? rets) (keyword #f "any") (let* ((_a$3010 (var-deref "jolt.passes.types.lattice" "join")) (_a$3011 (jolt-first rets)) (_a$3012 (jolt-rest rets))) (jolt-reduce _a$3010 _a$3011 _a$3012))))) (let* ((_o$3014 ret) (_o$3015 (jolt-assoc node (keyword #f "arities") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3013 ((r r)) (jolt-nth r 1))) res)))) (jolt-vector _o$3014 _o$3015))))))) infer-fn-seeded))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "infer" (letrec ((infer (lambda (node tenv env) (let fnrec3016 ((node node) (tenv tenv) (env env)) (let* ((op (jolt-get node (keyword #f "op")))) (if (jolt= op (keyword #f "const")) (let* ((_o$3017 (let* ((v (jolt-get node (keyword #f "val")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") v)) (keyword #f "num") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") v)) (keyword #f "str") (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") v)) (keyword #f "kw") (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") v))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= #f v)))) (keyword #f "any") (if (jolt-truthy? (keyword #f "else")) (keyword #f "truthy") jolt-nil))))))) (_o$3018 node)) (jolt-vector _o$3017 _o$3018)) (if (jolt= op (keyword #f "local")) (let* ((t (jolt-get tenv (jolt-get node (keyword #f "name"))))) (let* ((_o$3019 (if (jolt-truthy? t) t (keyword #f "any"))) (_o$3020 (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") t)) (let* ((n (jolt-assoc node (keyword #f "hint") (keyword #f "struct")))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "type-shape") t)) (jolt-assoc n (keyword #f "shape") (jolt-invoke (var-deref "jolt.passes.types.lattice" "type-shape") t)) n)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) (jolt-assoc node (keyword #f "hint") (keyword #f "vector")) (if (jolt-truthy? (keyword #f "else")) node jolt-nil))))) (jolt-vector _o$3019 _o$3020))) (if (jolt= op (keyword #f "map")) (let* ((pairs (jolt-get node (keyword #f "pairs"))) (res (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (pr) (let fnrec3021 ((pr pr)) (let* ((kr (jolt-invoke infer (jolt-nth pr 0) tenv env)) (vr (jolt-invoke infer (jolt-nth pr 1) tenv env))) (let* ((_o$3022 (jolt-nth kr 1)) (_o$3023 (jolt-nth vr 1)) (_o$3024 (jolt-nth vr 0)) (_o$3025 (jolt-get (jolt-nth pr 0) (keyword #f "val")))) (jolt-vector _o$3022 _o$3023 _o$3024 _o$3025))))) pairs)) (struct? (let* ((and__13__auto (> (jolt-count res) 0))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "every?") (lambda (pr) (let fnrec3026 ((pr pr)) (jolt-invoke (var-deref "jolt.passes.fold" "scalar-const?") (jolt-nth pr 0)))) pairs))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (r) (let fnrec3027 ((r r)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "truthy-type?") (jolt-nth r 2)))) res) and__13__auto)) and__13__auto))) (base (if (jolt-truthy? struct?) (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-struct") (let* ((_a$3032 (lambda (m r) (let fnrec3028 ((m m) (r r)) (let* ((_a$3029 m) (_a$3030 (jolt-nth r 3)) (_a$3031 (jolt-nth r 2))) (jolt-assoc _a$3029 _a$3030 _a$3031))))) (_a$3033 (jolt-hash-map)) (_a$3034 res)) (jolt-reduce _a$3032 _a$3033 _a$3034))) (var-deref "jolt.passes.types.lattice" "type-depth")) jolt-nil)) (shp (if (jolt-truthy? (let* ((and__13__auto (jolt-get env (keyword #f "map-shapes?")))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto base)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") base) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "shape-order") (jolt-keys (jolt-invoke (var-deref "jolt.passes.types.lattice" "sfields") base))) jolt-nil)) (t (if (jolt-truthy? base) (if (jolt-truthy? shp) (jolt-assoc base (keyword #f "shape") shp) base) (keyword #f "any"))) (node_PRIME_ (jolt-assoc node (keyword #f "pairs") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3035 ((r r)) (let* ((_o$3036 (jolt-nth r 0)) (_o$3037 (jolt-nth r 1))) (jolt-vector _o$3036 _o$3037)))) res)))) (let* ((_o$3038 t) (_o$3039 (if (jolt-truthy? shp) (jolt-assoc node_PRIME_ (keyword #f "shape") shp) node_PRIME_))) (jolt-vector _o$3038 _o$3039))) (if (jolt= op (keyword #f "vector")) (let* ((irs (let* ((_a$3041 (var-deref "clojure.core" "mapv")) (_a$3042 (lambda (x) (let fnrec3040 ((x x)) (jolt-invoke infer x tenv env)))) (_a$3043 (jolt-get node (keyword #f "items")))) (jolt-invoke _a$3041 _a$3042 _a$3043))) (ets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3044 ((r r)) (jolt-nth r 0))) irs)) (el (if (jolt-empty? ets) (keyword #f "any") (let* ((_a$3045 (var-deref "jolt.passes.types.lattice" "join")) (_a$3046 (jolt-first ets)) (_a$3047 (jolt-rest ets))) (jolt-reduce _a$3045 _a$3046 _a$3047))))) (let* ((_o$3049 (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") el) (var-deref "jolt.passes.types.lattice" "type-depth"))) (_o$3050 (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3048 ((r r)) (jolt-nth r 1))) irs)))) (jolt-vector _o$3049 _o$3050))) (if (jolt= op (keyword #f "set")) (let* ((irs (let* ((_a$3052 (var-deref "clojure.core" "mapv")) (_a$3053 (lambda (x) (let fnrec3051 ((x x)) (jolt-invoke infer x tenv env)))) (_a$3054 (jolt-get node (keyword #f "items")))) (jolt-invoke _a$3052 _a$3053 _a$3054))) (ets (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3055 ((r r)) (jolt-nth r 0))) irs)) (el (if (jolt-empty? ets) (keyword #f "any") (let* ((_a$3056 (var-deref "jolt.passes.types.lattice" "join")) (_a$3057 (jolt-first ets)) (_a$3058 (jolt-rest ets))) (jolt-reduce _a$3056 _a$3057 _a$3058))))) (let* ((_o$3060 (jolt-invoke (var-deref "jolt.passes.types.lattice" "cap") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-set") el) (var-deref "jolt.passes.types.lattice" "type-depth"))) (_o$3061 (jolt-assoc node (keyword #f "items") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3059 ((r r)) (jolt-nth r 1))) irs)))) (jolt-vector _o$3060 _o$3061))) (if (jolt= op (keyword #f "if")) (let* ((tr (jolt-invoke infer (jolt-get node (keyword #f "test")) tenv env)) (thn (jolt-invoke infer (jolt-get node (keyword #f "then")) tenv env)) (els (jolt-invoke infer (jolt-get node (keyword #f "else")) tenv env))) (let* ((_o$3072 (let* ((_a$3062 (var-deref "jolt.passes.types.lattice" "join")) (_a$3063 (jolt-nth thn 0)) (_a$3064 (jolt-nth els 0))) (jolt-invoke _a$3062 _a$3063 _a$3064))) (_o$3073 (let* ((_a$3065 node) (_a$3066 (keyword #f "test")) (_a$3067 (jolt-nth tr 1)) (_a$3068 (keyword #f "then")) (_a$3069 (jolt-nth thn 1)) (_a$3070 (keyword #f "else")) (_a$3071 (jolt-nth els 1))) (jolt-assoc _a$3065 _a$3066 _a$3067 _a$3068 _a$3069 _a$3070 _a$3071)))) (jolt-vector _o$3072 _o$3073))) (if (jolt= op (keyword #f "do")) (let* ((stmts (let* ((_a$3075 (var-deref "clojure.core" "mapv")) (_a$3076 (lambda (s) (let fnrec3074 ((s s)) (jolt-nth (jolt-invoke infer s tenv env) 1)))) (_a$3077 (jolt-get node (keyword #f "statements")))) (jolt-invoke _a$3075 _a$3076 _a$3077))) (r (jolt-invoke infer (jolt-get node (keyword #f "ret")) tenv env))) (let* ((_o$3078 (jolt-nth r 0)) (_o$3079 (jolt-assoc node (keyword #f "statements") stmts (keyword #f "ret") (jolt-nth r 1)))) (jolt-vector _o$3078 _o$3079))) (if (jolt= op (keyword #f "throw")) (let* ((_o$3080 (keyword #f "any")) (_o$3081 (jolt-assoc node (keyword #f "expr") (jolt-nth (jolt-invoke infer (jolt-get node (keyword #f "expr")) tenv env) 1)))) (jolt-vector _o$3080 _o$3081)) (if (jolt= op (keyword #f "var")) (begin (let* ((_a$3082 (var-deref "clojure.core" "swap!")) (_a$3083 (jolt-get env (keyword #f "escapes"))) (_a$3084 jolt-conj) (_a$3085 (jolt-invoke (var-deref "jolt.passes.types" "var-key") node))) (jolt-invoke _a$3082 _a$3083 _a$3084 _a$3085)) (let* ((_o$3088 (let* ((vt (let* ((_a$3086 (jolt-get env (keyword #f "vtypes"))) (_a$3087 (jolt-invoke (var-deref "jolt.passes.types" "var-key") node))) (jolt-get _a$3086 _a$3087)))) (if (jolt-truthy? vt) vt (keyword #f "any")))) (_o$3089 node)) (jolt-vector _o$3088 _o$3089))) (if (jolt= op (keyword #f "invoke")) (let* ((fnode (jolt-get node (keyword #f "fn"))) (iscall-var (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op")))) (cn (if (jolt-truthy? (let* ((and__13__auto iscall-var)) (if (jolt-truthy? and__13__auto) (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))) and__13__auto))) (jolt-get fnode (keyword #f "name")) jolt-nil)) (args (jolt-get node (keyword #f "args"))) (n (jolt-count args))) (if (jolt-truthy? (let* ((and__13__auto iscall-var)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-contains? (var-deref "jolt.passes.types" "fold-preds") cn))) (if (jolt-truthy? and__13__auto) (jolt= n 1) and__13__auto)) and__13__auto))) (let* ((ar (jolt-invoke infer (jolt-nth args 0) tenv env)) (v (jolt-invoke (var-deref "jolt.passes.types" "pred-on") cn (jolt-nth ar 0)))) (if (jolt-truthy? (let* ((and__13__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "nil?") v)))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types" "pure-node?") (jolt-nth ar 1)) and__13__auto))) (let* ((_o$3094 (keyword #f "any")) (_o$3095 (let* ((_o$3090 (keyword #f "op")) (_o$3091 (keyword #f "const")) (_o$3092 (keyword #f "val")) (_o$3093 v)) (jolt-hash-map _o$3090 _o$3091 _o$3092 _o$3093)))) (jolt-vector _o$3094 _o$3095)) (let* ((_o$3096 (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env)) (_o$3097 (jolt-assoc node (keyword #f "args") (jolt-vector (jolt-nth ar 1))))) (jolt-vector _o$3096 _o$3097)))) (if (jolt-truthy? (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get fnode (keyword #f "val"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (>= n 1))) (if (jolt-truthy? and__13__auto) (<= n 2) and__13__auto)) and__13__auto)) and__13__auto))) (let* ((mr (jolt-invoke infer (jolt-nth args 0) tenv env)) (mt (jolt-nth mr 0)) (msub (if (jolt-truthy? 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(let* ((and__13__auto (let* ((or__14__auto (let* ((and__13__auto (jolt= (keyword #f "var") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= "clojure.core" (jolt-get fnode (keyword #f "ns"))))) (if (jolt-truthy? and__13__auto) (jolt= "get" (jolt-get fnode (keyword #f "name"))) and__13__auto)) and__13__auto)))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((and__13__auto (jolt= (keyword #f "host") (jolt-get fnode (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt= "get" (jolt-get fnode (keyword #f "name"))) and__13__auto)))))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (>= n 2))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= (keyword #f "const") (jolt-get (jolt-nth args 1) (keyword #f "op"))))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "keyword?") (jolt-get (jolt-nth args 1) (keyword #f "val"))) and__13__auto)) and__13__auto)) and__13__auto))) (let* ((mr (jolt-invoke infer (jolt-nth args 0) tenv env)) (mt (jolt-nth mr 0)) (msub (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-safe?") mt)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mark-struct") (jolt-nth mr 1) mt) (jolt-nth mr 1))) (kr (jolt-invoke infer (jolt-nth args 1) tenv env)) (ft (jolt-invoke (var-deref "jolt.passes.types.lattice" "field-type") mt (jolt-get (jolt-nth args 1) (keyword #f "val")))) (dr (if (jolt= n 3) (jolt-invoke infer (jolt-nth args 2) tenv env) jolt-nil))) (let* ((_o$3107 (if (jolt-truthy? dr) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") ft (jolt-nth dr 0)) ft)) (_o$3108 (jolt-assoc node (keyword #f "args") (if (jolt-truthy? dr) (let* ((_o$3102 msub) (_o$3103 (jolt-nth kr 1)) (_o$3104 (jolt-nth dr 1))) (jolt-vector _o$3102 _o$3103 _o$3104)) (let* ((_o$3105 msub) (_o$3106 (jolt-nth kr 1))) (jolt-vector _o$3105 _o$3106)))))) (jolt-vector _o$3107 _o$3108))) (if (jolt-truthy? (let* ((and__13__auto (jolt= cn "reduce"))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (>= n 2))) (if (jolt-truthy? and__13__auto) (jolt= (keyword #f "fn") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__13__auto)) and__13__auto))) (let* ((three (>= n 3)) (coll-r (jolt-invoke infer (jolt-nth args (if (jolt-truthy? three) 2 1)) tenv env)) (init-r (if (jolt-truthy? three) (jolt-invoke infer (jolt-nth args 1) tenv env) jolt-nil)) (et (let* ((ct (jolt-nth coll-r 0))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") ct)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") ct) (keyword #f "any")))) (init-t (if (jolt-truthy? init-r) (jolt-nth init-r 0) (keyword #f "any"))) (fn-r (let* ((_a$3113 (var-deref "jolt.passes.types" "infer-fn-seeded")) (_a$3114 (jolt-nth args 0)) (_a$3115 (let* ((_o$3109 0) (_o$3110 init-t) (_o$3111 1) (_o$3112 et)) (jolt-hash-map _o$3109 _o$3110 _o$3111 _o$3112))) (_a$3116 tenv) (_a$3117 env)) (jolt-invoke _a$3113 _a$3114 _a$3115 _a$3116 _a$3117)))) (let* ((_o$3123 (jolt-invoke (var-deref "jolt.passes.types.lattice" "join") init-t (jolt-nth fn-r 0))) (_o$3124 (jolt-assoc node (keyword #f "args") (if (jolt-truthy? three) (let* ((_o$3118 (jolt-nth fn-r 1)) (_o$3119 (jolt-nth init-r 1)) (_o$3120 (jolt-nth coll-r 1))) (jolt-vector _o$3118 _o$3119 _o$3120)) (let* ((_o$3121 (jolt-nth fn-r 1)) (_o$3122 (jolt-nth coll-r 1))) (jolt-vector _o$3121 _o$3122)))))) (jolt-vector _o$3123 _o$3124))) (if (jolt-truthy? (let* ((and__13__auto cn)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-get (var-deref "jolt.passes.types" "hof-table") cn))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (>= n 2))) (if (jolt-truthy? and__13__auto) (jolt= (keyword #f "fn") (jolt-get (jolt-nth args 0) (keyword #f "op"))) and__13__auto)) and__13__auto)) and__13__auto))) (let* ((coll-r (jolt-invoke infer (jolt-nth args 1) tenv env)) (et (let* ((ct (jolt-nth coll-r 0))) (if (jolt-truthy? 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(let* ((and__13__auto (let* ((or__14__auto (jolt= cn "conj"))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= cn "into"))))) (if (jolt-truthy? and__13__auto) (>= n 1) and__13__auto))) (let* ((ares (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec3136 ((a a)) (jolt-invoke infer a tenv env))) args)) (base (jolt-nth (jolt-nth ares 0) 0)) (rest-ts (let* ((_a$3138 (var-deref "clojure.core" "mapv")) (_a$3139 (lambda (r) (let fnrec3137 ((r r)) (jolt-nth r 0)))) (_a$3140 (jolt-rest ares))) (jolt-invoke _a$3138 _a$3139 _a$3140))) (rt (if (jolt-truthy? (let* ((and__13__auto (jolt= cn "conj"))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") base) and__13__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (jolt-reduce (var-deref "jolt.passes.types.lattice" "join") (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") base) rest-ts)) (if (jolt-truthy? (let* ((and__13__auto (jolt= cn "into"))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") base))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt= 2 n))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") (jolt-nth rest-ts 0)) and__13__auto)) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (let* ((_a$3141 (var-deref "jolt.passes.types.lattice" "join")) (_a$3142 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") base)) (_a$3143 (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") (jolt-nth rest-ts 0)))) (jolt-invoke _a$3141 _a$3142 _a$3143))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env) jolt-nil))))) (let* ((_o$3145 rt) (_o$3146 (jolt-assoc node (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3144 ((r r)) (jolt-nth r 1))) ares)))) (jolt-vector _o$3145 _o$3146))) (if (jolt-truthy? (keyword #f "else")) (let* ((fr (if (jolt-not iscall-var) (jolt-invoke infer fnode tenv env) jolt-nil)) (fnode_PRIME_ (if (jolt-truthy? iscall-var) fnode (jolt-nth fr 1))) (callee-t (if (jolt-truthy? iscall-var) (let* ((_a$3147 (jolt-get env (keyword #f "vtypes"))) (_a$3148 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$3147 _a$3148)) (jolt-nth fr 0))) (ares (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (a) (let fnrec3149 ((a a)) (jolt-invoke infer a tenv env))) args))) (begin (if (jolt-truthy? iscall-var) (let* ((_a$3153 (var-deref "clojure.core" "swap!")) (_a$3154 (jolt-get env (keyword #f "calls"))) (_a$3155 jolt-conj) (_a$3156 (let* ((_o$3151 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (_o$3152 (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3150 ((r r)) (jolt-nth r 0))) ares))) (jolt-vector _o$3151 _o$3152)))) (jolt-invoke _a$3153 _a$3154 _a$3155 _a$3156)) jolt-nil) (if (jolt-truthy? (jolt-get env (keyword #f "checking?"))) (let* ((ats (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3157 ((r r)) (jolt-nth r 0))) ares)) (pos (jolt-get node (keyword #f "pos")))) (begin (if (jolt-truthy? cn) (jolt-invoke (var-deref "jolt.passes.types" "check-invoke") cn args ats pos env) jolt-nil) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types" "not-callable?") callee-t)) (let* ((_a$3166 (var-deref "clojure.core" "swap!")) (_a$3167 (jolt-get env (keyword #f "diags"))) (_a$3168 jolt-conj) (_a$3169 (let* ((_o$3158 (keyword #f "op")) (_o$3159 (keyword #f "call")) (_o$3160 (keyword #f "type")) (_o$3161 (jolt-invoke (var-deref "jolt.passes.types" "type-name") callee-t)) (_o$3162 (keyword #f "pos")) (_o$3163 pos) (_o$3164 (keyword #f "msg")) (_o$3165 (jolt-invoke (var-deref "clojure.core" "str") "cannot call " (jolt-invoke (var-deref "jolt.passes.types" "type-name") callee-t) " as a function"))) (jolt-hash-map _o$3158 _o$3159 _o$3160 _o$3161 _o$3162 _o$3163 _o$3164 _o$3165)))) (jolt-invoke _a$3166 _a$3167 _a$3168 _a$3169)) jolt-nil) (if (jolt-truthy? (let* ((and__13__auto (jolt-get env (keyword #f "strict?")))) (if (jolt-truthy? and__13__auto) iscall-var and__13__auto))) (let* ((k (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode)) (usig (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "user-sigs"))) k))) (if (jolt-truthy? usig) (jolt-invoke (var-deref "jolt.passes.types" "check-user-call") k usig ats pos env) jolt-nil)) jolt-nil))) jolt-nil) (let* ((pm (let* ((and__13__auto iscall-var)) (if (jolt-truthy? and__13__auto) (let* ((_a$3170 (jolt-get env (keyword #f "protocol-methods"))) (_a$3171 (jolt-invoke (var-deref "jolt.passes.types" "var-key") fnode))) (jolt-get _a$3170 _a$3171)) and__13__auto))) (rtype (if (jolt-truthy? (let* ((and__13__auto pm)) (if (jolt-truthy? and__13__auto) (jolt-pos? n) and__13__auto))) (jolt-get (jolt-nth (jolt-nth ares 0) 0) (keyword #f "type")) jolt-nil)) (base (jolt-assoc node (keyword #f "fn") fnode_PRIME_ (keyword #f "args") (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (r) (let fnrec3172 ((r r)) (jolt-nth r 1))) ares)))) (let* ((_o$3180 (if (jolt= cn "range") (jolt-invoke (var-deref "jolt.passes.types.lattice" "mk-vec") (keyword #f "num")) (if (jolt-truthy? (let* ((and__13__auto cn)) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-contains? (var-deref "jolt.passes.types" "elem-fns") cn))) (if (jolt-truthy? and__13__auto) (> n 0) and__13__auto)) and__13__auto))) (let* ((a0 (jolt-nth (jolt-nth ares 0) 0))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") a0)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "velem") a0) (keyword #f "any"))) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "jolt.passes.types" "call-ret-type") fnode env) jolt-nil)))) (_o$3181 (if (jolt-truthy? rtype) (let* ((_a$3173 base) (_a$3174 (keyword #f "devirt-type")) (_a$3175 rtype) (_a$3176 (keyword #f "devirt-proto")) (_a$3177 (jolt-nth pm 0)) (_a$3178 (keyword #f "devirt-method")) (_a$3179 (jolt-nth pm 1))) (jolt-assoc _a$3173 _a$3174 _a$3175 _a$3176 _a$3177 _a$3178 _a$3179)) base))) (jolt-vector _o$3180 _o$3181))))) jolt-nil)))))))) (if (jolt= op (keyword #f "let")) (let* ((res (let* ((_a$3192 (lambda (acc b) (let fnrec3182 ((acc acc) (b b)) (let* ((te (jolt-nth acc 0)) (binds (jolt-nth acc 1)) (ir (jolt-invoke infer (jolt-nth b 1) te env))) (let* ((_o$3188 (let* ((_a$3183 te) (_a$3184 (jolt-nth b 0)) (_a$3185 (jolt-nth ir 0))) (jolt-assoc _a$3183 _a$3184 _a$3185))) (_o$3189 (jolt-conj binds (let* ((_o$3186 (jolt-nth b 0)) (_o$3187 (jolt-nth ir 1))) (jolt-vector _o$3186 _o$3187))))) (jolt-vector _o$3188 _o$3189)))))) (_a$3193 (let* ((_o$3190 tenv) (_o$3191 (jolt-vector))) (jolt-vector _o$3190 _o$3191))) (_a$3194 (jolt-get node (keyword #f "bindings")))) (jolt-reduce _a$3192 _a$3193 _a$3194))) (br (let* ((_a$3195 infer) (_a$3196 (jolt-get node (keyword #f "body"))) (_a$3197 (jolt-nth res 0)) (_a$3198 env)) (jolt-invoke _a$3195 _a$3196 _a$3197 _a$3198)))) (let* ((_o$3204 (jolt-nth br 0)) (_o$3205 (let* ((_a$3199 node) (_a$3200 (keyword #f "bindings")) (_a$3201 (jolt-nth res 1)) (_a$3202 (keyword #f "body")) (_a$3203 (jolt-nth br 1))) (jolt-assoc _a$3199 _a$3200 _a$3201 _a$3202 _a$3203)))) (jolt-vector _o$3204 _o$3205))) (if (jolt= op (keyword #f "loop")) (let* ((_o$3217 (keyword #f "any")) (_o$3218 (let* ((_a$3212 node) (_a$3213 (keyword #f "bindings")) (_a$3214 (let* ((_a$3209 (var-deref "clojure.core" "mapv")) (_a$3210 (lambda (b) (let fnrec3206 ((b b)) (let* ((_o$3207 (jolt-nth b 0)) (_o$3208 (jolt-nth (jolt-invoke infer (jolt-nth b 1) tenv env) 1))) (jolt-vector _o$3207 _o$3208))))) (_a$3211 (jolt-get node (keyword #f "bindings")))) (jolt-invoke _a$3209 _a$3210 _a$3211))) (_a$3215 (keyword #f "body")) (_a$3216 (jolt-nth (jolt-invoke infer (jolt-get node (keyword #f "body")) tenv env) 1))) (jolt-assoc _a$3212 _a$3213 _a$3214 _a$3215 _a$3216)))) (jolt-vector _o$3217 _o$3218)) (if (jolt= op (keyword #f "recur")) (let* ((_o$3223 (keyword #f "any")) (_o$3224 (jolt-assoc node (keyword #f "args") (let* ((_a$3220 (var-deref "clojure.core" "mapv")) (_a$3221 (lambda (a) (let fnrec3219 ((a a)) (jolt-nth (jolt-invoke infer a tenv env) 1)))) (_a$3222 (jolt-get node (keyword #f "args")))) (jolt-invoke _a$3220 _a$3221 _a$3222))))) (jolt-vector _o$3223 _o$3224)) (if (jolt= op (keyword #f "fn")) (let* ((_o$3240 (keyword #f "any")) (_o$3241 (jolt-assoc node (keyword #f "arities") (let* ((_a$3237 (var-deref "clojure.core" "mapv")) (_a$3238 (lambda (a) (let fnrec3225 ((a a)) (let* ((shapes (jolt-get env (keyword #f "record-shapes"))) (phm (let* ((_a$3230 (lambda (m pr) (let fnrec3226 ((m m) (pr pr)) (let* ((_a$3227 m) (_a$3228 (jolt-nth pr 0)) (_a$3229 (jolt-nth pr 1))) (jolt-assoc _a$3227 _a$3228 _a$3229))))) (_a$3231 (jolt-hash-map)) (_a$3232 (jolt-get a (keyword #f "phints")))) (jolt-reduce _a$3230 _a$3231 _a$3232))) (pe (let* ((_a$3234 (lambda (e p) (let fnrec3233 ((e e) (p p)) (jolt-assoc e p (let* ((ent (jolt-get shapes (jolt-get phm p)))) (if (jolt-truthy? ent) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") ent (var-deref "jolt.passes.types.lattice" "type-depth") shapes) (keyword #f "any"))))))) (_a$3235 tenv) (_a$3236 (jolt-get a (keyword #f "params")))) (jolt-reduce _a$3234 _a$3235 _a$3236))) (pe (if (jolt-truthy? (jolt-get a (keyword #f "rest"))) (jolt-assoc pe (jolt-get a (keyword #f "rest")) (keyword #f "any")) pe))) (jolt-assoc a (keyword #f "body") (jolt-nth (jolt-invoke infer (jolt-get a (keyword #f "body")) pe env) 1)))))) (_a$3239 (jolt-get node (keyword #f "arities")))) (jolt-invoke _a$3237 _a$3238 _a$3239))))) (jolt-vector _o$3240 _o$3241)) (if (jolt= op (keyword #f "def")) (begin (if (jolt-truthy? (jolt-get env (keyword #f "checking?"))) (jolt-invoke (var-deref "jolt.passes.types" "register-user-fn!") node env) jolt-nil) (let* ((_o$3242 (keyword #f "any")) (_o$3243 (jolt-assoc node (keyword #f "init") (jolt-nth (jolt-invoke infer (jolt-get node (keyword #f "init")) tenv env) 1)))) (jolt-vector _o$3242 _o$3243))) (if (jolt= op (keyword #f "try")) (let* ((_o$3251 (keyword #f "any")) (_o$3252 (let* ((_a$3244 node) (_a$3245 (keyword #f "body")) (_a$3246 (jolt-nth (jolt-invoke infer (jolt-get node (keyword #f "body")) tenv env) 1)) (_a$3247 (keyword #f "catch-body")) (_a$3248 (if (jolt-truthy? (jolt-get node (keyword #f "catch-body"))) (jolt-nth (jolt-invoke infer (jolt-get node (keyword #f "catch-body")) tenv env) 1) jolt-nil)) (_a$3249 (keyword #f "finally")) (_a$3250 (if (jolt-truthy? (jolt-get node (keyword #f "finally"))) (jolt-nth (jolt-invoke infer (jolt-get node (keyword #f "finally")) tenv env) 1) jolt-nil))) (jolt-assoc _a$3244 _a$3245 _a$3246 _a$3247 _a$3248 _a$3249 _a$3250)))) (jolt-vector _o$3251 _o$3252)) (if (jolt-truthy? (keyword #f "else")) (let* ((_o$3253 (keyword #f "any")) (_o$3254 node)) (jolt-vector _o$3253 _o$3254)) jolt-nil)))))))))))))))))))))) infer))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "infer-top" (letrec ((infer-top (lambda (node env) (let fnrec3255 ((node node) (env env)) (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer") node (jolt-hash-map) env) 1))))) infer-top))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "not-number?" (letrec ((not-number? (lambda (t) (let fnrec3256 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-invoke (var-deref "clojure.core" "every?") not-number? (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t)) (let* ((or__14__auto (jolt= t (keyword #f "str")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "kw")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt= t (keyword #f "phm")))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)))))))))))))))) not-number?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "not-seqable?" (letrec ((not-seqable? (lambda (t) (let fnrec3257 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-invoke (var-deref "clojure.core" "every?") not-seqable? (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t)) (let* ((or__14__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= t (keyword #f "kw"))))))))) not-seqable?))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "not-callable?" (letrec ((not-callable? (lambda (t) (let fnrec3258 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (jolt-invoke (var-deref "clojure.core" "every?") not-callable? (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t)) (let* ((or__14__auto (jolt= t (keyword #f "num")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= t (keyword #f "str"))))))))) not-callable?))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "num-ops" (let* ((_o$3259 "+") (_o$3260 "-") (_o$3261 "*") (_o$3262 "/") (_o$3263 "inc") (_o$3264 "dec") (_o$3265 "mod") (_o$3266 "rem") (_o$3267 "quot") (_o$3268 "min") (_o$3269 "max") (_o$3270 "abs") (_o$3271 "bit-and") (_o$3272 "bit-or") (_o$3273 "bit-xor") (_o$3274 "bit-not") (_o$3275 "bit-shift-left") (_o$3276 "bit-shift-right")) (jolt-hash-set _o$3259 _o$3260 _o$3261 _o$3262 _o$3263 _o$3264 _o$3265 _o$3266 _o$3267 _o$3268 _o$3269 _o$3270 _o$3271 _o$3272 _o$3273 _o$3274 _o$3275 _o$3276)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes.types" "seq-ops" (let* ((_o$3277 "count") (_o$3278 "first") (_o$3279 "rest") (_o$3280 "next") (_o$3281 "seq") (_o$3282 "nth")) (jolt-hash-set _o$3277 _o$3278 _o$3279 _o$3280 _o$3281 _o$3282)) (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "type-name" (letrec ((type-name (lambda (t) (let fnrec3283 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "union-type?") t)) (let* ((_a$3285 (lambda (s m) (let fnrec3284 ((s s) (m m)) (if (jolt= s "") (jolt-invoke type-name m) (jolt-invoke (var-deref "clojure.core" "str") s " or " (jolt-invoke type-name m)))))) (_a$3286 "") (_a$3287 (jolt-invoke (var-deref "jolt.passes.types.lattice" "umembers") t))) (jolt-reduce _a$3285 _a$3286 _a$3287)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "struct-type?") t)) "a map" (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "vec-type?") t)) "a vector" (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types.lattice" "set-type?") t)) "a set" (if (jolt= t (keyword #f "str")) "a string" (if (jolt= t (keyword #f "kw")) "a keyword" (if (jolt= t (keyword #f "num")) "a number" (if (jolt= t (keyword #f "phm")) "a map" (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "str") t) jolt-nil))))))))))))) type-name))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "check-invoke" (letrec ((check-invoke (lambda (cn args arg-types pos env) (let fnrec3288 ((cn cn) (args args) (arg-types arg-types) (pos pos) (env env)) (if (jolt-contains? (var-deref "jolt.passes.types" "num-ops") cn) (let* ((_a$3311 (lambda (_ i) (let fnrec3289 ((_ _) (i i)) (begin (let* ((t (jolt-nth arg-types i))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types" "not-number?") t)) (let* ((_a$3307 (var-deref "clojure.core" "swap!")) (_a$3308 (jolt-get env (keyword #f "diags"))) (_a$3309 jolt-conj) (_a$3310 (let* ((_o$3297 (keyword #f "op")) (_o$3298 cn) (_o$3299 (keyword #f "argpos")) (_o$3300 i) (_o$3301 (keyword #f "type")) (_o$3302 (jolt-invoke (var-deref "jolt.passes.types" "type-name") t)) (_o$3303 (keyword #f "pos")) (_o$3304 pos) (_o$3305 (keyword #f "msg")) (_o$3306 (let* ((_a$3290 (var-deref "clojure.core" "str")) (_a$3291 "`") (_a$3292 cn) (_a$3293 "` requires a number, but argument ") (_a$3294 (jolt-inc i)) (_a$3295 " is ") (_a$3296 (jolt-invoke (var-deref "jolt.passes.types" "type-name") t))) (jolt-invoke _a$3290 _a$3291 _a$3292 _a$3293 _a$3294 _a$3295 _a$3296)))) (jolt-hash-map _o$3297 _o$3298 _o$3299 _o$3300 _o$3301 _o$3302 _o$3303 _o$3304 _o$3305 _o$3306)))) (jolt-invoke _a$3307 _a$3308 _a$3309 _a$3310)) jolt-nil)) jolt-nil)))) (_a$3312 jolt-nil) (_a$3313 (jolt-range (jolt-count args)))) (jolt-reduce _a$3311 _a$3312 _a$3313)) (if (jolt-truthy? (let* ((and__13__auto (jolt-contains? (var-deref "jolt.passes.types" "seq-ops") cn))) (if (jolt-truthy? and__13__auto) (> (jolt-count args) 0) and__13__auto))) (let* ((t (jolt-nth arg-types 0))) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.passes.types" "not-seqable?") t)) (let* ((_a$3331 (var-deref "clojure.core" "swap!")) (_a$3332 (jolt-get env (keyword #f "diags"))) (_a$3333 jolt-conj) (_a$3334 (let* ((_o$3321 (keyword #f "op")) (_o$3322 cn) (_o$3323 (keyword #f "argpos")) (_o$3324 0) (_o$3325 (keyword #f "type")) (_o$3326 (jolt-invoke (var-deref "jolt.passes.types" "type-name") t)) (_o$3327 (keyword #f "pos")) (_o$3328 pos) (_o$3329 (keyword #f "msg")) (_o$3330 (let* ((_a$3314 (var-deref "clojure.core" "str")) (_a$3315 "`") (_a$3316 cn) (_a$3317 "` requires ") (_a$3318 (if (jolt= cn "count") "a countable collection" "a seqable")) (_a$3319 ", but argument 1 is ") (_a$3320 (jolt-invoke (var-deref "jolt.passes.types" "type-name") t))) (jolt-invoke _a$3314 _a$3315 _a$3316 _a$3317 _a$3318 _a$3319 _a$3320)))) (jolt-hash-map _o$3321 _o$3322 _o$3323 _o$3324 _o$3325 _o$3326 _o$3327 _o$3328 _o$3329 _o$3330)))) (jolt-invoke _a$3331 _a$3332 _a$3333 _a$3334)) jolt-nil)) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) check-invoke))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "all-any-env" (letrec ((all-any-env (lambda (params) (let fnrec3335 ((params params)) (let* ((_a$3337 (lambda (e p) (let fnrec3336 ((e e) (p p)) (jolt-assoc e p (keyword #f "any"))))) (_a$3338 (jolt-hash-map)) (_a$3339 params)) (jolt-reduce _a$3337 _a$3338 _a$3339)))))) all-any-env))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "isolated-diag-count" (letrec ((isolated-diag-count (lambda (body tenv env) (let fnrec3340 ((body body) (tenv tenv) (env env)) (let* ((sub (jolt-assoc env (keyword #f "diags") (jolt-invoke (var-deref "clojure.core" "atom") (jolt-vector))))) (begin (jolt-invoke (var-deref "jolt.passes.types" "infer") body tenv sub) (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get sub (keyword #f "diags")))))))))) isolated-diag-count))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "register-user-fn!" (letrec ((register-user-fn! (lambda (node env) (let fnrec3341 ((node node) (env env)) (let* ((init (jolt-get node (keyword #f "init"))) (m (jolt-get node (keyword #f "meta"))) (redefable (let* ((and__13__auto m)) (if (jolt-truthy? and__13__auto) (let* ((or__14__auto (jolt-get m (keyword #f "redef")))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-get m (keyword #f "dynamic")))) and__13__auto)))) (if (jolt-truthy? (let* ((and__13__auto (jolt-not redefable))) (if (jolt-truthy? and__13__auto) (jolt= (keyword #f "fn") (jolt-get init (keyword #f "op"))) and__13__auto))) (let* ((arities (jolt-get init (keyword #f "arities")))) (if (jolt= 1 (jolt-count arities)) (let* ((ar (jolt-first arities))) (if (jolt-not (jolt-get ar (keyword #f "rest"))) (let* ((_a$3352 (var-deref "clojure.core" "swap!")) (_a$3353 (jolt-get env (keyword #f "user-sigs"))) (_a$3354 jolt-assoc) (_a$3355 (let* ((_a$3342 (var-deref "clojure.core" "str")) (_a$3343 (jolt-get node (keyword #f "ns"))) (_a$3344 "/") (_a$3345 (jolt-get node (keyword #f "name")))) (jolt-invoke _a$3342 _a$3343 _a$3344 _a$3345))) (_a$3356 (let* ((_o$3346 (keyword #f "name")) (_o$3347 (jolt-get node (keyword #f "name"))) (_o$3348 (keyword #f "params")) (_o$3349 (jolt-get ar (keyword #f "params"))) (_o$3350 (keyword #f "body")) (_o$3351 (jolt-get ar (keyword #f "body")))) (jolt-hash-map _o$3346 _o$3347 _o$3348 _o$3349 _o$3350 _o$3351)))) (jolt-invoke _a$3352 _a$3353 _a$3354 _a$3355 _a$3356)) jolt-nil)) jolt-nil)) jolt-nil)))))) register-user-fn!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "check-user-call" (letrec ((check-user-call (lambda (key sig arg-types pos env) (let fnrec3357 ((key key) (sig sig) (arg-types arg-types) (pos pos) (env env)) (let* ((cset (jolt-get env (keyword #f "checking-set")))) (if (jolt-not (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") cset) key)) (let* ((prev (jolt-invoke (var-deref "clojure.core" "deref") cset))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") cset (jolt-conj prev key)) (let* ((params (jolt-get sig (keyword #f "params"))) (body (jolt-get sig (keyword #f "body"))) (npar (jolt-count params)) (nargs (jolt-count arg-types)) (memo (jolt-get env (keyword #f "diag-memo")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") npar nargs)) (let* ((_a$3366 (var-deref "clojure.core" "swap!")) (_a$3367 (jolt-get env (keyword #f "diags"))) (_a$3368 jolt-conj) (_a$3369 (let* ((_o$3358 (keyword #f "op")) (_o$3359 (keyword #f "user-call")) (_o$3360 (keyword #f "type")) (_o$3361 (keyword #f "arity")) (_o$3362 (keyword #f "pos")) (_o$3363 pos) (_o$3364 (keyword #f "msg")) (_o$3365 (jolt-invoke (var-deref "clojure.core" "str") "wrong number of args (" nargs ") passed to `" (jolt-get sig (keyword #f "name")) "` (expected " npar ")"))) (jolt-hash-map _o$3358 _o$3359 _o$3360 _o$3361 _o$3362 _o$3363 _o$3364 _o$3365)))) (jolt-invoke _a$3366 _a$3367 _a$3368 _a$3369)) (let* ((base-env (jolt-invoke (var-deref "jolt.passes.types" "all-any-env") params)) (base (let* ((bk (let* ((_o$3370 (keyword #f "base")) (_o$3371 key)) (jolt-vector _o$3370 _o$3371)))) (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") memo) bk) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") memo) bk) (let* ((b (jolt-invoke (var-deref "jolt.passes.types" "isolated-diag-count") body base-env env))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") memo jolt-assoc bk b) b)))))) (let* ((_a$3399 (lambda (_ i) (let fnrec3372 ((_ _) (i i)) (begin (let* ((at (jolt-nth arg-types i))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "not=") at (keyword #f "any")))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "not=") at (keyword #f "truthy")) and__13__auto))) (let* ((mk (let* ((_o$3373 (keyword #f "arg")) (_o$3374 key) (_o$3375 i) (_o$3376 at)) (jolt-vector _o$3373 _o$3374 _o$3375 _o$3376))) (rejects (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") memo) mk) (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") memo) mk) (let* ((r (> (jolt-invoke (var-deref "jolt.passes.types" "isolated-diag-count") body (jolt-assoc base-env (jolt-nth params i) at) env) base))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") memo jolt-assoc mk r) r))))) (if (jolt-truthy? rejects) (let* ((_a$3395 (var-deref "clojure.core" "swap!")) (_a$3396 (jolt-get env (keyword #f "diags"))) (_a$3397 jolt-conj) (_a$3398 (let* ((_o$3385 (keyword #f "op")) (_o$3386 (keyword #f "user-call")) (_o$3387 (keyword #f "argpos")) (_o$3388 i) (_o$3389 (keyword #f "type")) (_o$3390 (jolt-invoke (var-deref "jolt.passes.types" "type-name") at)) (_o$3391 (keyword #f "pos")) (_o$3392 pos) (_o$3393 (keyword #f "msg")) (_o$3394 (let* ((_a$3377 (var-deref "clojure.core" "str")) (_a$3378 "argument ") (_a$3379 (jolt-inc i)) (_a$3380 " to `") (_a$3381 (jolt-get sig (keyword #f "name"))) (_a$3382 "` is ") (_a$3383 (jolt-invoke (var-deref "jolt.passes.types" "type-name") at)) (_a$3384 ", which its body provably rejects")) (jolt-invoke _a$3377 _a$3378 _a$3379 _a$3380 _a$3381 _a$3382 _a$3383 _a$3384)))) (jolt-hash-map _o$3385 _o$3386 _o$3387 _o$3388 _o$3389 _o$3390 _o$3391 _o$3392 _o$3393 _o$3394)))) (jolt-invoke _a$3395 _a$3396 _a$3397 _a$3398)) jolt-nil)) jolt-nil)) jolt-nil)))) (_a$3400 jolt-nil) (_a$3401 (jolt-range npar))) (jolt-reduce _a$3399 _a$3400 _a$3401))))) (jolt-invoke (var-deref "clojure.core" "reset!") cset prev))) jolt-nil)))))) check-user-call))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "set-rtenv!" (letrec ((set-rtenv! (lambda (m) (let fnrec3402 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "rtenv") (let* ((or__14__auto m)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))))))) set-rtenv!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "set-record-shapes!" (letrec ((set-record-shapes! (lambda (m) (let fnrec3403 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "record-shapes") (let* ((or__14__auto m)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))))))) set-record-shapes!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "set-protocol-methods!" (letrec ((set-protocol-methods! (lambda (m) (let fnrec3404 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "protocol-methods") (let* ((or__14__auto m)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))))))) set-protocol-methods!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "set-map-shapes!" (letrec ((set-map-shapes! (lambda (b) (let fnrec3405 ((b b)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "map-shapes?") (jolt-invoke (var-deref "clojure.core" "boolean") b)))))) set-map-shapes!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "set-vtypes!" (letrec ((set-vtypes! (lambda (m) (let fnrec3406 ((m m)) (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "jolt.passes.types" "config-box") jolt-assoc (keyword #f "vtypes") (let* ((or__14__auto m)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map)))))))) set-vtypes!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "join-types" (letrec ((join-types (lambda (a b) (let fnrec3407 ((a a) (b b)) (jolt-invoke (var-deref "jolt.passes.types.lattice" "join-t") a b))))) join-types))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "reset-escapes!" (letrec ((reset-escapes! (lambda () (let fnrec3408 () (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "escapes-box") (jolt-hash-set)))))) reset-escapes!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "collected-escapes" (letrec ((collected-escapes (lambda () (let fnrec3409 () (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "escapes-box"))))))) collected-escapes))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "check-form" (letrec ((check-form (case-lambda ((node) (let fnrec3410 ((node node)) (jolt-invoke check-form node #f))) ((node strict?) (let fnrec3411 ((node node) (strict? strict?)) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #t strict?))) (begin (jolt-invoke (var-deref "jolt.passes.types" "infer") node (jolt-hash-map) env) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "diags"))))))))))) check-form))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "infer-body" (letrec ((infer-body (lambda (body tenv) (let fnrec3412 ((body body) (tenv tenv)) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f)) (r (jolt-invoke (var-deref "jolt.passes.types" "infer") body tenv env))) (let* ((_o$3413 (jolt-nth r 0)) (_o$3414 (jolt-nth r 1)) (_o$3415 (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "calls"))))) (jolt-vector _o$3413 _o$3414 _o$3415))))))) infer-body))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "reinfer-def" (letrec ((reinfer-def (lambda (def-node ptmap) (let fnrec3416 ((def-node def-node) (ptmap ptmap)) (let* ((fnode (jolt-get def-node (keyword #f "init"))) (env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f)) (shapes (jolt-get env (keyword #f "record-shapes")))) (if (jolt= (keyword #f "fn") (jolt-get fnode (keyword #f "op"))) (jolt-assoc def-node (keyword #f "init") (jolt-assoc fnode (keyword #f "arities") (let* ((_a$3422 (var-deref "clojure.core" "mapv")) (_a$3423 (lambda (a) (let fnrec3417 ((a a)) (let* ((pt (let* ((_a$3419 (lambda (m pr) (let fnrec3418 ((m m) (pr pr)) (let* ((nm (jolt-nth pr 0)) (e (jolt-get shapes (jolt-nth pr 1)))) (if (jolt-truthy? (let* ((and__13__auto e)) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-contains? m nm)) and__13__auto))) (jolt-assoc m nm (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e (var-deref "jolt.passes.types.lattice" "type-depth") shapes)) m))))) (_a$3420 ptmap) (_a$3421 (jolt-get a (keyword #f "phints")))) (jolt-reduce _a$3419 _a$3420 _a$3421)))) (jolt-assoc a (keyword #f "body") (jolt-nth (jolt-invoke (var-deref "jolt.passes.types" "infer") (jolt-get a (keyword #f "body")) pt env) 1)))))) (_a$3424 (jolt-get fnode (keyword #f "arities")))) (jolt-invoke _a$3422 _a$3423 _a$3424)))) def-node)))))) reinfer-def))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "phint-seed" (letrec ((phint-seed (lambda (params phints) (let fnrec3425 ((params params) (phints phints)) (let* ((shapes (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "config-box")) (keyword #f "record-shapes"))) (m (let* ((_a$3430 (lambda (acc pr) (let fnrec3426 ((acc acc) (pr pr)) (let* ((_a$3427 acc) (_a$3428 (jolt-nth pr 0)) (_a$3429 (jolt-nth pr 1))) (jolt-assoc _a$3427 _a$3428 _a$3429))))) (_a$3431 (jolt-hash-map)) (_a$3432 phints)) (jolt-reduce _a$3430 _a$3431 _a$3432)))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (nm) (let fnrec3433 ((nm nm)) (let* ((ck (jolt-get m nm)) (e (let* ((and__13__auto ck)) (if (jolt-truthy? and__13__auto) (jolt-get shapes ck) and__13__auto)))) (if (jolt-truthy? e) (jolt-invoke (var-deref "jolt.passes.types" "record-type-from-entry") e (var-deref "jolt.passes.types.lattice" "type-depth") shapes) jolt-nil)))) params)))))) phint-seed))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "set-check-mode!" (letrec ((set-check-mode! (lambda (on strict?) (let fnrec3434 ((on on) (strict? strict?)) (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "check-mode-box") (let* ((_o$3435 (keyword #f "on")) (_o$3436 (if (jolt-truthy? on) #t #f)) (_o$3437 (keyword #f "strict")) (_o$3438 (if (jolt-truthy? strict?) #t #f))) (jolt-hash-map _o$3435 _o$3436 _o$3437 _o$3438))))))) set-check-mode!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "take-diags!" (letrec ((take-diags! (lambda () (let fnrec3439 () (let* ((d (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "last-diags-box")))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "last-diags-box") (jolt-vector)) d)))))) take-diags!))) +(guard (e (#t #f)) + (def-var! "jolt.passes.types" "run-inference" (letrec ((run-inference (lambda (opt) (let fnrec3440 ((opt opt)) (if (jolt-truthy? (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "check-mode-box")) (keyword #f "on"))) (let* ((env (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #t (jolt-get (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.types" "check-mode-box")) (keyword #f "strict")))) (r (jolt-invoke (var-deref "jolt.passes.types" "infer-top") opt env))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.types" "last-diags-box") (jolt-invoke (var-deref "clojure.core" "deref") (jolt-get env (keyword #f "diags")))) r)) (jolt-invoke (var-deref "jolt.passes.types" "infer-top") opt (jolt-invoke (var-deref "jolt.passes.types" "mk-env") #f #f))))))) run-inference))) +(guard (e (#t #f)) + (def-var-with-meta! "jolt.passes" "inline-fixpoint-cap" 8 (jolt-hash-map (keyword #f "private") #t))) +(guard (e (#t #f)) + (def-var! "jolt.passes" "run-passes" (letrec ((run-passes (lambda (node ctx) (let fnrec3441 ((node node) (ctx ctx)) (if (jolt-truthy? (jolt-invoke (var-deref "jolt.host" "inline-enabled?") ctx)) (let* ((_ (jolt-invoke (var-deref "jolt.passes.inline" "set-rec-shapes!") (jolt-invoke (var-deref "jolt.host" "record-shapes") ctx))) (_ (jolt-invoke (var-deref "jolt.passes.types" "set-record-shapes!") (jolt-invoke (var-deref "jolt.host" "record-shapes") ctx))) (opt (let* ((i 0) (n (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") node))) (let loop3442 ((i i) (n n)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "jolt.passes.inline" "dirty") #f) (let* ((n2 (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") (jolt-invoke (var-deref "jolt.passes.inline" "scalar-replace") (jolt-invoke (var-deref "jolt.passes.inline" "flatten-lets") (jolt-invoke (var-deref "jolt.passes.inline" "inline-node") n ctx)))))) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "jolt.passes.inline" "dirty")))) (if (jolt-truthy? and__13__auto) (< i (var-deref "jolt.passes" "inline-fixpoint-cap")) and__13__auto))) (loop3442 (jolt-inc i) n2) n2))))))) (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") (jolt-invoke (var-deref "jolt.passes.types" "run-inference") opt))) (jolt-invoke (var-deref "jolt.passes.fold" "const-fold") node)))))) run-passes))) \ No newline at end of file diff --git a/host/chez/seed/prelude.ss b/host/chez/seed/prelude.ss index f59e9f6..d4ab0ca 100644 --- a/host/chez/seed/prelude.ss +++ b/host/chez/seed/prelude.ss @@ -1,497 +1,497 @@ (guard (e (#t #f)) - (def-var! "clojure.core" "zero?" (letrec ((zero? (lambda (x) (let fnrec2316 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt= x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "zero? requires a number, got: " x))))))) zero?))) + (def-var! "clojure.core" "zero?" (letrec ((zero? (lambda (x) (let fnrec2317 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt= x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "zero? requires a number, got: " x))))))) zero?))) (guard (e (#t #f)) - (def-var! "clojure.core" "pos?" (letrec ((pos? (lambda (x) (let fnrec2317 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (> x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pos? requires a number, got: " x))))))) pos?))) + (def-var! "clojure.core" "pos?" (letrec ((pos? (lambda (x) (let fnrec2318 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (> x 0) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pos? requires a number, got: " x))))))) pos?))) (guard (e (#t #f)) - (def-var! "clojure.core" "every?" (letrec ((every? (lambda (pred coll) (let fnrec2318 ((pred pred) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-seq coll))) #t (if (jolt-truthy? (jolt-invoke pred (jolt-first coll))) (fnrec2318 pred (jolt-next coll)) #f)))))) every?))) + (def-var! "clojure.core" "every?" (letrec ((every? (lambda (pred coll) (let fnrec2319 ((pred pred) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-seq coll))) #t (if (jolt-truthy? (jolt-invoke pred (jolt-first coll))) (fnrec2319 pred (jolt-next coll)) #f)))))) every?))) (guard (e (#t #f)) - (def-var! "clojure.core" "empty?" (letrec ((empty? (lambda (coll) (let fnrec2319 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) #t (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") coll)) (jolt-zero? (jolt-count coll)) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-seq coll))))))))))) empty?))) + (def-var! "clojure.core" "empty?" (letrec ((empty? (lambda (coll) (let fnrec2320 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) #t (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (jolt-zero? (jolt-count coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") coll)) (jolt-zero? (jolt-count coll)) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-seq coll))))))))))) empty?))) (guard (e (#t #f)) - (def-var! "clojure.core" "keys" (letrec ((keys (lambda (m) (let fnrec2320 ((m m)) (let* ((s (jolt-seq m))) (if (jolt-truthy? s) (jolt-map (lambda (e) (let fnrec2321 ((e e)) (jolt-nth e 0))) s) jolt-nil)))))) keys))) + (def-var! "clojure.core" "keys" (letrec ((keys (lambda (m) (let fnrec2321 ((m m)) (let* ((s (jolt-seq m))) (if (jolt-truthy? s) (jolt-map (lambda (e) (let fnrec2322 ((e e)) (jolt-nth e 0))) s) jolt-nil)))))) keys))) (guard (e (#t #f)) - (def-var! "clojure.core" "vals" (letrec ((vals (lambda (m) (let fnrec2322 ((m m)) (let* ((s (jolt-seq m))) (if (jolt-truthy? s) (jolt-map (lambda (e) (let fnrec2323 ((e e)) (jolt-nth e 1))) s) jolt-nil)))))) vals))) + (def-var! "clojure.core" "vals" (letrec ((vals (lambda (m) (let fnrec2323 ((m m)) (let* ((s (jolt-seq m))) (if (jolt-truthy? s) (jolt-map (lambda (e) (let fnrec2324 ((e e)) (jolt-nth e 1))) s) jolt-nil)))))) vals))) (guard (e (#t #f)) (def-var! "clojure.core" "when" - (lambda (test . body) (let fnrec2324 ((test test) (body (list->cseq body))) (let* ((_a$2325 (var-deref "clojure.core" "__sqcat")) (_a$2326 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$2327 (jolt-invoke (var-deref "clojure.core" "__sq1") test)) (_a$2328 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) body)))) (jolt-invoke _a$2325 _a$2326 _a$2327 _a$2328))))) + (lambda (test . body) (let fnrec2325 ((test test) (body (list->cseq body))) (let* ((_a$2326 (var-deref "clojure.core" "__sqcat")) (_a$2327 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$2328 (jolt-invoke (var-deref "clojure.core" "__sq1") test)) (_a$2329 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) body)))) (jolt-invoke _a$2326 _a$2327 _a$2328 _a$2329))))) (mark-macro! "clojure.core" "when")) (guard (e (#t #f)) (def-var! "clojure.core" "when-not" - (lambda (test . body) (let fnrec2329 ((test test) (body (list->cseq body))) (let* ((_a$2333 (var-deref "clojure.core" "__sqcat")) (_a$2334 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$2335 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2330 (var-deref "clojure.core" "__sqcat")) (_a$2331 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "not"))) (_a$2332 (jolt-invoke (var-deref "clojure.core" "__sq1") test))) (jolt-invoke _a$2330 _a$2331 _a$2332)))) (_a$2336 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) body)))) (jolt-invoke _a$2333 _a$2334 _a$2335 _a$2336))))) + (lambda (test . body) (let fnrec2330 ((test test) (body (list->cseq body))) (let* ((_a$2334 (var-deref "clojure.core" "__sqcat")) (_a$2335 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "if"))) (_a$2336 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2331 (var-deref "clojure.core" "__sqcat")) (_a$2332 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "not"))) (_a$2333 (jolt-invoke (var-deref "clojure.core" "__sq1") test))) (jolt-invoke _a$2331 _a$2332 _a$2333)))) (_a$2337 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) body)))) (jolt-invoke _a$2334 _a$2335 _a$2336 _a$2337))))) (mark-macro! "clojure.core" "when-not")) (guard (e (#t #f)) (def-var! "clojure.core" "and" - (lambda exprs (let fnrec2337 ((exprs (list->cseq exprs))) (if (jolt-empty? exprs) #t (if (jolt-empty? 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"clojure.core" "and")) (guard (e (#t #f)) (def-var! "clojure.core" "or" - (lambda exprs (let fnrec2353 ((exprs (list->cseq exprs))) (if (jolt-empty? exprs) jolt-nil (if (jolt-empty? 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"clojure.core" "or")) (guard (e (#t #f)) (def-var! 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"clojure.core" "let" - (lambda (bindings . body) (let fnrec2560 ((bindings bindings) (body (list->cseq body))) (let* ((_a$2561 (var-deref "clojure.core" "__sqcat")) (_a$2562 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "let*"))) (_a$2563 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "destructure") bindings)))) (_a$2564 body)) (jolt-invoke _a$2561 _a$2562 _a$2563 _a$2564))))) + (lambda (bindings . body) (let fnrec2561 ((bindings bindings) (body (list->cseq body))) (let* ((_a$2562 (var-deref "clojure.core" "__sqcat")) (_a$2563 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "let*"))) (_a$2564 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "destructure") bindings)))) (_a$2565 body)) (jolt-invoke _a$2562 _a$2563 _a$2564 _a$2565))))) (mark-macro! "clojure.core" "let")) (guard (e (#t #f)) (def-var! "clojure.core" "loop" - (lambda (bindings . body) (let fnrec2565 ((bindings bindings) (body (list->cseq body))) (let* ((d (jolt-invoke (var-deref "clojure.core" "destructure") bindings))) (if (jolt= d bindings) (let* ((_a$2566 (var-deref "clojure.core" "__sqcat")) (_a$2567 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "loop*"))) (_a$2568 (jolt-invoke (var-deref "clojure.core" "__sq1") bindings)) (_a$2569 body)) (jolt-invoke _a$2566 _a$2567 _a$2568 _a$2569)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "take-nth") 2 bindings)) (vs (jolt-invoke (var-deref "clojure.core" "take-nth") 2 (jolt-drop 1 bindings))) (gs (jolt-map (lambda (b) (let fnrec2570 ((b b)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") b)) b (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym"))))))) bs)) (outer (let* ((_a$2572 (lambda (acc t) (let fnrec2571 ((acc acc) (t t)) (let* ((b (jolt-nth t 0)) (v (jolt-nth t 1)) (g (jolt-nth t 2))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") b)) (jolt-conj (jolt-conj acc g) v) (jolt-conj (jolt-conj (jolt-conj (jolt-conj acc g) v) b) g)))))) (_a$2573 (jolt-vector)) (_a$2574 (jolt-map jolt-vector bs vs gs))) (jolt-reduce _a$2572 _a$2573 _a$2574))) (inner (let* ((_a$2578 (lambda (acc t) (let fnrec2575 ((acc acc) (t t)) (let* ((_a$2576 (jolt-conj acc (jolt-nth t 0))) (_a$2577 (jolt-nth t 1))) (jolt-conj _a$2576 _a$2577))))) (_a$2579 (jolt-vector)) (_a$2580 (jolt-map jolt-vector bs gs))) (jolt-reduce _a$2578 _a$2579 _a$2580))) (loopv (let* ((_a$2582 (lambda (acc g) (let fnrec2581 ((acc acc) (g g)) (jolt-conj (jolt-conj acc g) g)))) (_a$2583 (jolt-vector)) (_a$2584 gs)) (jolt-reduce _a$2582 _a$2583 _a$2584)))) (let* ((_a$2593 (var-deref "clojure.core" "__sqcat")) (_a$2594 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$2595 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") outer))) (_a$2596 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2589 (var-deref "clojure.core" "__sqcat")) (_a$2590 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "loop*"))) (_a$2591 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") loopv))) (_a$2592 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2585 (var-deref "clojure.core" "__sqcat")) (_a$2586 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$2587 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") inner))) (_a$2588 body)) (jolt-invoke _a$2585 _a$2586 _a$2587 _a$2588))))) (jolt-invoke _a$2589 _a$2590 _a$2591 _a$2592))))) (jolt-invoke _a$2593 _a$2594 _a$2595 _a$2596)))))))) + (lambda (bindings . body) (let fnrec2566 ((bindings bindings) (body (list->cseq body))) (let* ((d (jolt-invoke (var-deref "clojure.core" "destructure") bindings))) (if (jolt= d bindings) (let* ((_a$2567 (var-deref "clojure.core" "__sqcat")) (_a$2568 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "loop*"))) (_a$2569 (jolt-invoke (var-deref "clojure.core" "__sq1") bindings)) (_a$2570 body)) (jolt-invoke _a$2567 _a$2568 _a$2569 _a$2570)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "take-nth") 2 bindings)) (vs (jolt-invoke (var-deref "clojure.core" "take-nth") 2 (jolt-drop 1 bindings))) (gs (jolt-map (lambda (b) (let fnrec2571 ((b b)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") b)) b (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym"))))))) bs)) (outer (let* ((_a$2573 (lambda (acc t) (let fnrec2572 ((acc acc) (t t)) (let* ((b (jolt-nth t 0)) (v (jolt-nth t 1)) (g (jolt-nth t 2))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") b)) (jolt-conj (jolt-conj acc g) v) (jolt-conj (jolt-conj (jolt-conj (jolt-conj acc g) v) b) g)))))) (_a$2574 (jolt-vector)) (_a$2575 (jolt-map jolt-vector bs vs gs))) (jolt-reduce _a$2573 _a$2574 _a$2575))) (inner (let* ((_a$2579 (lambda (acc t) (let fnrec2576 ((acc acc) (t t)) (let* ((_a$2577 (jolt-conj acc (jolt-nth t 0))) (_a$2578 (jolt-nth t 1))) (jolt-conj _a$2577 _a$2578))))) (_a$2580 (jolt-vector)) (_a$2581 (jolt-map jolt-vector bs gs))) (jolt-reduce _a$2579 _a$2580 _a$2581))) (loopv (let* ((_a$2583 (lambda (acc g) (let fnrec2582 ((acc acc) (g g)) (jolt-conj (jolt-conj acc g) g)))) (_a$2584 (jolt-vector)) (_a$2585 gs)) (jolt-reduce _a$2583 _a$2584 _a$2585)))) (let* ((_a$2594 (var-deref "clojure.core" "__sqcat")) (_a$2595 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$2596 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") outer))) (_a$2597 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2590 (var-deref "clojure.core" "__sqcat")) (_a$2591 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "loop*"))) (_a$2592 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") loopv))) (_a$2593 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2586 (var-deref "clojure.core" "__sqcat")) (_a$2587 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$2588 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") inner))) (_a$2589 body)) (jolt-invoke _a$2586 _a$2587 _a$2588 _a$2589))))) (jolt-invoke _a$2590 _a$2591 _a$2592 _a$2593))))) (jolt-invoke _a$2594 _a$2595 _a$2596 _a$2597)))))))) (mark-macro! "clojure.core" "loop")) (guard (e (#t #f)) (def-var! "clojure.core" "fn" - (lambda raw (let fnrec2597 ((raw (list->cseq raw))) (let* ((nm (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first raw))) (jolt-first raw) jolt-nil)) (aftn (if (jolt-truthy? nm) (jolt-next raw) raw)) (unhint (lambda (x) (let fnrec2598 ((x x)) (if (jolt-truthy? (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (jolt= (jolt-symbol #f "with-meta") (jolt-first x)) #f)) (jolt-nth x 1) x)))) (md (letrec ((go (lambda (ps nps lets) (let fnrec2599 ((ps ps) (nps nps) (lets lets)) (if (jolt-truthy? (jolt-seq ps)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first ps))) (let* ((_a$2600 go) (_a$2601 (jolt-next ps)) (_a$2602 (jolt-conj nps (jolt-first ps))) (_a$2603 lets)) (jolt-invoke _a$2600 _a$2601 _a$2602 _a$2603)) (let* ((g (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym")))))) (let* ((_a$2604 go) (_a$2605 (jolt-next ps)) (_a$2606 (jolt-conj nps g)) (_a$2607 (jolt-conj (jolt-conj lets (jolt-first ps)) g))) (jolt-invoke _a$2604 _a$2605 _a$2606 _a$2607)))) (let* ((_o$2608 nps) (_o$2609 lets)) (jolt-vector _o$2608 _o$2609))))))) go)) (mk (lambda (sig) (let fnrec2610 ((sig sig)) (let* ((ps (jolt-invoke unhint (jolt-first sig))) (hinted (jolt-not (jolt= ps (jolt-first sig)))) (r (let* ((_a$2611 md) (_a$2612 (jolt-seq ps)) (_a$2613 (jolt-vector)) (_a$2614 (jolt-vector))) (jolt-invoke _a$2611 _a$2612 _a$2613 _a$2614)))) (if (jolt-truthy? (if (jolt-empty? (jolt-nth r 1)) (jolt-not hinted) #f)) sig (let* ((pv (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-nth r 0))) (lv (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-nth r 1)))) (if (jolt-empty? (jolt-nth r 1)) (let* ((_a$2615 (var-deref "clojure.core" "__sqcat")) (_a$2616 (jolt-invoke (var-deref "clojure.core" "__sq1") pv)) (_a$2617 (jolt-rest sig))) (jolt-invoke _a$2615 _a$2616 _a$2617)) (let* ((_a$2622 (var-deref "clojure.core" "__sqcat")) (_a$2623 (jolt-invoke (var-deref "clojure.core" "__sq1") pv)) (_a$2624 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2618 (var-deref "clojure.core" "__sqcat")) (_a$2619 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$2620 (jolt-invoke (var-deref "clojure.core" "__sq1") lv)) (_a$2621 (jolt-rest sig))) (jolt-invoke _a$2618 _a$2619 _a$2620 _a$2621))))) (jolt-invoke _a$2622 _a$2623 _a$2624)))))))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") (jolt-invoke unhint (jolt-first aftn)))) (let* ((a (jolt-invoke mk aftn))) (if (jolt-truthy? nm) (let* ((_a$2625 (var-deref "clojure.core" "__sqcat")) (_a$2626 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$2627 (jolt-invoke (var-deref "clojure.core" "__sq1") nm)) (_a$2628 a)) (jolt-invoke _a$2625 _a$2626 _a$2627 _a$2628)) (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*")) a))) (let* ((as (jolt-invoke (var-deref "clojure.core" "vec") (jolt-map mk aftn)))) (if (jolt-truthy? nm) (let* ((_a$2629 (var-deref "clojure.core" "__sqcat")) (_a$2630 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$2631 (jolt-invoke (var-deref "clojure.core" "__sq1") nm)) (_a$2632 as)) (jolt-invoke _a$2629 _a$2630 _a$2631 _a$2632)) (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*")) as)))))))) + (lambda raw (let fnrec2598 ((raw (list->cseq raw))) (let* ((nm (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first raw))) (jolt-first raw) jolt-nil)) (aftn (if (jolt-truthy? nm) (jolt-next raw) raw)) (unhint (lambda (x) (let fnrec2599 ((x x)) (if (jolt-truthy? (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") x)) (jolt= (jolt-symbol #f "with-meta") (jolt-first x)) #f)) (jolt-nth x 1) x)))) (md (letrec ((go (lambda (ps nps lets) (let fnrec2600 ((ps ps) (nps nps) (lets lets)) (if (jolt-truthy? (jolt-seq ps)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first ps))) (let* ((_a$2601 go) (_a$2602 (jolt-next ps)) (_a$2603 (jolt-conj nps (jolt-first ps))) (_a$2604 lets)) (jolt-invoke _a$2601 _a$2602 _a$2603 _a$2604)) (let* ((g (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") (jolt-invoke (var-deref "clojure.core" "gensym")))))) (let* ((_a$2605 go) (_a$2606 (jolt-next ps)) (_a$2607 (jolt-conj nps g)) (_a$2608 (jolt-conj (jolt-conj lets (jolt-first ps)) g))) (jolt-invoke _a$2605 _a$2606 _a$2607 _a$2608)))) (let* ((_o$2609 nps) (_o$2610 lets)) (jolt-vector _o$2609 _o$2610))))))) go)) (mk (lambda (sig) (let fnrec2611 ((sig sig)) (let* ((ps (jolt-invoke unhint (jolt-first sig))) (hinted (jolt-not (jolt= ps (jolt-first sig)))) (r (let* ((_a$2612 md) (_a$2613 (jolt-seq ps)) (_a$2614 (jolt-vector)) (_a$2615 (jolt-vector))) (jolt-invoke _a$2612 _a$2613 _a$2614 _a$2615)))) (if (jolt-truthy? (if (jolt-empty? (jolt-nth r 1)) (jolt-not hinted) #f)) sig (let* ((pv (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-nth r 0))) (lv (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-nth r 1)))) (if (jolt-empty? (jolt-nth r 1)) (let* ((_a$2616 (var-deref "clojure.core" "__sqcat")) (_a$2617 (jolt-invoke (var-deref "clojure.core" "__sq1") pv)) (_a$2618 (jolt-rest sig))) (jolt-invoke _a$2616 _a$2617 _a$2618)) (let* ((_a$2623 (var-deref "clojure.core" "__sqcat")) (_a$2624 (jolt-invoke (var-deref "clojure.core" "__sq1") pv)) (_a$2625 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2619 (var-deref "clojure.core" "__sqcat")) (_a$2620 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "let"))) (_a$2621 (jolt-invoke (var-deref "clojure.core" "__sq1") lv)) (_a$2622 (jolt-rest sig))) (jolt-invoke _a$2619 _a$2620 _a$2621 _a$2622))))) (jolt-invoke _a$2623 _a$2624 _a$2625)))))))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") (jolt-invoke unhint (jolt-first aftn)))) (let* ((a (jolt-invoke mk aftn))) (if (jolt-truthy? nm) (let* ((_a$2626 (var-deref "clojure.core" "__sqcat")) (_a$2627 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$2628 (jolt-invoke (var-deref "clojure.core" "__sq1") nm)) (_a$2629 a)) (jolt-invoke _a$2626 _a$2627 _a$2628 _a$2629)) (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*")) a))) (let* ((as (jolt-invoke (var-deref "clojure.core" "vec") (jolt-map mk aftn)))) (if (jolt-truthy? nm) (let* ((_a$2630 (var-deref "clojure.core" "__sqcat")) (_a$2631 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$2632 (jolt-invoke (var-deref "clojure.core" "__sq1") nm)) (_a$2633 as)) (jolt-invoke _a$2630 _a$2631 _a$2632 _a$2633)) (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*")) as)))))))) (mark-macro! "clojure.core" "fn")) (guard (e (#t #f)) (def-var! "clojure.core" "defn" - (lambda (fn-name . body) (let fnrec2633 ((fn-name fn-name) (body (list->cseq body))) (let* ((body (if (jolt-truthy? (let* ((and__13__auto (jolt-seq body))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first body)) and__13__auto))) (jolt-rest body) body)) (body (if (jolt-truthy? (let* ((and__13__auto (jolt-seq body))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first body)))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first body))) and__13__auto)) and__13__auto))) (jolt-rest body) body)) (fn-only-name (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") fn-name)) fn-name (jolt-first (jolt-rest fn-name))))) (let* ((_a$2638 (var-deref "clojure.core" "__sqcat")) (_a$2639 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$2640 (jolt-invoke (var-deref "clojure.core" "__sq1") fn-name)) (_a$2641 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$2634 (var-deref "clojure.core" "__sqcat")) (_a$2635 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$2636 (jolt-invoke (var-deref "clojure.core" "__sq1") fn-only-name)) (_a$2637 body)) (jolt-invoke _a$2634 _a$2635 _a$2636 _a$2637))))) (jolt-invoke _a$2638 _a$2639 _a$2640 _a$2641)))))) + (lambda (fn-name . body) (let fnrec2634 ((fn-name fn-name) (body (list->cseq body))) (let* ((body (if (jolt-truthy? (let* ((and__13__auto (jolt-seq body))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first body)) and__13__auto))) (jolt-rest body) body)) (body (if (jolt-truthy? (let* ((and__13__auto (jolt-seq body))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first body)))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first body))) and__13__auto)) and__13__auto))) (jolt-rest body) body)) (fn-only-name (if (jolt-truthy? 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"clojure.core" "doseq")) (guard (e (#t #f)) (def-var! 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"clojure.core" "when-let")) (guard (e (#t #f)) (def-var! 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"clojure.core" "lazy-seq")) (guard (e (#t #f)) (def-var! 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"clojure.core" "lazy-cat")) (guard (e (#t #f)) - (def-var! "clojure.core" "not=" (letrec ((not= (case-lambda ((x) (let fnrec2862 ((x x)) #f)) ((x y) (let fnrec2863 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec2864 ((x x) (y y) (more (list->cseq more))) (jolt-not (jolt-apply jolt= x y more))))))) not=))) + (def-var! "clojure.core" "not=" (letrec ((not= (case-lambda ((x) (let fnrec2863 ((x x)) #f)) ((x y) (let fnrec2864 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec2865 ((x x) (y y) (more (list->cseq more))) (jolt-not (jolt-apply jolt= x y more))))))) not=))) (guard (e (#t #f)) - (def-var! "clojure.core" "unreduced" (letrec ((unreduced (lambda (x) (let fnrec2865 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) unreduced))) + (def-var! "clojure.core" "unreduced" (letrec ((unreduced (lambda (x) (let fnrec2866 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) unreduced))) (guard (e (#t #f)) - (def-var! "clojure.core" "second" (letrec ((second (lambda (coll) (let fnrec2866 ((coll coll)) (jolt-first (jolt-next coll)))))) second))) + (def-var! "clojure.core" "second" (letrec ((second (lambda (coll) (let fnrec2867 ((coll coll)) (jolt-first (jolt-next coll)))))) second))) (guard (e (#t #f)) - (def-var! "clojure.core" "peek" (letrec ((peek (lambda (coll) (let fnrec2867 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) jolt-nil (jolt-nth coll (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (jolt-first coll) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "peek not supported on: " coll)) jolt-nil)))))))) peek))) + (def-var! "clojure.core" "peek" (letrec ((peek (lambda (coll) (let fnrec2868 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) jolt-nil (jolt-nth coll (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (jolt-first coll) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "peek not supported on: " coll)) jolt-nil)))))))) peek))) (guard (e (#t #f)) - (def-var! "clojure.core" "subvec" (letrec ((subvec (case-lambda ((v start) (let fnrec2868 ((v v) (start start)) (jolt-invoke subvec v start (jolt-count v)))) ((v start end) (let fnrec2869 ((v v) (start start) (end end)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "vector?") v)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec requires a vector")) jolt-nil) (let* ((coerce (lambda (x) (let fnrec2870 ((x x)) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index must be a number")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") x x)) 0 (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "long") x) jolt-nil)))))) (s (jolt-invoke coerce start)) (e (jolt-invoke coerce end))) (begin (if (jolt-truthy? (let* ((or__14__auto (< s 0))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (< e s))) (if (jolt-truthy? or__14__auto) or__14__auto (< (jolt-count v) e)))))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index out of range: " s " " e)) jolt-nil) (let* ((i s) (acc (jolt-vector))) (let loop2871 ((i i) (acc acc)) (if (< i e) (let* ((_a$2872 (jolt-inc i)) (_a$2873 (jolt-conj acc (jolt-nth v i)))) (loop2871 _a$2872 _a$2873)) acc))))))))))) subvec))) + (def-var! "clojure.core" "subvec" (letrec ((subvec (case-lambda ((v start) (let fnrec2869 ((v v) (start start)) (jolt-invoke subvec v start (jolt-count v)))) ((v start end) (let fnrec2870 ((v v) (start start) (end end)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "vector?") v)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec requires a vector")) jolt-nil) (let* ((coerce (lambda (x) (let fnrec2871 ((x x)) (if (jolt-not (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index must be a number")) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not=") x x)) 0 (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "long") x) jolt-nil)))))) (s (jolt-invoke coerce start)) (e (jolt-invoke coerce end))) (begin (if (jolt-truthy? (let* ((or__14__auto (< s 0))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (< e s))) (if (jolt-truthy? or__14__auto) or__14__auto (< (jolt-count v) e)))))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "subvec index out of range: " s " " e)) jolt-nil) (let* ((i s) (acc (jolt-vector))) (let loop2872 ((i i) (acc acc)) (if (< i e) (let* ((_a$2873 (jolt-inc i)) (_a$2874 (jolt-conj acc (jolt-nth v i)))) (loop2872 _a$2873 _a$2874)) acc))))))))))) subvec))) (guard (e (#t #f)) - (def-var! "clojure.core" "mapv" (letrec ((mapv (lambda (f . colls) (let fnrec2874 ((f f) (colls (list->cseq colls))) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-apply jolt-map f colls)))))) mapv))) + (def-var! "clojure.core" "mapv" (letrec ((mapv (lambda (f . colls) (let fnrec2875 ((f f) (colls (list->cseq colls))) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-apply jolt-map f colls)))))) mapv))) (guard (e (#t #f)) - (def-var! "clojure.core" "update" (letrec ((update (lambda (m k f . args) (let fnrec2875 ((m m) (k k) (f f) (args (list->cseq args))) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))) update))) + (def-var! "clojure.core" "update" (letrec ((update (lambda (m k f . args) (let fnrec2876 ((m m) (k k) (f f) (args (list->cseq args))) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))) update))) (guard (e (#t #f)) - (def-var! "clojure.core" "vreset!" (letrec ((vreset! (lambda (vol newval) (let fnrec1680 ((vol vol) (newval newval)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") vol (keyword #f "val") newval) newval))))) vreset!))) + (def-var! "clojure.core" "vreset!" (letrec ((vreset! (lambda (vol newval) (let fnrec2046 ((vol vol) (newval newval)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") vol (keyword #f "val") newval) newval))))) vreset!))) (guard (e (#t #f)) - (def-var! "clojure.core" "vswap!" (letrec ((vswap! 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"clojure.core" "nfirst" (letrec ((nfirst (lambda (coll) (let fnrec2049 ((coll coll)) (jolt-next (jolt-first coll)))))) nfirst))) (guard (e (#t #f)) - (def-var! "clojure.core" "fnext" (letrec ((fnext (lambda (coll) (let fnrec1684 ((coll coll)) (jolt-first (jolt-next coll)))))) fnext))) + (def-var! "clojure.core" "fnext" (letrec ((fnext (lambda (coll) (let fnrec2050 ((coll coll)) (jolt-first (jolt-next coll)))))) fnext))) (guard (e (#t #f)) - (def-var! "clojure.core" "nnext" (letrec ((nnext (lambda (coll) (let fnrec1685 ((coll coll)) (jolt-next (jolt-next coll)))))) nnext))) + (def-var! "clojure.core" "nnext" (letrec ((nnext (lambda (coll) (let fnrec2051 ((coll coll)) (jolt-next (jolt-next coll)))))) nnext))) (guard (e (#t #f)) - (def-var! "clojure.core" "last" (letrec ((last (lambda (s) (let fnrec1686 ((s s)) (if (jolt-truthy? (jolt-next s)) (fnrec1686 (jolt-next s)) (jolt-first s)))))) last))) + (def-var! 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(let* ((or__14__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") started)))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= val (jolt-invoke (var-deref "clojure.core" "deref") pv))))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) result) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (let* ((ret (jolt-invoke rf result b))) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "reduced?") ret)) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) jolt-nil) ret)))))))))))))) ((f coll) (let fnrec1696 ((f f) (coll coll)) (let* ((step (letrec ((step (lambda (s) (let fnrec1697 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1698 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((fst (jolt-first s)) (fv (jolt-invoke f fst)) (run (jolt-cons fst (let* ((_a$1700 (var-deref "clojure.core" "take-while")) (_a$1701 (lambda (x) (let fnrec1699 ((x x)) (jolt= fv (jolt-invoke f x))))) (_a$1702 (jolt-rest s))) (jolt-invoke _a$1700 _a$1701 _a$1702))))) (jolt-cons run (jolt-invoke step (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1703 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-drop (jolt-count run) s)))))))) jolt-nil)))))))))) step))) (jolt-invoke step coll))))))) partition-by))) + (def-var! "clojure.core" "partition-by" (letrec ((partition-by (case-lambda ((f) (let fnrec2057 ((f f)) (lambda (rf) (let fnrec2058 ((rf rf)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector))) (pv (jolt-invoke (var-deref "clojure.core" "volatile!") jolt-nil)) (started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec2059 () (jolt-invoke rf))) ((result) (let fnrec2060 ((result result)) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf)) (result (if (jolt-zero? (jolt-count b)) result (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result b)))))) (jolt-invoke rf result)))) ((result input) (let fnrec2061 ((result result) (input input)) (let* ((val (jolt-invoke f input))) (if (jolt-truthy? (let* ((or__14__auto (jolt-not (jolt-invoke (var-deref "clojure.core" "deref") started)))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= val (jolt-invoke (var-deref "clojure.core" "deref") pv))))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) result) (let* ((b (jolt-invoke (var-deref "clojure.core" "deref") buf))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") buf (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "vreset!") pv val) (let* ((ret (jolt-invoke rf result b))) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "reduced?") ret)) (jolt-invoke (var-deref "clojure.core" "vswap!") buf jolt-conj input) jolt-nil) ret)))))))))))))) ((f coll) (let fnrec2062 ((f f) (coll coll)) (let* ((step (letrec ((step (lambda (s) (let fnrec2063 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2064 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((fst (jolt-first s)) (fv (jolt-invoke f fst)) (run (jolt-cons fst (let* ((_a$2066 (var-deref "clojure.core" "take-while")) (_a$2067 (lambda (x) (let fnrec2065 ((x x)) (jolt= fv (jolt-invoke f x))))) (_a$2068 (jolt-rest s))) (jolt-invoke _a$2066 _a$2067 _a$2068))))) (jolt-cons run (jolt-invoke step (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2069 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-drop (jolt-count run) s)))))))) jolt-nil)))))))))) step))) (jolt-invoke step coll))))))) partition-by))) (guard (e (#t #f)) - (def-var! "clojure.core" "some?" (letrec ((some? (lambda (x) (let fnrec1704 ((x x)) (jolt-not (jolt-invoke (var-deref "clojure.core" "nil?") x)))))) some?))) + (def-var! "clojure.core" "some?" (letrec ((some? (lambda (x) (let fnrec2070 ((x x)) (jolt-not (jolt-invoke (var-deref "clojure.core" "nil?") x)))))) some?))) (guard (e (#t #f)) - (def-var! "clojure.core" "identity" (letrec ((identity (lambda (x) (let fnrec1705 ((x x)) x)))) identity))) + (def-var! "clojure.core" "identity" (letrec ((identity (lambda (x) (let fnrec2071 ((x x)) x)))) identity))) (guard (e (#t #f)) - (def-var! "clojure.core" "constantly" (letrec ((constantly (lambda (x) (let fnrec1706 ((x x)) (lambda args (let fnrec1707 ((args (list->cseq args))) x)))))) constantly))) + (def-var! "clojure.core" "constantly" (letrec ((constantly (lambda (x) (let fnrec2072 ((x x)) (lambda args (let fnrec2073 ((args (list->cseq args))) x)))))) constantly))) (guard (e (#t #f)) - (def-var! "clojure.core" "neg?" (letrec ((neg? (lambda (x) (let fnrec1708 ((x x)) (< x 0))))) neg?))) + (def-var! "clojure.core" "neg?" (letrec ((neg? (lambda (x) (let fnrec2074 ((x x)) (< x 0))))) neg?))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-and" (letrec ((bit-and (case-lambda ((x y) (let fnrec1709 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and") x y))) ((x y . more) (let fnrec1710 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and") (jolt-invoke (var-deref "clojure.core" "__bit-and") x y) more)))))) bit-and))) + (def-var! "clojure.core" "bit-and" (letrec ((bit-and (case-lambda ((x y) (let fnrec2075 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and") x y))) ((x y . more) (let fnrec2076 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and") (jolt-invoke (var-deref "clojure.core" "__bit-and") x y) more)))))) bit-and))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-or" (letrec ((bit-or (case-lambda ((x y) (let fnrec1711 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-or") x y))) ((x y . more) (let fnrec1712 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-or") (jolt-invoke (var-deref "clojure.core" "__bit-or") x y) more)))))) bit-or))) + (def-var! "clojure.core" "bit-or" (letrec ((bit-or (case-lambda ((x y) (let fnrec2077 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-or") x y))) ((x y . more) (let fnrec2078 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-or") (jolt-invoke (var-deref "clojure.core" "__bit-or") x y) more)))))) bit-or))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-xor" (letrec ((bit-xor (case-lambda ((x y) (let fnrec1713 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y))) ((x y . more) (let fnrec1714 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-xor") (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y) more)))))) bit-xor))) + (def-var! "clojure.core" "bit-xor" (letrec ((bit-xor (case-lambda ((x y) (let fnrec2079 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y))) ((x y . more) (let fnrec2080 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-xor") (jolt-invoke (var-deref "clojure.core" "__bit-xor") x y) more)))))) bit-xor))) (guard (e (#t #f)) - (def-var! "clojure.core" "bit-and-not" (letrec ((bit-and-not (case-lambda ((x y) (let fnrec1715 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y))) ((x y . more) (let fnrec1716 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and-not") (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y) more)))))) bit-and-not))) + (def-var! "clojure.core" "bit-and-not" (letrec ((bit-and-not (case-lambda ((x y) (let fnrec2081 ((x x) (y y)) (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y))) ((x y . more) (let fnrec2082 ((x x) (y y) (more (list->cseq more))) (jolt-reduce (var-deref "clojure.core" "__bit-and-not") (jolt-invoke (var-deref "clojure.core" "__bit-and-not") x y) more)))))) bit-and-not))) (guard (e (#t #f)) - (def-var! "clojure.core" "pr-str" (letrec ((pr-str (lambda xs (let fnrec1717 ((xs (list->cseq xs))) (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop1718 ((out out) (s s) (first? first?)) 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"clojure.core" "pr" (letrec ((pr (lambda xs (let fnrec1726 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (jolt-apply (var-deref "clojure.core" "pr-str") xs)) jolt-nil))))) pr))) + (def-var! "clojure.core" "pr" (letrec ((pr (lambda xs (let fnrec2092 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (jolt-apply (var-deref "clojure.core" "pr-str") xs)) jolt-nil))))) pr))) (guard (e (#t #f)) - (def-var! "clojure.core" "prn" (letrec ((prn (lambda xs (let fnrec1727 ((xs (list->cseq xs))) (begin (jolt-apply (var-deref "clojure.core" "pr") xs) (jolt-invoke (var-deref "clojure.core" "__write") "\n") jolt-nil))))) prn))) + (def-var! "clojure.core" "prn" (letrec ((prn (lambda xs (let fnrec2093 ((xs (list->cseq xs))) (begin (jolt-apply (var-deref "clojure.core" "pr") xs) (jolt-invoke (var-deref "clojure.core" "__write") "\n") jolt-nil))))) prn))) (guard (e (#t #f)) - (def-var! "clojure.core" "print" (letrec ((print (lambda xs (let fnrec1728 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop1729 ((out out) (s s) (first? first?)) (if (jolt-truthy? s) (let* ((x (jolt-first s)) (r (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") x)) "nil" (jolt-invoke (var-deref "clojure.core" "str") x)))) (let* ((_a$1730 (jolt-invoke (var-deref "clojure.core" "str") out (if (jolt-truthy? first?) "" " ") r)) (_a$1731 (jolt-next s)) (_a$1732 #f)) (loop1729 _a$1730 _a$1731 _a$1732))) out)))) jolt-nil))))) print))) + (def-var! "clojure.core" "print" (letrec ((print (lambda xs (let fnrec2094 ((xs (list->cseq xs))) (begin (jolt-invoke (var-deref "clojure.core" "__write") (let* ((out "") (s (jolt-seq xs)) (first? #t)) (let loop2095 ((out out) (s s) (first? first?)) (if (jolt-truthy? s) (let* ((x (jolt-first s)) (r (if (jolt-truthy? 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"clojure.core" "frequencies" (letrec ((frequencies (lambda (coll) (let fnrec1734 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "persistent!") (let* ((_a$1736 (lambda (counts x) (let fnrec1735 ((counts counts) (x x)) (jolt-invoke (var-deref "clojure.core" "assoc!") counts x (jolt-inc (jolt-get counts x 0)))))) (_a$1737 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (_a$1738 coll)) (jolt-reduce _a$1736 _a$1737 _a$1738))))))) frequencies))) + (def-var! "clojure.core" "frequencies" (letrec ((frequencies (lambda (coll) (let fnrec2100 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "persistent!") (let* ((_a$2102 (lambda (counts x) (let fnrec2101 ((counts counts) (x x)) (jolt-invoke (var-deref "clojure.core" "assoc!") counts x (jolt-inc (jolt-get counts x 0)))))) (_a$2103 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (_a$2104 coll)) (jolt-reduce _a$2102 _a$2103 _a$2104))))))) frequencies))) (guard (e (#t #f)) - (def-var! "clojure.core" "group-by" (letrec ((group-by (lambda (f coll) (let fnrec1739 ((f f) (coll coll)) (let* ((tm (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (ks (let* ((_a$1741 (lambda (ks x) (let fnrec1740 ((ks ks) (x x)) (let* ((k (jolt-invoke f x)) (b (jolt-get tm k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-vector x)) (jolt-invoke (var-deref "clojure.core" "conj!") ks k)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "conj!") (jolt-invoke (var-deref "clojure.core" "transient") b) x)) ks) (begin (jolt-invoke (var-deref "clojure.core" "conj!") b x) ks))))))) (_a$1742 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (_a$1743 coll)) (jolt-reduce _a$1741 _a$1742 _a$1743)))) (begin (let* ((_a$1745 (lambda (_ k) (let fnrec1744 ((_ _) (k k)) (let* ((b (jolt-get tm k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) jolt-nil (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "persistent!") b))))))) (_a$1746 jolt-nil) (_a$1747 (jolt-invoke (var-deref "clojure.core" "persistent!") ks))) (jolt-reduce _a$1745 _a$1746 _a$1747)) (jolt-invoke (var-deref "clojure.core" "persistent!") tm))))))) group-by))) + (def-var! "clojure.core" "group-by" (letrec ((group-by (lambda (f coll) (let fnrec2105 ((f f) (coll coll)) (let* ((tm (jolt-invoke (var-deref "clojure.core" "transient") (jolt-hash-map))) (ks (let* ((_a$2107 (lambda (ks x) (let fnrec2106 ((ks ks) (x x)) (let* ((k (jolt-invoke f x)) (b (jolt-get tm k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-vector x)) (jolt-invoke (var-deref "clojure.core" "conj!") ks k)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) (begin (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "conj!") (jolt-invoke (var-deref "clojure.core" "transient") b) x)) ks) (begin (jolt-invoke (var-deref "clojure.core" "conj!") b x) ks))))))) (_a$2108 (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (_a$2109 coll)) (jolt-reduce _a$2107 _a$2108 _a$2109)))) (begin (let* ((_a$2111 (lambda (_ k) (let fnrec2110 ((_ _) (k k)) (let* ((b (jolt-get tm k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") b)) jolt-nil (jolt-invoke (var-deref "clojure.core" "assoc!") tm k (jolt-invoke (var-deref "clojure.core" "persistent!") b))))))) (_a$2112 jolt-nil) (_a$2113 (jolt-invoke (var-deref "clojure.core" "persistent!") ks))) (jolt-reduce _a$2111 _a$2112 _a$2113)) (jolt-invoke (var-deref "clojure.core" "persistent!") tm))))))) group-by))) (guard (e (#t #f)) - (def-var! "clojure.core" "not-empty" (letrec ((not-empty (lambda (coll) (let fnrec1748 ((coll coll)) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") coll))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-zero? (jolt-count coll))))) jolt-nil coll))))) not-empty))) + (def-var! "clojure.core" "not-empty" (letrec ((not-empty (lambda (coll) (let fnrec2114 ((coll coll)) (if (jolt-truthy? (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") coll))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-zero? (jolt-count coll))))) jolt-nil coll))))) not-empty))) (guard (e (#t #f)) - (def-var! "clojure.core" "filterv" (letrec ((filterv (lambda (pred coll) (let fnrec1749 ((pred pred) (coll coll)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-filter pred coll)))))) filterv))) + (def-var! "clojure.core" "filterv" (letrec ((filterv (lambda (pred coll) (let fnrec2115 ((pred pred) (coll coll)) (jolt-invoke (var-deref "clojure.core" "vec") (jolt-filter pred coll)))))) filterv))) (guard (e (#t #f)) - (def-var! "clojure.core" "max-key" (letrec ((max-key (case-lambda ((k x) (let fnrec1750 ((k k) (x x)) x)) ((k x y) (let fnrec1751 ((k k) (x x) (y y)) (if (let* ((_a$1752 (jolt-invoke k x)) (_a$1753 (jolt-invoke k y))) (> _a$1752 _a$1753)) x y))) ((k x y . more) (let fnrec1754 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (> kx ky) x y)) (kv (if (> kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop1755 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (>= kw kv) (loop1755 w kw (jolt-next more)) (loop1755 v kv (jolt-next more)))) v))))))))) max-key))) + (def-var! "clojure.core" "max-key" (letrec ((max-key (case-lambda ((k x) (let fnrec2116 ((k k) (x x)) x)) ((k x y) (let fnrec2117 ((k k) (x x) (y y)) (if (let* ((_a$2118 (jolt-invoke k x)) (_a$2119 (jolt-invoke k y))) (> _a$2118 _a$2119)) x y))) ((k x y . more) (let fnrec2120 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (> kx ky) x y)) (kv (if (> kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop2121 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (>= kw kv) (loop2121 w kw (jolt-next more)) (loop2121 v kv (jolt-next more)))) v))))))))) max-key))) (guard (e (#t #f)) - (def-var! "clojure.core" "min-key" (letrec ((min-key (case-lambda ((k x) (let fnrec1756 ((k k) (x x)) x)) ((k x y) (let fnrec1757 ((k k) (x x) (y y)) (if (let* ((_a$1758 (jolt-invoke k x)) (_a$1759 (jolt-invoke k y))) (< _a$1758 _a$1759)) x y))) ((k x y . more) (let fnrec1760 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (< kx ky) x y)) (kv (if (< kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop1761 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (<= kw kv) (loop1761 w kw (jolt-next more)) (loop1761 v kv (jolt-next more)))) v))))))))) min-key))) + (def-var! "clojure.core" "min-key" (letrec ((min-key (case-lambda ((k x) (let fnrec2122 ((k k) (x x)) x)) ((k x y) (let fnrec2123 ((k k) (x x) (y y)) (if (let* ((_a$2124 (jolt-invoke k x)) (_a$2125 (jolt-invoke k y))) (< _a$2124 _a$2125)) x y))) ((k x y . more) (let fnrec2126 ((k k) (x x) (y y) (more (list->cseq more))) (let* ((kx (jolt-invoke k x)) (ky (jolt-invoke k y)) (v (if (< kx ky) x y)) (kv (if (< kx ky) kx ky))) (let* ((v v) (kv kv) (more more)) (let loop2127 ((v v) (kv kv) (more more)) (if (jolt-truthy? (jolt-seq more)) (let* ((w (jolt-first more)) (kw (jolt-invoke k w))) (if (<= kw kv) (loop2127 w kw (jolt-next more)) (loop2127 v kv (jolt-next more)))) v))))))))) min-key))) (guard (e (#t #f)) - (def-var! "clojure.core" "juxt" (letrec ((juxt (lambda fs (let fnrec1762 ((fs (list->cseq fs))) (lambda args (let fnrec1763 ((args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (f) (let fnrec1764 ((f f)) (jolt-apply f args))) fs))))))) juxt))) + (def-var! "clojure.core" "juxt" (letrec ((juxt (lambda fs (let fnrec2128 ((fs (list->cseq fs))) (lambda args (let fnrec2129 ((args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (f) (let fnrec2130 ((f f)) (jolt-apply f args))) fs))))))) juxt))) (guard (e (#t #f)) - (def-var! "clojure.core" "every-pred" (letrec ((every-pred (lambda preds (let fnrec1765 ((preds (list->cseq preds))) (lambda xs (let fnrec1766 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p) (let fnrec1767 ((p p)) (jolt-invoke (var-deref "clojure.core" "every?") p xs))) preds))))))) every-pred))) + (def-var! "clojure.core" "every-pred" (letrec ((every-pred (lambda preds (let fnrec2131 ((preds (list->cseq preds))) (lambda xs (let fnrec2132 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (p) (let fnrec2133 ((p p)) (jolt-invoke (var-deref "clojure.core" "every?") p xs))) preds))))))) every-pred))) (guard (e (#t #f)) - (def-var! "clojure.core" "some" (letrec ((some (lambda (pred coll) (let fnrec1768 ((pred pred) (coll coll)) (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((or__14__auto (jolt-invoke pred (jolt-first s)))) (if (jolt-truthy? or__14__auto) or__14__auto (fnrec1768 pred (jolt-next s))))) jolt-nil)))))) some))) + (def-var! "clojure.core" "some" (letrec ((some (lambda (pred coll) (let fnrec2134 ((pred pred) (coll coll)) (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((or__14__auto (jolt-invoke pred (jolt-first s)))) (if (jolt-truthy? or__14__auto) or__14__auto (fnrec2134 pred (jolt-next s))))) jolt-nil)))))) some))) (guard (e (#t #f)) - (def-var! "clojure.core" "some-fn" (letrec ((some-fn (lambda preds (let fnrec1769 ((preds (list->cseq preds))) (lambda xs (let fnrec1770 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "some") (lambda (p) (let fnrec1771 ((p p)) (jolt-invoke (var-deref "clojure.core" "some") p xs))) preds))))))) some-fn))) + (def-var! "clojure.core" "some-fn" (letrec ((some-fn (lambda preds (let fnrec2135 ((preds (list->cseq preds))) (lambda xs (let fnrec2136 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "some") (lambda (p) (let fnrec2137 ((p p)) (jolt-invoke (var-deref "clojure.core" "some") p xs))) preds))))))) some-fn))) (guard (e (#t #f)) - (def-var! "clojure.core" "not-any?" (letrec ((not-any? (lambda (pred coll) (let fnrec1772 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "some") pred coll)))))) not-any?))) + (def-var! "clojure.core" "not-any?" (letrec ((not-any? (lambda (pred coll) (let fnrec2138 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "some") pred coll)))))) not-any?))) (guard (e (#t #f)) - (def-var! "clojure.core" "not-every?" (letrec ((not-every? (lambda (pred coll) (let fnrec1773 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") pred coll)))))) not-every?))) + (def-var! "clojure.core" "not-every?" (letrec ((not-every? (lambda (pred coll) (let fnrec2139 ((pred pred) (coll coll)) (jolt-not (jolt-invoke (var-deref "clojure.core" "every?") pred coll)))))) not-every?))) (guard (e (#t #f)) - (def-var! "clojure.core" "split-at" (letrec ((split-at (lambda (n coll) (let fnrec1774 ((n n) (coll coll)) (let* ((_o$1775 (jolt-take n coll)) (_o$1776 (jolt-drop n coll))) (jolt-vector _o$1775 _o$1776)))))) split-at))) + (def-var! "clojure.core" "split-at" (letrec ((split-at (lambda (n coll) (let fnrec2140 ((n n) (coll coll)) (let* ((_o$2141 (jolt-take n coll)) (_o$2142 (jolt-drop n coll))) (jolt-vector _o$2141 _o$2142)))))) split-at))) (guard (e (#t #f)) - (def-var! "clojure.core" "split-with" (letrec ((split-with (lambda (pred coll) (let fnrec1777 ((pred pred) (coll coll)) (let* ((_o$1778 (jolt-invoke (var-deref "clojure.core" "take-while") pred coll)) (_o$1779 (jolt-invoke (var-deref "clojure.core" "drop-while") pred coll))) (jolt-vector _o$1778 _o$1779)))))) split-with))) + (def-var! "clojure.core" "split-with" (letrec ((split-with (lambda (pred coll) (let fnrec2143 ((pred pred) (coll coll)) (let* ((_o$2144 (jolt-invoke (var-deref "clojure.core" "take-while") pred coll)) (_o$2145 (jolt-invoke (var-deref "clojure.core" "drop-while") pred coll))) (jolt-vector _o$2144 _o$2145)))))) split-with))) (guard (e (#t #f)) - (def-var! "clojure.core" "qualified-keyword?" (letrec ((qualified-keyword? (lambda (x) (let fnrec1780 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) qualified-keyword?))) + (def-var! "clojure.core" "qualified-keyword?" (letrec ((qualified-keyword? (lambda (x) (let fnrec2146 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) qualified-keyword?))) (guard (e (#t #f)) - (def-var! "clojure.core" "simple-keyword?" (letrec ((simple-keyword? (lambda (x) (let fnrec1781 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) simple-keyword?))) + (def-var! "clojure.core" "simple-keyword?" (letrec ((simple-keyword? (lambda (x) (let fnrec2147 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) simple-keyword?))) (guard (e (#t #f)) - (def-var! "clojure.core" "qualified-symbol?" (letrec ((qualified-symbol? (lambda (x) (let fnrec1782 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) qualified-symbol?))) + (def-var! "clojure.core" "qualified-symbol?" (letrec ((qualified-symbol? (lambda (x) (let fnrec2148 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) qualified-symbol?))) (guard (e (#t #f)) - (def-var! "clojure.core" "simple-symbol?" (letrec ((simple-symbol? (lambda (x) (let fnrec1783 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) simple-symbol?))) + (def-var! "clojure.core" "simple-symbol?" (letrec ((simple-symbol? (lambda (x) (let fnrec2149 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "namespace") x)) and__13__auto)))))) simple-symbol?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ident?" (letrec ((ident? (lambda (x) (let fnrec1784 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))))))) ident?))) + (def-var! "clojure.core" "ident?" (letrec ((ident? (lambda (x) (let fnrec2150 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))))))) ident?))) (guard (e (#t #f)) - (def-var! "clojure.core" "qualified-ident?" (letrec ((qualified-ident? (lambda (x) (let fnrec1785 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "qualified-symbol?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "qualified-keyword?") x))))))) qualified-ident?))) + (def-var! "clojure.core" "qualified-ident?" (letrec ((qualified-ident? (lambda (x) (let fnrec2151 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "qualified-symbol?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "qualified-keyword?") x))))))) qualified-ident?))) (guard (e (#t #f)) - (def-var! "clojure.core" "simple-ident?" (letrec ((simple-ident? (lambda (x) (let fnrec1786 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "simple-symbol?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "simple-keyword?") x))))))) simple-ident?))) + (def-var! "clojure.core" "simple-ident?" (letrec ((simple-ident? (lambda (x) (let fnrec2152 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "simple-symbol?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "simple-keyword?") x))))))) simple-ident?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ratio?" (letrec ((ratio? (lambda (x) (let fnrec1787 ((x x)) #f)))) ratio?))) + (def-var! "clojure.core" "ratio?" (letrec ((ratio? (lambda (x) (let fnrec2153 ((x x)) #f)))) ratio?))) (guard (e (#t #f)) - (def-var! "clojure.core" "decimal?" (letrec ((decimal? (lambda (x) (let fnrec1788 ((x x)) #f)))) decimal?))) + (def-var! "clojure.core" "decimal?" (letrec ((decimal? (lambda (x) (let fnrec2154 ((x x)) #f)))) decimal?))) (guard (e (#t #f)) - (def-var! "clojure.core" "class?" (letrec ((class? (lambda (x) (let fnrec1789 ((x x)) #f)))) class?))) + (def-var! "clojure.core" "class?" (letrec ((class? (lambda (x) (let fnrec2155 ((x x)) #f)))) class?))) (guard (e (#t #f)) - (def-var! "clojure.core" "rational?" (letrec ((rational? (lambda (x) (let fnrec1790 ((x x)) (jolt-invoke (var-deref "clojure.core" "int?") x))))) rational?))) + (def-var! "clojure.core" "rational?" (letrec ((rational? (lambda (x) (let fnrec2156 ((x x)) (jolt-invoke (var-deref "clojure.core" "int?") x))))) rational?))) (guard (e (#t #f)) - (def-var! "clojure.core" "nat-int?" (letrec ((nat-int? (lambda (x) (let fnrec1791 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__13__auto) (>= x 0) and__13__auto)))))) nat-int?))) + (def-var! "clojure.core" "nat-int?" (letrec ((nat-int? (lambda (x) (let fnrec2157 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__13__auto) (>= x 0) and__13__auto)))))) nat-int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "neg-int?" (letrec ((neg-int? (lambda (x) (let fnrec1792 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__13__auto) (jolt-neg? x) and__13__auto)))))) neg-int?))) + (def-var! "clojure.core" "neg-int?" (letrec ((neg-int? (lambda (x) (let fnrec2158 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__13__auto) (jolt-neg? x) and__13__auto)))))) neg-int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "pos-int?" (letrec ((pos-int? (lambda (x) (let fnrec1793 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__13__auto) (jolt-pos? x) and__13__auto)))))) pos-int?))) + (def-var! "clojure.core" "pos-int?" (letrec ((pos-int? (lambda (x) (let fnrec2159 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "int?") x))) (if (jolt-truthy? and__13__auto) (jolt-pos? x) and__13__auto)))))) pos-int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "replicate" (letrec ((replicate (lambda (n x) (let fnrec1794 ((n n) (x x)) (let* ((_a$1796 (lambda (_) (let fnrec1795 ((_ _)) x))) (_a$1797 (jolt-range n))) (jolt-map _a$1796 _a$1797)))))) replicate))) + (def-var! "clojure.core" "replicate" (letrec ((replicate (lambda (n x) (let fnrec2160 ((n n) (x x)) (let* ((_a$2162 (lambda (_) (let fnrec2161 ((_ _)) x))) (_a$2163 (jolt-range n))) (jolt-map _a$2162 _a$2163)))))) replicate))) (guard (e (#t #f)) - (def-var! "clojure.core" "take-last" (letrec ((take-last (lambda (n coll) (let fnrec1798 ((n n) (coll coll)) (let* ((c (jolt-invoke (var-deref "clojure.core" "vec") coll)) (len (jolt-count c))) (if (jolt-pos? len) (jolt-invoke (var-deref "clojure.core" "subvec") c (max 0 (- len n))) jolt-nil)))))) take-last))) + (def-var! "clojure.core" "take-last" (letrec ((take-last (lambda (n coll) (let fnrec2164 ((n n) (coll coll)) (let* ((c (jolt-invoke (var-deref "clojure.core" "vec") coll)) (len (jolt-count c))) (if (jolt-pos? len) (jolt-seq (jolt-invoke (var-deref "clojure.core" "subvec") c (max 0 (- len n)))) jolt-nil)))))) take-last))) (guard (e (#t #f)) - (def-var! "clojure.core" "drop-last" (letrec ((drop-last (case-lambda ((coll) (let fnrec1799 ((coll coll)) (jolt-invoke drop-last 1 coll))) ((n coll) (let fnrec1800 ((n n) (coll coll)) (let* ((c (jolt-invoke (var-deref "clojure.core" "vec") coll))) (jolt-invoke (var-deref "clojure.core" "subvec") c 0 (max 0 (- (jolt-count c) n))))))))) drop-last))) + (def-var! "clojure.core" "drop-last" (letrec ((drop-last (case-lambda ((coll) (let fnrec2165 ((coll coll)) (jolt-invoke drop-last 1 coll))) ((n coll) (let fnrec2166 ((n n) (coll coll)) (let* ((_a$2168 (lambda (x _) (let fnrec2167 ((x x) (_ _)) x))) (_a$2169 coll) (_a$2170 (jolt-drop n coll))) (jolt-map _a$2168 _a$2169 _a$2170))))))) drop-last))) (guard (e (#t #f)) - (def-var! "clojure.core" "distinct?" (letrec ((distinct? (case-lambda ((x) (let fnrec1801 ((x x)) #t)) ((x y) (let fnrec1802 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec1803 ((x x) (y y) (more (list->cseq more))) (if (jolt-not (jolt= x y)) (let* ((s (let* ((_o$1805 x) (_o$1806 y)) (jolt-hash-set _o$1805 _o$1806))) (xs more)) (let loop1804 ((s s) (xs xs)) (if (jolt-truthy? xs) (let* ((x (jolt-first xs))) (if (jolt-contains? s x) #f (let* ((_a$1807 (jolt-conj s x)) (_a$1808 (jolt-next xs))) (loop1804 _a$1807 _a$1808)))) #t))) #f)))))) distinct?))) + (def-var! "clojure.core" "distinct?" (letrec ((distinct? (case-lambda ((x) (let fnrec2171 ((x x)) #t)) ((x y) (let fnrec2172 ((x x) (y y)) (jolt-not (jolt= x y)))) ((x y . more) (let fnrec2173 ((x x) (y y) (more (list->cseq more))) (if (jolt-not (jolt= x y)) (let* ((s (let* ((_o$2175 x) (_o$2176 y)) (jolt-hash-set _o$2175 _o$2176))) (xs more)) (let loop2174 ((s s) (xs xs)) (if (jolt-truthy? xs) (let* ((x (jolt-first xs))) (if (jolt-contains? s x) #f (let* ((_a$2177 (jolt-conj s x)) (_a$2178 (jolt-next xs))) (loop2174 _a$2177 _a$2178)))) #t))) #f)))))) distinct?))) (guard (e (#t #f)) - (def-var! "clojure.core" "replace" (letrec ((replace (lambda (smap coll) (let fnrec1809 ((smap smap) (coll coll)) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (x) (let fnrec1810 ((x x)) (jolt-get smap x x))) coll))))) replace))) + (def-var! "clojure.core" "replace" (letrec ((replace (lambda (smap coll) (let fnrec2179 ((smap smap) (coll coll)) (jolt-invoke (var-deref "clojure.core" "mapv") (lambda (x) (let fnrec2180 ((x x)) (jolt-get smap x x))) coll))))) replace))) (guard (e (#t #f)) - (def-var! "clojure.core" "nthnext" (letrec ((nthnext (lambda (coll n) (let fnrec1811 ((coll coll) (n n)) (let* ((n n) (xs (jolt-seq coll))) (let loop1812 ((n n) (xs xs)) (if (jolt-truthy? (let* ((and__13__auto xs)) (if (jolt-truthy? and__13__auto) (jolt-pos? n) and__13__auto))) (let* ((_a$1813 (jolt-dec n)) (_a$1814 (jolt-next xs))) (loop1812 _a$1813 _a$1814)) xs))))))) nthnext))) + (def-var! "clojure.core" "nthnext" (letrec ((nthnext (lambda (coll n) (let fnrec2181 ((coll coll) (n n)) (let* ((n n) (xs (jolt-seq coll))) (let loop2182 ((n n) (xs xs)) (if (jolt-truthy? (let* ((and__13__auto xs)) (if (jolt-truthy? and__13__auto) (jolt-pos? n) and__13__auto))) (let* ((_a$2183 (jolt-dec n)) (_a$2184 (jolt-next xs))) (loop2182 _a$2183 _a$2184)) xs))))))) nthnext))) (guard (e (#t #f)) - (def-var! "clojure.core" "bounded-count" (letrec ((bounded-count (lambda (n coll) (let fnrec1815 ((n n) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "counted?") coll)) (jolt-count coll) (let* ((i 0) (s (jolt-seq coll))) (let loop1816 ((i i) (s s)) (if (jolt-truthy? (let* ((and__13__auto s)) (if (jolt-truthy? and__13__auto) (< i n) and__13__auto))) (let* ((_a$1817 (jolt-inc i)) (_a$1818 (jolt-next s))) (loop1816 _a$1817 _a$1818)) i)))))))) bounded-count))) + (def-var! "clojure.core" "bounded-count" (letrec ((bounded-count (lambda (n coll) (let fnrec2185 ((n n) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "counted?") coll)) (jolt-count coll) (let* ((i 0) (s (jolt-seq coll))) (let loop2186 ((i i) (s s)) (if (jolt-truthy? (let* ((and__13__auto s)) (if (jolt-truthy? and__13__auto) (< i n) and__13__auto))) (let* ((_a$2187 (jolt-inc i)) (_a$2188 (jolt-next s))) (loop2186 _a$2187 _a$2188)) i)))))))) bounded-count))) (guard (e (#t #f)) - (def-var! "clojure.core" "run!" (letrec ((run! (lambda (proc coll) (let fnrec1819 ((proc proc) (coll coll)) (begin (jolt-reduce (lambda (_ x) (let fnrec1820 ((_ _) (x x)) (begin (jolt-invoke proc x) jolt-nil))) jolt-nil coll) jolt-nil))))) run!))) + (def-var! "clojure.core" "run!" (letrec ((run! (lambda (proc coll) (let fnrec2189 ((proc proc) (coll coll)) (begin (jolt-reduce (lambda (_ x) (let fnrec2190 ((_ _) (x x)) (begin (jolt-invoke proc x) jolt-nil))) jolt-nil coll) jolt-nil))))) run!))) (guard (e (#t #f)) - (def-var! "clojure.core" "completing" (letrec ((completing (case-lambda ((f) (let fnrec1821 ((f f)) (jolt-invoke completing f jolt-identity))) ((f cf) (let fnrec1822 ((f f) (cf cf)) (case-lambda (() (let fnrec1823 () (jolt-invoke f))) ((x) (let fnrec1824 ((x x)) (jolt-invoke cf x))) ((x y) (let fnrec1825 ((x x) (y y)) (jolt-invoke f x y))))))))) completing))) + (def-var! "clojure.core" "completing" (letrec ((completing (case-lambda ((f) (let fnrec2191 ((f f)) (jolt-invoke completing f jolt-identity))) ((f cf) (let fnrec2192 ((f f) (cf cf)) (case-lambda (() (let fnrec2193 () (jolt-invoke f))) ((x) (let fnrec2194 ((x x)) (jolt-invoke cf x))) ((x y) (let fnrec2195 ((x x) (y y)) (jolt-invoke f x y))))))))) completing))) (guard (e (#t #f)) - (def-var! "clojure.core" "nthrest" (letrec ((nthrest (lambda (coll n) (let fnrec1826 ((coll coll) (n n)) (if (jolt-pos? n) (let* ((or__14__auto (let* ((n n) (xs coll)) (let loop1827 ((n n) (xs xs)) (let* ((s (let* ((and__13__auto (jolt-pos? n))) (if (jolt-truthy? and__13__auto) (jolt-seq xs) and__13__auto)))) (if (jolt-truthy? s) (let* ((_a$1828 (jolt-dec n)) (_a$1829 (jolt-rest s))) (loop1827 _a$1828 _a$1829)) (jolt-seq xs))))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-list ))) coll))))) nthrest))) + (def-var! "clojure.core" "nthrest" (letrec ((nthrest (lambda (coll n) (let fnrec2196 ((coll coll) (n n)) (if (jolt-pos? n) (let* ((or__14__auto (let* ((n n) (xs coll)) (let loop2197 ((n n) (xs xs)) (let* ((s (let* ((and__13__auto (jolt-pos? n))) (if (jolt-truthy? and__13__auto) (jolt-seq xs) and__13__auto)))) (if (jolt-truthy? s) (let* ((_a$2198 (jolt-dec n)) (_a$2199 (jolt-rest s))) (loop2197 _a$2198 _a$2199)) (jolt-seq xs))))))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-list ))) coll))))) nthrest))) (guard (e (#t #f)) - (def-var! "clojure.core" "abs" (letrec ((abs (lambda (x) (let fnrec1830 ((x x)) (if (jolt-neg? x) (- 0 x) x))))) abs))) + (def-var! "clojure.core" "abs" (letrec ((abs (lambda (x) (let fnrec2200 ((x x)) (if (jolt-neg? x) (- 0 x) x))))) abs))) (guard (e (#t #f)) - (def-var! "clojure.core" "NaN?" (letrec ((NaN? (lambda (x) (let fnrec1831 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-not (jolt= x x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "NaN? requires a number"))))))) NaN?))) + (def-var! "clojure.core" "NaN?" (letrec ((NaN? (lambda (x) (let fnrec2201 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) (jolt-not (jolt= x x)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "NaN? requires a number"))))))) NaN?))) (guard (e (#t #f)) - (def-var! "clojure.core" "object?" (letrec ((object? (lambda (x) (let fnrec1832 ((x x)) #f)))) object?))) + (def-var! "clojure.core" "object?" (letrec ((object? (lambda (x) (let fnrec2202 ((x x)) #f)))) object?))) (guard (e (#t #f)) - (def-var! "clojure.core" "undefined?" (letrec ((undefined? (lambda (x) (let fnrec1833 ((x x)) #f)))) undefined?))) + (def-var! "clojure.core" "undefined?" (letrec ((undefined? (lambda (x) (let fnrec2203 ((x x)) #f)))) undefined?))) (guard (e (#t #f)) - (def-var! "clojure.core" "keyword-identical?" (letrec ((keyword-identical? (lambda (a b) (let fnrec1834 ((a a) (b b)) (jolt= a b))))) keyword-identical?))) + (def-var! "clojure.core" "keyword-identical?" (letrec ((keyword-identical? (lambda (a b) (let fnrec2204 ((a a) (b b)) (jolt= a b))))) keyword-identical?))) (guard (e (#t #f)) - (def-var! "clojure.core" "any?" (letrec ((any? (lambda (x) (let fnrec1835 ((x x)) #t)))) any?))) + (def-var! "clojure.core" "any?" (letrec ((any? (lambda (x) (let fnrec2205 ((x x)) #t)))) any?))) (guard (e (#t #f)) - (def-var! "clojure.core" "printf" (letrec ((printf (lambda (fmt . args) (let fnrec1836 ((fmt fmt) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "print") (jolt-apply (var-deref "clojure.core" "format") fmt args)))))) printf))) + (def-var! "clojure.core" "printf" (letrec ((printf (lambda (fmt . args) (let fnrec2206 ((fmt fmt) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "print") (jolt-apply (var-deref "clojure.core" "format") fmt args)))))) printf))) (guard (e (#t #f)) - (def-var! "clojure.core" "bound?" (letrec ((bound? (lambda vars (let fnrec1837 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec1838 ((v v)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-get v (keyword #f "root"))))) vars))))) bound?))) + (def-var! "clojure.core" "bound?" (letrec ((bound? (lambda vars (let fnrec2207 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec2208 ((v v)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-get v (keyword #f "root"))))) vars))))) bound?))) (guard (e (#t #f)) - (def-var! "clojure.core" "with-bindings*" (letrec ((with-bindings* (lambda (binding-map f . args) (let fnrec1839 ((binding-map binding-map) (f f) (args (list->cseq args))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") binding-map) (dynamic-wind (lambda () #f) (lambda () (jolt-apply f args)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))))) with-bindings*))) + (def-var! "clojure.core" "with-bindings*" (letrec ((with-bindings* (lambda (binding-map f . args) (let fnrec2209 ((binding-map binding-map) (f f) (args (list->cseq args))) (begin (jolt-invoke (var-deref "clojure.core" "push-thread-bindings") binding-map) (dynamic-wind (lambda () #f) (lambda () (jolt-apply f args)) (lambda () (jolt-invoke (var-deref "clojure.core" "pop-thread-bindings"))))))))) with-bindings*))) (guard (e (#t #f)) - (def-var! "clojure.core" "bound-fn*" (letrec ((bound-fn* (lambda (f) (let fnrec1840 ((f f)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "get-thread-bindings")))) (lambda args (let fnrec1841 ((args (list->cseq args))) (jolt-apply (var-deref "clojure.core" "with-bindings*") bs f args)))))))) bound-fn*))) + (def-var! "clojure.core" "bound-fn*" (letrec ((bound-fn* (lambda (f) (let fnrec2210 ((f f)) (let* ((bs (jolt-invoke (var-deref "clojure.core" "get-thread-bindings")))) (lambda args (let fnrec2211 ((args (list->cseq args))) (jolt-apply (var-deref "clojure.core" "with-bindings*") bs f args)))))))) bound-fn*))) (guard (e (#t #f)) - (def-var! "clojure.core" "thread-bound?" (letrec ((thread-bound? (lambda vars (let fnrec1842 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec1843 ((v v)) (jolt-invoke (var-deref "clojure.core" "__thread-bound?") v))) vars))))) thread-bound?))) + (def-var! "clojure.core" "thread-bound?" (letrec ((thread-bound? (lambda vars (let fnrec2212 ((vars (list->cseq vars))) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (v) (let fnrec2213 ((v v)) (jolt-invoke (var-deref "clojure.core" "__thread-bound?") v))) vars))))) thread-bound?))) (guard (e (#t #f)) - (def-var! "clojure.core" "key" (letrec ((key (lambda (e) (let fnrec1844 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 0) (jolt-throw (jolt-ex-info "key requires a map entry" (jolt-hash-map)))))))) key))) + (def-var! "clojure.core" "key" (letrec ((key (lambda (e) (let fnrec2214 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 0) (jolt-throw (jolt-ex-info "key requires a map entry" (jolt-hash-map)))))))) key))) (guard (e (#t #f)) - (def-var! "clojure.core" "val" (letrec ((val (lambda (e) (let fnrec1845 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 1) (jolt-throw (jolt-ex-info "val requires a map entry" (jolt-hash-map)))))))) val))) + (def-var! "clojure.core" "val" (letrec ((val (lambda (e) (let fnrec2215 ((e e)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map-entry?") e)) (jolt-nth e 1) (jolt-throw (jolt-ex-info "val requires a map entry" (jolt-hash-map)))))))) val))) (guard (e (#t #f)) - (def-var! "clojure.core" "make-hierarchy" (letrec ((make-hierarchy (lambda () (let fnrec1846 () (let* ((_o$1847 (keyword #f "parents")) (_o$1848 (jolt-hash-map)) (_o$1849 (keyword #f "descendants")) (_o$1850 (jolt-hash-map)) (_o$1851 (keyword #f "ancestors")) (_o$1852 (jolt-hash-map))) (jolt-hash-map _o$1847 _o$1848 _o$1849 _o$1850 _o$1851 _o$1852)))))) make-hierarchy))) + (def-var! "clojure.core" "make-hierarchy" (letrec ((make-hierarchy (lambda () (let fnrec2216 () (let* ((_o$2217 (keyword #f "parents")) (_o$2218 (jolt-hash-map)) (_o$2219 (keyword #f "descendants")) (_o$2220 (jolt-hash-map)) (_o$2221 (keyword #f "ancestors")) (_o$2222 (jolt-hash-map))) (jolt-hash-map _o$2217 _o$2218 _o$2219 _o$2220 _o$2221 _o$2222)))))) make-hierarchy))) (guard (e (#t #f)) (def-var-with-meta! "clojure.core" "global-hierarchy" (jolt-invoke (var-deref "clojure.core" "atom") (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "clojure.core" "isa?" (letrec ((isa? (case-lambda ((child parent) (let fnrec1853 ((child child) (parent parent)) (jolt-invoke isa? (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) child parent))) ((h child parent) (let fnrec1854 ((h h) (child child) (parent parent)) (let* ((or__14__auto (jolt= child parent))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-contains? (let* ((_a$1855 (jolt-get h (keyword #f "ancestors"))) (_a$1856 child) (_a$1857 (jolt-hash-set))) (jolt-get _a$1855 _a$1856 _a$1857)) parent))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "vector?") parent))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "vector?") child))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (let* ((_a$1858 (jolt-count parent)) (_a$1859 (jolt-count child))) (jolt= _a$1858 _a$1859)))) (if (jolt-truthy? and__13__auto) (let* ((ret #t) (i 0)) (let loop1860 ((ret ret) (i i)) (if (jolt-truthy? (let* ((or__14__auto (jolt-not ret))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= i (jolt-count parent))))) ret (let* ((_a$1865 (let* ((_a$1861 isa?) (_a$1862 h) (_a$1863 (jolt-nth child i)) (_a$1864 (jolt-nth parent i))) (jolt-invoke _a$1861 _a$1862 _a$1863 _a$1864))) (_a$1866 (jolt-inc i))) (loop1860 _a$1865 _a$1866))))) and__13__auto)) and__13__auto)) and__13__auto))))))))))) isa?))) + (def-var! "clojure.core" "isa?" (letrec ((isa? (case-lambda ((child parent) (let fnrec2223 ((child child) (parent parent)) (jolt-invoke isa? (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) child parent))) ((h child parent) (let fnrec2224 ((h h) (child child) (parent parent)) (let* ((or__14__auto (jolt= child parent))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-contains? (let* ((_a$2225 (jolt-get h (keyword #f "ancestors"))) (_a$2226 child) (_a$2227 (jolt-hash-set))) (jolt-get _a$2225 _a$2226 _a$2227)) parent))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "vector?") parent))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "vector?") child))) (if (jolt-truthy? and__13__auto) (let* ((and__13__auto (let* ((_a$2228 (jolt-count parent)) (_a$2229 (jolt-count child))) (jolt= _a$2228 _a$2229)))) (if (jolt-truthy? and__13__auto) (let* ((ret #t) (i 0)) (let loop2230 ((ret ret) (i i)) (if (jolt-truthy? (let* ((or__14__auto (jolt-not ret))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= i (jolt-count parent))))) ret (let* ((_a$2235 (let* ((_a$2231 isa?) (_a$2232 h) (_a$2233 (jolt-nth child i)) (_a$2234 (jolt-nth parent i))) (jolt-invoke _a$2231 _a$2232 _a$2233 _a$2234))) (_a$2236 (jolt-inc i))) (loop2230 _a$2235 _a$2236))))) and__13__auto)) and__13__auto)) and__13__auto))))))))))) isa?))) (guard (e (#t #f)) - (def-var! "clojure.core" "parents" (letrec ((parents (case-lambda ((tag) (let fnrec1867 ((tag tag)) (jolt-invoke parents (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec1868 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "parents")) tag))))))) parents))) + (def-var! "clojure.core" "parents" (letrec ((parents (case-lambda ((tag) (let fnrec2237 ((tag tag)) (jolt-invoke parents (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec2238 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "parents")) tag))))))) parents))) (guard (e (#t #f)) - (def-var! "clojure.core" "ancestors" (letrec ((ancestors (case-lambda ((tag) (let fnrec1869 ((tag tag)) (jolt-invoke ancestors (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec1870 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "ancestors")) tag))))))) ancestors))) + (def-var! "clojure.core" "ancestors" (letrec ((ancestors (case-lambda ((tag) (let fnrec2239 ((tag tag)) (jolt-invoke ancestors (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec2240 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "ancestors")) tag))))))) ancestors))) (guard (e (#t #f)) - (def-var! "clojure.core" "descendants" (letrec ((descendants (case-lambda ((tag) (let fnrec1871 ((tag tag)) (jolt-invoke descendants (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec1872 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "descendants")) tag))))))) descendants))) + (def-var! "clojure.core" "descendants" (letrec ((descendants (case-lambda ((tag) (let fnrec2241 ((tag tag)) (jolt-invoke descendants (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "global-hierarchy")) tag))) ((h tag) (let fnrec2242 ((h h) (tag tag)) (jolt-invoke (var-deref "clojure.core" "not-empty") (jolt-get (jolt-get h (keyword #f "descendants")) tag))))))) descendants))) (guard (e (#t #f)) - (def-var! "clojure.core" "derive" (letrec ((derive (case-lambda ((tag parent) (let fnrec1873 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") derive tag parent) jolt-nil))) ((h tag parent) (let fnrec1874 ((h h) (tag tag) (parent parent)) (let* ((tp (jolt-get h (keyword #f "parents"))) (td (jolt-get h (keyword #f "descendants"))) (ta (jolt-get h (keyword #f "ancestors"))) (tf (lambda (m source sources target targets) (let fnrec1875 ((m m) (source source) (sources sources) (target target) (targets targets)) (let* ((_a$1880 (lambda (ret k) (let fnrec1876 ((ret ret) (k k)) (jolt-assoc ret k (let* ((_a$1877 jolt-conj) (_a$1878 (jolt-get targets k (jolt-hash-set))) (_a$1879 (jolt-cons target (jolt-get targets target)))) (jolt-reduce _a$1877 _a$1878 _a$1879)))))) (_a$1881 m) (_a$1882 (jolt-cons source (jolt-get sources source)))) (jolt-reduce _a$1880 _a$1881 _a$1882)))))) (let* ((or__14__auto (if (jolt-not (jolt-contains? (jolt-get tp tag (jolt-hash-set)) parent)) (begin (if (jolt-contains? (jolt-get ta tag (jolt-hash-set)) parent) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") tag " already has " parent " as ancestor")) jolt-nil) (if (jolt-contains? (jolt-get ta parent (jolt-hash-set)) tag) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cyclic derivation: " parent " has " tag " as ancestor")) jolt-nil) (let* ((_o$1883 (keyword #f "parents")) (_o$1884 (jolt-assoc tp tag (jolt-conj (jolt-get tp tag (jolt-hash-set)) parent))) (_o$1885 (keyword #f "ancestors")) (_o$1886 (jolt-invoke tf ta tag td parent ta)) (_o$1887 (keyword #f "descendants")) (_o$1888 (jolt-invoke tf td parent ta tag td))) (jolt-hash-map _o$1883 _o$1884 _o$1885 _o$1886 _o$1887 _o$1888))) jolt-nil))) (if (jolt-truthy? or__14__auto) or__14__auto h)))))))) derive))) + (def-var! "clojure.core" "derive" (letrec ((derive (case-lambda ((tag parent) (let fnrec2243 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") derive tag parent) jolt-nil))) ((h tag parent) (let fnrec2244 ((h h) (tag tag) (parent parent)) (let* ((tp (jolt-get h (keyword #f "parents"))) (td (jolt-get h (keyword #f "descendants"))) (ta (jolt-get h (keyword #f "ancestors"))) (tf (lambda (m source sources target targets) (let fnrec2245 ((m m) (source source) (sources sources) (target target) (targets targets)) (let* ((_a$2250 (lambda (ret k) (let fnrec2246 ((ret ret) (k k)) (jolt-assoc ret k (let* ((_a$2247 jolt-conj) (_a$2248 (jolt-get targets k (jolt-hash-set))) (_a$2249 (jolt-cons target (jolt-get targets target)))) (jolt-reduce _a$2247 _a$2248 _a$2249)))))) (_a$2251 m) (_a$2252 (jolt-cons source (jolt-get sources source)))) (jolt-reduce _a$2250 _a$2251 _a$2252)))))) (let* ((or__14__auto (if (jolt-not (jolt-contains? (jolt-get tp tag (jolt-hash-set)) parent)) (begin (if (jolt-contains? (jolt-get ta tag (jolt-hash-set)) parent) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") tag " already has " parent " as ancestor")) jolt-nil) (if (jolt-contains? (jolt-get ta parent (jolt-hash-set)) tag) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cyclic derivation: " parent " has " tag " as ancestor")) jolt-nil) (let* ((_o$2253 (keyword #f "parents")) (_o$2254 (jolt-assoc tp tag (jolt-conj (jolt-get tp tag (jolt-hash-set)) parent))) (_o$2255 (keyword #f "ancestors")) (_o$2256 (jolt-invoke tf ta tag td parent ta)) (_o$2257 (keyword #f "descendants")) (_o$2258 (jolt-invoke tf td parent ta tag td))) (jolt-hash-map _o$2253 _o$2254 _o$2255 _o$2256 _o$2257 _o$2258))) jolt-nil))) (if (jolt-truthy? or__14__auto) or__14__auto h)))))))) derive))) (guard (e (#t #f)) - (def-var! "clojure.core" "underive" (letrec ((underive (case-lambda ((tag parent) (let fnrec1889 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") underive tag parent) jolt-nil))) ((h tag parent) (let fnrec1890 ((h h) (tag tag) (parent parent)) (let* ((parent-map (jolt-get h (keyword #f "parents"))) (childs-parents (if (jolt-truthy? (jolt-get parent-map tag)) (jolt-invoke (var-deref "clojure.core" "disj") (jolt-get parent-map tag) parent) (jolt-hash-set))) (new-parents (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not-empty") childs-parents)) (jolt-assoc parent-map tag childs-parents) (jolt-dissoc parent-map tag))) (deriv-seq (let* ((_a$1897 (var-deref "clojure.core" "mapcat")) (_a$1898 (lambda (e) (let fnrec1891 ((e e)) (let* ((_a$1895 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$1896 (let* ((_a$1892 (var-deref "clojure.core" "interpose")) (_a$1893 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$1894 (jolt-invoke (var-deref "clojure.core" "val") e))) (jolt-invoke _a$1892 _a$1893 _a$1894)))) (jolt-cons _a$1895 _a$1896))))) (_a$1899 (jolt-seq new-parents))) (jolt-invoke _a$1897 _a$1898 _a$1899)))) (if (jolt-contains? (jolt-get parent-map tag (jolt-hash-set)) parent) (let* ((_a$1901 (lambda (p G__27) (let fnrec1900 ((p p) (G__27 G__27)) (let* ((G__28 G__27) (t (jolt-nth G__28 0 jolt-nil)) (pr (jolt-nth G__28 1 jolt-nil))) (jolt-invoke (var-deref "clojure.core" "derive") p t pr))))) (_a$1902 (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (_a$1903 (jolt-invoke (var-deref "clojure.core" "partition") 2 deriv-seq))) (jolt-reduce _a$1901 _a$1902 _a$1903)) h))))))) underive))) + (def-var! "clojure.core" "underive" (letrec ((underive (case-lambda ((tag parent) (let fnrec2259 ((tag tag) (parent parent)) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "global-hierarchy") underive tag parent) jolt-nil))) ((h tag parent) (let fnrec2260 ((h h) (tag tag) (parent parent)) (let* ((parent-map (jolt-get h (keyword #f "parents"))) (childs-parents (if (jolt-truthy? (jolt-get parent-map tag)) (jolt-invoke (var-deref "clojure.core" "disj") (jolt-get parent-map tag) parent) (jolt-hash-set))) (new-parents (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "not-empty") childs-parents)) (jolt-assoc parent-map tag childs-parents) (jolt-dissoc parent-map tag))) (deriv-seq (let* ((_a$2267 (var-deref "clojure.core" "mapcat")) (_a$2268 (lambda (e) (let fnrec2261 ((e e)) (let* ((_a$2265 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$2266 (let* ((_a$2262 (var-deref "clojure.core" "interpose")) (_a$2263 (jolt-invoke (var-deref "clojure.core" "key") e)) (_a$2264 (jolt-invoke (var-deref "clojure.core" "val") e))) (jolt-invoke _a$2262 _a$2263 _a$2264)))) (jolt-cons _a$2265 _a$2266))))) (_a$2269 (jolt-seq new-parents))) (jolt-invoke _a$2267 _a$2268 _a$2269)))) (if (jolt-contains? (jolt-get parent-map tag (jolt-hash-set)) parent) (let* ((_a$2271 (lambda (p G__31) (let fnrec2270 ((p p) (G__31 G__31)) (let* ((G__32 G__31) (t (jolt-nth G__32 0 jolt-nil)) (pr (jolt-nth G__32 1 jolt-nil))) (jolt-invoke (var-deref "clojure.core" "derive") p t pr))))) (_a$2272 (jolt-invoke (var-deref "clojure.core" "make-hierarchy"))) (_a$2273 (jolt-invoke (var-deref "clojure.core" "partition") 2 deriv-seq))) (jolt-reduce _a$2271 _a$2272 _a$2273)) h))))))) underive))) (guard (e (#t #f)) - (def-var! "clojure.core" "sequential?" (letrec ((sequential? (lambda (x) (let fnrec1904 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "seq?") x))))))) sequential?))) + (def-var! "clojure.core" "sequential?" (letrec ((sequential? (lambda (x) (let fnrec2274 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "seq?") x))))))) sequential?))) (guard (e (#t #f)) - (def-var! "clojure.core" "associative?" (letrec ((associative? (lambda (x) (let fnrec1905 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))))))) associative?))) + (def-var! "clojure.core" "associative?" (letrec ((associative? (lambda (x) (let fnrec2275 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))))))) associative?))) (guard (e (#t #f)) - (def-var! "clojure.core" "counted?" (letrec ((counted? (lambda (x) (let fnrec1906 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "list?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "string?") x))))))))))))) counted?))) + (def-var! "clojure.core" "counted?" (letrec ((counted? (lambda (x) (let fnrec2276 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "list?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "string?") x))))))))))))) counted?))) (guard (e (#t #f)) - (def-var! "clojure.core" "indexed?" (letrec ((indexed? (lambda (x) (let fnrec1907 ((x x)) (jolt-invoke (var-deref "clojure.core" "vector?") x))))) indexed?))) + (def-var! "clojure.core" "indexed?" (letrec ((indexed? (lambda (x) (let fnrec2277 ((x x)) (jolt-invoke (var-deref "clojure.core" "vector?") x))))) indexed?))) (guard (e (#t #f)) (declare-var! "clojure.core" "sorted?")) (guard (e (#t #f)) - (def-var! "clojure.core" "reversible?" (letrec ((reversible? (lambda (x) (let fnrec1908 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "sorted?") x))))))) reversible?))) + (def-var! "clojure.core" "reversible?" (letrec ((reversible? (lambda (x) (let fnrec2278 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "sorted?") x))))))) reversible?))) (guard (e (#t #f)) - (def-var! "clojure.core" "seqable?" (letrec ((seqable? (lambda (x) (let fnrec1909 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "coll?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "string?") x))))))))) seqable?))) + (def-var! "clojure.core" "seqable?" (letrec ((seqable? (lambda (x) (let fnrec2279 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "nil?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "coll?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "string?") x))))))))) seqable?))) (guard (e (#t #f)) - (def-var! "clojure.core" "boolean?" (letrec ((boolean? (lambda (x) (let fnrec1910 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "true?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "false?") x))))))) boolean?))) + (def-var! "clojure.core" "boolean?" (letrec ((boolean? (lambda (x) (let fnrec2280 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "true?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "false?") x))))))) boolean?))) (guard (e (#t #f)) - (def-var! "clojure.core" "double?" (letrec ((double? (lambda (x) (let fnrec1911 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "integer?") x)) and__13__auto)))))) double?))) + (def-var! "clojure.core" "double?" (letrec ((double? (lambda (x) (let fnrec2281 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "integer?") x)) and__13__auto)))))) double?))) (guard (e (#t #f)) - (def-var! "clojure.core" "float?" (letrec ((float? (lambda (x) (let fnrec1912 ((x x)) (jolt-invoke (var-deref "clojure.core" "double?") x))))) float?))) + (def-var! "clojure.core" "float?" (letrec ((float? (lambda (x) (let fnrec2282 ((x x)) (jolt-invoke (var-deref "clojure.core" "double?") x))))) float?))) (guard (e (#t #f)) - (def-var! "clojure.core" "infinite?" (letrec ((infinite? (lambda (x) (let fnrec1913 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__13__auto) (let* ((or__14__auto (jolt= x +inf.0))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= x -inf.0))) and__13__auto)))))) infinite?))) + (def-var! "clojure.core" "infinite?" (letrec ((infinite? (lambda (x) (let fnrec2283 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__13__auto) (let* ((or__14__auto (jolt= x +inf.0))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt= x -inf.0))) and__13__auto)))))) infinite?))) (guard (e (#t #f)) - (def-var! "clojure.core" "atom?" (letrec ((atom? (lambda (x) (let fnrec1914 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "atom")))))) atom?))) + (def-var! "clojure.core" "atom?" (letrec ((atom? (lambda (x) (let fnrec2284 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "atom")))))) atom?))) (guard (e (#t #f)) - (def-var! "clojure.core" "volatile?" (letrec ((volatile? (lambda (x) (let fnrec1915 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "volatile")))))) volatile?))) + (def-var! "clojure.core" "volatile?" (letrec ((volatile? (lambda (x) (let fnrec2285 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "volatile")))))) volatile?))) (guard (e (#t #f)) - (def-var! "clojure.core" "reader-conditional?" (letrec ((reader-conditional? (lambda (x) (let fnrec1916 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "reader-conditional")))))) reader-conditional?))) + (def-var! "clojure.core" "reader-conditional?" (letrec ((reader-conditional? (lambda (x) (let fnrec2286 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "reader-conditional")))))) reader-conditional?))) (guard (e (#t #f)) - (def-var! "clojure.core" "tagged-literal?" (letrec ((tagged-literal? (lambda (x) (let fnrec1917 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "tagged-literal")))))) tagged-literal?))) + (def-var! "clojure.core" "tagged-literal?" (letrec ((tagged-literal? (lambda (x) (let fnrec2287 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "tagged-literal")))))) tagged-literal?))) (guard (e (#t #f)) - (def-var! "clojure.core" "record?" (letrec ((record? (lambda (x) (let fnrec1918 ((x x)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-get x (keyword "jolt" "deftype"))))))) record?))) + (def-var! "clojure.core" "record?" (letrec ((record? (lambda (x) (let fnrec2288 ((x x)) (jolt-invoke (var-deref "clojure.core" "some?") (jolt-get x (keyword "jolt" "deftype"))))))) record?))) (guard (e (#t #f)) - (def-var! "clojure.core" "uuid?" (letrec ((uuid? (lambda (x) (let fnrec1919 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "uuid")))))) uuid?))) + (def-var! "clojure.core" "uuid?" (letrec ((uuid? (lambda (x) (let fnrec2289 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "uuid")))))) uuid?))) (guard (e (#t #f)) - (def-var! "clojure.core" "inst?" (letrec ((inst? (lambda (x) (let fnrec1920 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "inst")))))) inst?))) + (def-var! "clojure.core" "inst?" (letrec ((inst? (lambda (x) (let fnrec2290 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "inst")))))) inst?))) (guard (e (#t #f)) - (def-var! "clojure.core" "char?" (letrec ((char? (lambda (x) (let fnrec1921 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "char")))))) char?))) + (def-var! "clojure.core" "char?" (letrec ((char? (lambda (x) (let fnrec2291 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "char")))))) char?))) (guard (e (#t #f)) - (def-var! "clojure.core" "realized?" (letrec ((realized? (lambda (x) (let fnrec1922 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (if (jolt= (keyword "jolt" "lazy-seq") (jolt-get x (keyword "jolt" "type"))) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "atom?") x)) #t (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "realized? not supported on: " x)) jolt-nil))))))))) realized?))) + (def-var! "clojure.core" "realized?" (letrec ((realized? (lambda (x) (let fnrec2292 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (if (jolt= (keyword "jolt" "lazy-seq") (jolt-get x (keyword "jolt" "type"))) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "realized"))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "atom?") x)) #t (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "realized? not supported on: " x)) jolt-nil))))))))) realized?))) (guard (e (#t #f)) - (def-var! "clojure.core" "force" (letrec ((force (lambda (x) (let fnrec1923 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) force))) + (def-var! "clojure.core" "force" (letrec ((force (lambda (x) (let fnrec2293 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "delay?") x)) (jolt-invoke (var-deref "clojure.core" "deref") x) x))))) force))) (guard (e (#t #f)) - (def-var! "clojure.core" "pop" (letrec ((pop (lambda (coll) (let fnrec1924 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) (jolt-throw "Can't pop empty vector") (jolt-invoke (var-deref "clojure.core" "subvec") coll 0 (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-seq coll))) (jolt-throw "Can't pop empty list") (jolt-rest coll)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pop not supported on: " coll)) jolt-nil)))))))) pop))) + (def-var! "clojure.core" "pop" (letrec ((pop (lambda (coll) (let fnrec2294 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (if (jolt-zero? (jolt-count coll)) (jolt-throw "Can't pop empty vector") (jolt-invoke (var-deref "clojure.core" "subvec") coll 0 (jolt-dec (jolt-count coll)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "seq?") coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-seq coll))) (jolt-throw "Can't pop empty list") (jolt-rest coll)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "pop not supported on: " coll)) jolt-nil)))))))) pop))) (guard (e (#t #f)) - (def-var! "clojure.core" "dorun" (letrec ((dorun (case-lambda ((coll) (let fnrec1925 ((coll coll)) (let* ((s (jolt-seq coll))) (let loop1926 ((s s)) (if (jolt-truthy? s) (loop1926 (jolt-next s)) jolt-nil))))) ((n coll) (let fnrec1927 ((n n) (coll coll)) (let* ((n n) (s (jolt-seq coll))) (let loop1928 ((n n) (s s)) (if (jolt-truthy? (let* ((and__13__auto s)) (if (jolt-truthy? and__13__auto) (jolt-pos? n) and__13__auto))) (let* ((_a$1929 (jolt-dec n)) (_a$1930 (jolt-next s))) (loop1928 _a$1929 _a$1930)) jolt-nil)))))))) dorun))) + (def-var! "clojure.core" "dorun" (letrec ((dorun (case-lambda ((coll) (let fnrec2295 ((coll coll)) (let* ((s (jolt-seq coll))) (let loop2296 ((s s)) (if (jolt-truthy? s) (loop2296 (jolt-next s)) jolt-nil))))) ((n coll) (let fnrec2297 ((n n) (coll coll)) (let* ((n n) (s (jolt-seq coll))) (let loop2298 ((n n) (s s)) (if (jolt-truthy? (let* ((and__13__auto s)) (if (jolt-truthy? and__13__auto) (jolt-pos? n) and__13__auto))) (let* ((_a$2299 (jolt-dec n)) (_a$2300 (jolt-next s))) (loop2298 _a$2299 _a$2300)) jolt-nil)))))))) dorun))) (guard (e (#t #f)) - (def-var! "clojure.core" "doall" (letrec ((doall (case-lambda ((coll) (let fnrec1931 ((coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") coll) coll))) ((n coll) (let fnrec1932 ((n n) (coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") n coll) coll)))))) doall))) + (def-var! "clojure.core" "doall" (letrec ((doall (case-lambda ((coll) (let fnrec2301 ((coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") coll) coll))) ((n coll) (let fnrec2302 ((n n) (coll coll)) (begin (jolt-invoke (var-deref "clojure.core" "dorun") n coll) coll)))))) doall))) (guard (e (#t #f)) - (def-var! "clojure.core" "spread" (letrec ((spread (lambda (arglist) (let fnrec1933 ((arglist arglist)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") arglist)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-next arglist))) (jolt-seq (jolt-first arglist)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$1934 (jolt-first arglist)) (_a$1935 (jolt-invoke spread (jolt-next arglist)))) (jolt-cons _a$1934 _a$1935)) jolt-nil))))))) spread))) + (def-var! "clojure.core" "spread" (letrec ((spread (lambda (arglist) (let fnrec2303 ((arglist arglist)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") arglist)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-next arglist))) (jolt-seq (jolt-first arglist)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$2304 (jolt-first arglist)) (_a$2305 (jolt-invoke spread (jolt-next arglist)))) (jolt-cons _a$2304 _a$2305)) jolt-nil))))))) spread))) (guard (e (#t #f)) - (def-var! "clojure.core" "list*" (letrec ((list* (case-lambda ((args) (let fnrec1936 ((args args)) (jolt-seq args))) ((a args) (let fnrec1937 ((a a) (args args)) (jolt-cons a args))) ((a b args) (let fnrec1938 ((a a) (b b) (args args)) (jolt-cons a (jolt-cons b args)))) ((a b c args) (let fnrec1939 ((a a) (b b) (c c) (args args)) (jolt-cons a (jolt-cons b (jolt-cons c args))))) ((a b c d . more) (let fnrec1940 ((a a) (b b) (c c) (d d) (more (list->cseq more))) (jolt-cons a (jolt-cons b (jolt-cons c (jolt-cons d (jolt-invoke (var-deref "clojure.core" "spread") more)))))))))) list*))) + (def-var! "clojure.core" "list*" (letrec ((list* (case-lambda ((args) (let fnrec2306 ((args args)) (jolt-seq args))) ((a args) (let fnrec2307 ((a a) (args args)) (jolt-cons a args))) ((a b args) (let fnrec2308 ((a a) (b b) (args args)) (jolt-cons a (jolt-cons b args)))) ((a b c args) (let fnrec2309 ((a a) (b b) (c c) (args args)) (jolt-cons a (jolt-cons b (jolt-cons c args))))) ((a b c d . more) (let fnrec2310 ((a a) (b b) (c c) (d d) (more (list->cseq more))) (jolt-cons a (jolt-cons b (jolt-cons c (jolt-cons d (jolt-invoke (var-deref "clojure.core" "spread") more)))))))))) list*))) (guard (e (#t #f)) - (def-var! "clojure.core" "print-str" (letrec ((print-str (lambda xs (let fnrec1941 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec1942 () (jolt-apply (var-deref "clojure.core" "print") xs)))))))) print-str))) + (def-var! "clojure.core" "print-str" (letrec ((print-str (lambda xs (let fnrec2311 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec2312 () (jolt-apply (var-deref "clojure.core" "print") xs)))))))) print-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "println-str" (letrec ((println-str (lambda xs (let fnrec1943 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec1944 () (jolt-apply (var-deref "clojure.core" "println") xs)))))))) println-str))) + (def-var! "clojure.core" "println-str" (letrec ((println-str (lambda xs (let fnrec2313 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec2314 () (jolt-apply (var-deref "clojure.core" "println") xs)))))))) println-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "prn-str" (letrec ((prn-str (lambda xs (let fnrec1945 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec1946 () (jolt-apply (var-deref "clojure.core" "prn") xs)))))))) prn-str))) + (def-var! "clojure.core" "prn-str" (letrec ((prn-str (lambda xs (let fnrec2315 ((xs (list->cseq xs))) (jolt-invoke (var-deref "clojure.core" "__with-out-str") (lambda () (let fnrec2316 () (jolt-apply (var-deref "clojure.core" "prn") xs)))))))) prn-str))) (guard (e (#t #f)) - (def-var! "clojure.core" "rand-int" (letrec ((rand-int (lambda (n) (let fnrec1947 ((n n)) (jolt-invoke (var-deref "clojure.core" "int") (jolt-invoke (var-deref "clojure.core" "rand") n)))))) rand-int))) + (def-var! "clojure.core" "rand-int" (letrec ((rand-int (lambda (n) (let fnrec1677 ((n n)) (jolt-invoke (var-deref "clojure.core" "int") (jolt-invoke (var-deref "clojure.core" "rand") n)))))) rand-int))) (guard (e (#t #f)) - (def-var! "clojure.core" "shuffle" (letrec ((shuffle (lambda (coll) (let fnrec1948 ((coll coll)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-throw (let* ((_a$1949 (jolt-invoke (var-deref "clojure.core" "str") "shuffle requires a collection, got: " coll)) (_a$1950 (jolt-hash-map))) (jolt-ex-info _a$1949 _a$1950))) jolt-nil) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll)) (i (jolt-dec (jolt-count v)))) (let loop1951 ((v v) (i i)) (if (jolt-pos? i) (let* ((j (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-inc i))) (t (jolt-nth v i))) (let* ((_a$1952 (jolt-assoc (jolt-assoc v i (jolt-nth v j)) j t)) (_a$1953 (jolt-dec i))) (loop1951 _a$1952 _a$1953))) v)))))))) shuffle))) + (def-var! "clojure.core" "shuffle" (letrec ((shuffle (lambda (coll) (let fnrec1678 ((coll coll)) (begin (if (jolt-not (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-throw (let* ((_a$1679 (jolt-invoke (var-deref "clojure.core" "str") "shuffle requires a collection, got: " coll)) (_a$1680 (jolt-hash-map))) (jolt-ex-info _a$1679 _a$1680))) jolt-nil) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll)) (i (jolt-dec (jolt-count v)))) (let loop1681 ((v v) (i i)) (if (jolt-pos? i) (let* ((j (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-inc i))) (t (jolt-nth v i))) (let* ((_a$1682 (jolt-assoc (jolt-assoc v i (jolt-nth v j)) j t)) (_a$1683 (jolt-dec i))) (loop1681 _a$1682 _a$1683))) v)))))))) shuffle))) (guard (e (#t #f)) - (def-var! "clojure.core" "sort-by" (letrec ((sort-by (case-lambda ((keyfn coll) (let fnrec1954 ((keyfn keyfn) (coll coll)) (jolt-invoke sort-by keyfn (var-deref "clojure.core" "compare") coll))) ((keyfn comp coll) (let fnrec1955 ((keyfn keyfn) (comp comp) (coll coll)) (jolt-invoke (var-deref "clojure.core" "sort") (lambda (x y) (let fnrec1956 ((x x) (y y)) (let* ((_a$1957 comp) (_a$1958 (jolt-invoke keyfn x)) (_a$1959 (jolt-invoke keyfn y))) (jolt-invoke _a$1957 _a$1958 _a$1959)))) coll)))))) sort-by))) + (def-var! "clojure.core" "sort-by" (letrec ((sort-by (case-lambda ((keyfn coll) (let fnrec1684 ((keyfn keyfn) (coll coll)) (jolt-invoke sort-by keyfn (var-deref "clojure.core" "compare") coll))) ((keyfn comp coll) (let fnrec1685 ((keyfn keyfn) (comp comp) (coll coll)) (jolt-invoke (var-deref "clojure.core" "sort") (lambda (x y) (let fnrec1686 ((x x) (y y)) (let* ((_a$1687 comp) (_a$1688 (jolt-invoke keyfn x)) (_a$1689 (jolt-invoke keyfn y))) (jolt-invoke _a$1687 _a$1688 _a$1689)))) coll)))))) sort-by))) (guard (e (#t #f)) - (def-var! "clojure.core" "parse-uuid" (letrec ((parse-uuid (lambda (s) (let fnrec1960 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "re-matches") (jolt-regex "[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}") s)) (jolt-invoke (var-deref "clojure.core" "__make-uuid") s) jolt-nil) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-uuid requires a string, got: " s))))))) parse-uuid))) + (def-var! "clojure.core" "parse-uuid" (letrec ((parse-uuid (lambda (s) (let fnrec1690 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "re-matches") (jolt-regex "[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}") s)) (jolt-invoke (var-deref "clojure.core" "__make-uuid") s) jolt-nil) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-uuid requires a string, got: " s))))))) parse-uuid))) (guard (e (#t #f)) - (def-var! "clojure.core" "random-uuid" (letrec ((random-uuid (lambda () (let fnrec1961 () (let* ((hx4 (lambda () (let fnrec1962 () (jolt-invoke (var-deref "clojure.core" "format") "%04x" (jolt-invoke (var-deref "clojure.core" "rand-int") 65536))))) (hx3 (lambda () (let fnrec1963 () (jolt-invoke (var-deref "clojure.core" "format") "%03x" (jolt-invoke (var-deref "clojure.core" "rand-int") 4096)))))) (jolt-invoke (var-deref "clojure.core" "parse-uuid") (let* ((_a$1964 (var-deref "clojure.core" "str")) (_a$1965 (jolt-invoke hx4)) (_a$1966 (jolt-invoke hx4)) (_a$1967 "-") (_a$1968 (jolt-invoke hx4)) (_a$1969 "-4") (_a$1970 (jolt-invoke hx3)) (_a$1971 "-") (_a$1972 (jolt-invoke (var-deref "clojure.core" "format") "%x" (+ 8 (jolt-invoke (var-deref "clojure.core" "rand-int") 4)))) (_a$1973 (jolt-invoke hx3)) (_a$1974 "-") (_a$1975 (jolt-invoke hx4)) (_a$1976 (jolt-invoke hx4)) (_a$1977 (jolt-invoke hx4))) (jolt-invoke _a$1964 _a$1965 _a$1966 _a$1967 _a$1968 _a$1969 _a$1970 _a$1971 _a$1972 _a$1973 _a$1974 _a$1975 _a$1976 _a$1977)))))))) random-uuid))) + (def-var! "clojure.core" "random-uuid" (letrec ((random-uuid (lambda () (let fnrec1691 () (let* ((hx4 (lambda () (let fnrec1692 () (jolt-invoke (var-deref "clojure.core" "format") "%04x" (jolt-invoke (var-deref "clojure.core" "rand-int") 65536))))) (hx3 (lambda () (let fnrec1693 () (jolt-invoke (var-deref "clojure.core" "format") "%03x" (jolt-invoke (var-deref "clojure.core" "rand-int") 4096)))))) (jolt-invoke (var-deref "clojure.core" "parse-uuid") (let* ((_a$1694 (var-deref "clojure.core" "str")) (_a$1695 (jolt-invoke hx4)) (_a$1696 (jolt-invoke hx4)) (_a$1697 "-") (_a$1698 (jolt-invoke hx4)) (_a$1699 "-4") (_a$1700 (jolt-invoke hx3)) (_a$1701 "-") (_a$1702 (jolt-invoke (var-deref "clojure.core" "format") "%x" (+ 8 (jolt-invoke (var-deref "clojure.core" "rand-int") 4)))) (_a$1703 (jolt-invoke hx3)) (_a$1704 "-") (_a$1705 (jolt-invoke hx4)) (_a$1706 (jolt-invoke hx4)) (_a$1707 (jolt-invoke hx4))) (jolt-invoke _a$1694 _a$1695 _a$1696 _a$1697 _a$1698 _a$1699 _a$1700 _a$1701 _a$1702 _a$1703 _a$1704 _a$1705 _a$1706 _a$1707)))))))) random-uuid))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "char-escape-strings" (let* ((_o$1978 (integer->char 10)) (_o$1979 "\\n") (_o$1980 (integer->char 9)) (_o$1981 "\\t") (_o$1982 (integer->char 13)) (_o$1983 "\\r") (_o$1984 (integer->char 12)) (_o$1985 "\\f") (_o$1986 (integer->char 8)) (_o$1987 "\\b") (_o$1988 (integer->char 34)) (_o$1989 "\\\"") (_o$1990 (integer->char 92)) (_o$1991 "\\\\")) (jolt-hash-map _o$1978 _o$1979 _o$1980 _o$1981 _o$1982 _o$1983 _o$1984 _o$1985 _o$1986 _o$1987 _o$1988 _o$1989 _o$1990 _o$1991)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "clojure.core" "char-escape-strings" (let* ((_o$1708 (integer->char 10)) (_o$1709 "\\n") (_o$1710 (integer->char 9)) (_o$1711 "\\t") (_o$1712 (integer->char 13)) (_o$1713 "\\r") (_o$1714 (integer->char 12)) (_o$1715 "\\f") (_o$1716 (integer->char 8)) (_o$1717 "\\b") (_o$1718 (integer->char 34)) (_o$1719 "\\\"") (_o$1720 (integer->char 92)) (_o$1721 "\\\\")) (jolt-hash-map _o$1708 _o$1709 _o$1710 _o$1711 _o$1712 _o$1713 _o$1714 _o$1715 _o$1716 _o$1717 _o$1718 _o$1719 _o$1720 _o$1721)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "clojure.core" "char-escape-string" (letrec ((char-escape-string (lambda (c) (let fnrec1992 ((c c)) (jolt-get (var-deref "clojure.core" "char-escape-strings") c))))) char-escape-string))) + (def-var! "clojure.core" "char-escape-string" (letrec ((char-escape-string (lambda (c) (let fnrec1722 ((c c)) (jolt-get (var-deref "clojure.core" "char-escape-strings") c))))) char-escape-string))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "char-name-strings" (let* ((_o$1993 (integer->char 10)) (_o$1994 "newline") (_o$1995 (integer->char 9)) (_o$1996 "tab") (_o$1997 (integer->char 13)) (_o$1998 "return") (_o$1999 (integer->char 12)) (_o$2000 "formfeed") (_o$2001 (integer->char 8)) (_o$2002 "backspace") (_o$2003 (integer->char 32)) (_o$2004 "space")) (jolt-hash-map _o$1993 _o$1994 _o$1995 _o$1996 _o$1997 _o$1998 _o$1999 _o$2000 _o$2001 _o$2002 _o$2003 _o$2004)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "clojure.core" "char-name-strings" (let* ((_o$1723 (integer->char 10)) (_o$1724 "newline") (_o$1725 (integer->char 9)) (_o$1726 "tab") (_o$1727 (integer->char 13)) (_o$1728 "return") (_o$1729 (integer->char 12)) (_o$1730 "formfeed") (_o$1731 (integer->char 8)) (_o$1732 "backspace") (_o$1733 (integer->char 32)) (_o$1734 "space")) (jolt-hash-map _o$1723 _o$1724 _o$1725 _o$1726 _o$1727 _o$1728 _o$1729 _o$1730 _o$1731 _o$1732 _o$1733 _o$1734)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "clojure.core" "char-name-string" (letrec ((char-name-string (lambda (c) (let fnrec2005 ((c c)) (jolt-get (var-deref "clojure.core" "char-name-strings") c))))) char-name-string))) + (def-var! "clojure.core" "char-name-string" (letrec ((char-name-string (lambda (c) (let fnrec1735 ((c c)) (jolt-get (var-deref "clojure.core" "char-name-strings") c))))) char-name-string))) (guard (e (#t #f)) - (def-var! "clojure.core" "rand-nth" (letrec ((rand-nth (lambda (coll) (let fnrec2006 ((coll coll)) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll))) (jolt-nth v (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-count v)))))))) rand-nth))) + (def-var! "clojure.core" "rand-nth" (letrec ((rand-nth (lambda (coll) (let fnrec1736 ((coll coll)) (let* ((v (jolt-invoke (var-deref "clojure.core" "vec") coll))) (jolt-nth v (jolt-invoke (var-deref "clojure.core" "rand-int") (jolt-count v)))))))) rand-nth))) (guard (e (#t #f)) - (def-var! "clojure.core" "random-sample" (letrec ((random-sample (case-lambda ((prob) (let fnrec2007 ((prob prob)) (jolt-invoke jolt-filter (lambda (_) (let fnrec2008 ((_ _)) (< (jolt-invoke (var-deref "clojure.core" "rand")) prob)))))) ((prob coll) (let fnrec2009 ((prob prob) (coll coll)) (jolt-filter (lambda (_) (let fnrec2010 ((_ _)) (< (jolt-invoke (var-deref "clojure.core" "rand")) prob))) coll)))))) random-sample))) + (def-var! "clojure.core" "random-sample" (letrec ((random-sample (case-lambda ((prob) (let fnrec1737 ((prob prob)) (jolt-invoke jolt-filter (lambda (_) (let fnrec1738 ((_ _)) (< (jolt-invoke (var-deref "clojure.core" "rand")) prob)))))) ((prob coll) (let fnrec1739 ((prob prob) (coll coll)) (jolt-filter (lambda (_) (let fnrec1740 ((_ _)) (< (jolt-invoke (var-deref "clojure.core" "rand")) prob))) coll)))))) random-sample))) (guard (e (#t #f)) - (def-var! "clojure.core" "comparator" (letrec ((comparator (lambda (pred) (let fnrec2011 ((pred pred)) (lambda (a b) (let fnrec2012 ((a a) (b b)) (if (jolt-truthy? (jolt-invoke pred a b)) -1 (if (jolt-truthy? (jolt-invoke pred b a)) 1 (if (jolt-truthy? (keyword #f "else")) 0 jolt-nil))))))))) comparator))) + (def-var! "clojure.core" "comparator" (letrec ((comparator (lambda (pred) (let fnrec1741 ((pred pred)) (lambda (a b) (let fnrec1742 ((a a) (b b)) (if (jolt-truthy? (jolt-invoke pred a b)) -1 (if (jolt-truthy? (jolt-invoke pred b a)) 1 (if (jolt-truthy? (keyword #f "else")) 0 jolt-nil))))))))) comparator))) (guard (e (#t #f)) - (def-var! "clojure.core" "reductions" (letrec ((reductions (case-lambda ((f coll) (let fnrec2013 ((f f) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2014 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (let* ((_a$2015 reductions) (_a$2016 f) (_a$2017 (jolt-first s)) (_a$2018 (jolt-rest s))) (jolt-invoke _a$2015 _a$2016 _a$2017 _a$2018)) (jolt-list (jolt-invoke f)))))))))) ((f init coll) (let fnrec2019 ((f f) (init init) (coll coll)) (jolt-cons init (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2020 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((_a$2021 reductions) (_a$2022 f) (_a$2023 (jolt-invoke f init (jolt-first s))) (_a$2024 (jolt-rest s))) (jolt-invoke _a$2021 _a$2022 _a$2023 _a$2024))) jolt-nil)))))))))))) reductions))) + (def-var! "clojure.core" "reductions" (letrec ((reductions (case-lambda ((f coll) (let fnrec1743 ((f f) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1744 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (let* ((_a$1745 reductions) (_a$1746 f) (_a$1747 (jolt-first s)) (_a$1748 (jolt-rest s))) (jolt-invoke _a$1745 _a$1746 _a$1747 _a$1748)) (jolt-list (jolt-invoke f)))))))))) ((f init coll) (let fnrec1749 ((f f) (init init) (coll coll)) (jolt-cons init (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1750 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((_a$1751 reductions) (_a$1752 f) (_a$1753 (jolt-invoke f init (jolt-first s))) (_a$1754 (jolt-rest s))) (jolt-invoke _a$1751 _a$1752 _a$1753 _a$1754))) jolt-nil)))))))))))) reductions))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-seq" (letrec ((tree-seq (lambda (branch? children root) (let fnrec2025 ((branch? branch?) (children children) (root root)) (let* ((walk (letrec ((walk (lambda (node) (let fnrec2026 ((node node)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2027 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons node (if (jolt-truthy? (jolt-invoke branch? node)) (jolt-invoke (var-deref "clojure.core" "mapcat") walk (jolt-invoke children node)) jolt-nil)))))))))) walk))) (jolt-invoke walk root)))))) tree-seq))) + (def-var! "clojure.core" "tree-seq" (letrec ((tree-seq (lambda (branch? children root) (let fnrec1755 ((branch? branch?) (children children) (root root)) (let* ((walk (letrec ((walk (lambda (node) (let fnrec1756 ((node node)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1757 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons node (if (jolt-truthy? (jolt-invoke branch? node)) (jolt-invoke (var-deref "clojure.core" "mapcat") walk (jolt-invoke children node)) jolt-nil)))))))))) walk))) (jolt-invoke walk root)))))) tree-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "file-seq" (letrec ((file-seq (lambda (root) (let fnrec2028 ((root root)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "__file?") root)) (let* ((_a$2031 (var-deref "clojure.core" "tree-seq")) (_a$2032 (lambda (f) (let fnrec2029 ((f f)) (jolt-host-call "isDirectory" f)))) (_a$2033 (lambda (f) (let fnrec2030 ((f f)) (jolt-seq (jolt-host-call "listFiles" f))))) (_a$2034 root)) (jolt-invoke _a$2031 _a$2032 _a$2033 _a$2034)) (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "__dir?") (var-deref "clojure.core" "__list-dir") root)))))) file-seq))) + (def-var! "clojure.core" "file-seq" (letrec ((file-seq (lambda (root) (let fnrec1758 ((root root)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "__file?") root)) (let* ((_a$1761 (var-deref "clojure.core" "tree-seq")) (_a$1762 (lambda (f) (let fnrec1759 ((f f)) (jolt-host-call "isDirectory" f)))) (_a$1763 (lambda (f) (let fnrec1760 ((f f)) (jolt-seq (jolt-host-call "listFiles" f))))) (_a$1764 root)) (jolt-invoke _a$1761 _a$1762 _a$1763 _a$1764)) (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "__dir?") (var-deref "clojure.core" "__list-dir") root)))))) file-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "flatten" (letrec ((flatten (lambda (coll) (let fnrec2035 ((coll coll)) (let* ((_a$2036 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "sequential?"))) (_a$2037 (jolt-rest (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "sequential?") jolt-seq coll)))) (jolt-filter _a$2036 _a$2037)))))) flatten))) + (def-var! "clojure.core" "flatten" (letrec ((flatten (lambda (coll) (let fnrec1765 ((coll coll)) (let* ((_a$1766 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "sequential?"))) (_a$1767 (jolt-rest (jolt-invoke (var-deref "clojure.core" "tree-seq") (var-deref "clojure.core" "sequential?") jolt-seq coll)))) (jolt-filter _a$1766 _a$1767)))))) flatten))) (guard (e (#t #f)) - (def-var! "clojure.core" "xml-seq" (letrec ((xml-seq (lambda (root) (let fnrec2038 ((root root)) (let* ((_a$2039 (var-deref "clojure.core" "tree-seq")) (_a$2040 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "string?"))) (_a$2041 (jolt-invoke (var-deref "clojure.core" "comp") jolt-seq (keyword #f "content"))) (_a$2042 root)) (jolt-invoke _a$2039 _a$2040 _a$2041 _a$2042)))))) xml-seq))) + (def-var! "clojure.core" "xml-seq" (letrec ((xml-seq (lambda (root) (let fnrec1768 ((root root)) (let* ((_a$1769 (var-deref "clojure.core" "tree-seq")) (_a$1770 (jolt-invoke (var-deref "clojure.core" "complement") (var-deref "clojure.core" "string?"))) (_a$1771 (jolt-invoke (var-deref "clojure.core" "comp") jolt-seq (keyword #f "content"))) (_a$1772 root)) (jolt-invoke _a$1769 _a$1770 _a$1771 _a$1772)))))) xml-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "interleave" (letrec ((interleave (case-lambda (() (let fnrec2043 () (jolt-list ))) ((c1) (let fnrec2044 ((c1 c1)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2045 () (jolt-invoke (var-deref "clojure.core" "coll->cells") c1)))))) ((c1 c2) (let fnrec2046 ((c1 c1) (c2 c2)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2047 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s1 (jolt-seq c1)) (s2 (jolt-seq c2))) (if (jolt-truthy? (let* ((and__13__auto s1)) (if (jolt-truthy? and__13__auto) s2 and__13__auto))) (let* ((_a$2053 (jolt-first s1)) (_a$2054 (let* ((_a$2051 (jolt-first s2)) (_a$2052 (let* ((_a$2048 interleave) (_a$2049 (jolt-rest s1)) (_a$2050 (jolt-rest s2))) (jolt-invoke _a$2048 _a$2049 _a$2050)))) (jolt-cons _a$2051 _a$2052)))) (jolt-cons _a$2053 _a$2054)) jolt-nil)))))))) ((c1 c2 . cs) (let fnrec2055 ((c1 c1) (c2 c2) (cs (list->cseq cs))) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2056 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((ss (jolt-map jolt-seq (jolt-invoke (var-deref "clojure.core" "list*") c1 c2 cs)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "every?") jolt-identity ss)) (let* ((_a$2057 (jolt-map jolt-first ss)) (_a$2058 (jolt-apply interleave (jolt-map jolt-rest ss)))) (jolt-concat _a$2057 _a$2058)) jolt-nil))))))))))) interleave))) + (def-var! "clojure.core" "interleave" (letrec ((interleave (case-lambda (() (let fnrec1773 () (jolt-list ))) ((c1) (let fnrec1774 ((c1 c1)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1775 () (jolt-invoke (var-deref "clojure.core" "coll->cells") c1)))))) ((c1 c2) (let fnrec1776 ((c1 c1) (c2 c2)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1777 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((s1 (jolt-seq c1)) (s2 (jolt-seq c2))) (if (jolt-truthy? (let* ((and__13__auto s1)) (if (jolt-truthy? and__13__auto) s2 and__13__auto))) (let* ((_a$1783 (jolt-first s1)) (_a$1784 (let* ((_a$1781 (jolt-first s2)) (_a$1782 (let* ((_a$1778 interleave) (_a$1779 (jolt-rest s1)) (_a$1780 (jolt-rest s2))) (jolt-invoke _a$1778 _a$1779 _a$1780)))) (jolt-cons _a$1781 _a$1782)))) (jolt-cons _a$1783 _a$1784)) jolt-nil)))))))) ((c1 c2 . cs) (let fnrec1785 ((c1 c1) (c2 c2) (cs (list->cseq cs))) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1786 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((ss (jolt-map jolt-seq (jolt-invoke (var-deref "clojure.core" "list*") c1 c2 cs)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "every?") jolt-identity ss)) (let* ((_a$1787 (jolt-map jolt-first ss)) (_a$1788 (jolt-apply interleave (jolt-map jolt-rest ss)))) (jolt-concat _a$1787 _a$1788)) jolt-nil))))))))))) interleave))) (guard (e (#t #f)) - (def-var! "clojure.core" "rationalize" (letrec ((rationalize (lambda (x) (let fnrec2059 ((x x)) x)))) rationalize))) + (def-var! "clojure.core" "rationalize" (letrec ((rationalize (lambda (x) (let fnrec1789 ((x x)) x)))) rationalize))) (guard (e (#t #f)) - (def-var! "clojure.core" "dedupe" (letrec ((dedupe (case-lambda (() (let fnrec2060 () (lambda (rf) (let fnrec2061 ((rf rf)) (let* ((pv (jolt-invoke (var-deref "clojure.core" "volatile!") (let* ((_o$2062 #f) (_o$2063 jolt-nil)) (jolt-vector _o$2062 _o$2063))))) (case-lambda (() (let fnrec2064 () (jolt-invoke rf))) ((result) (let fnrec2065 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec2066 ((result result) (input input)) (let* ((G__29 (jolt-invoke (var-deref "clojure.core" "deref") pv)) (seen (jolt-nth G__29 0 jolt-nil)) (prior (jolt-nth G__29 1 jolt-nil))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") pv (let* ((_o$2067 #t) (_o$2068 input)) (jolt-vector _o$2067 _o$2068))) (if (jolt-truthy? (let* ((and__13__auto seen)) (if (jolt-truthy? and__13__auto) (jolt= prior input) and__13__auto))) result (jolt-invoke rf result input)))))))))))) ((coll) (let fnrec2069 ((coll coll)) (let* ((step (letrec ((step (lambda (s prev) (let fnrec2070 ((s s) (prev prev)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2071 () (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((x (jolt-first s))) (if (jolt= x prev) (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-invoke step (jolt-rest s) prev)) (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (jolt-invoke step (jolt-rest s) x))))) jolt-nil))))))))) step))) (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec2072 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$2076 (jolt-first s)) (_a$2077 (let* ((_a$2073 step) (_a$2074 (jolt-rest s)) (_a$2075 (jolt-first s))) (jolt-invoke _a$2073 _a$2074 _a$2075)))) (jolt-cons _a$2076 _a$2077)))))) (jolt-list ))))))))) dedupe))) + (def-var! "clojure.core" "dedupe" (letrec ((dedupe (case-lambda (() (let fnrec1790 () (lambda (rf) (let fnrec1791 ((rf rf)) (let* ((pv (jolt-invoke (var-deref "clojure.core" "volatile!") (let* ((_o$1792 #f) (_o$1793 jolt-nil)) (jolt-vector _o$1792 _o$1793))))) (case-lambda (() (let fnrec1794 () (jolt-invoke rf))) ((result) (let fnrec1795 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec1796 ((result result) (input input)) (let* ((G__27 (jolt-invoke (var-deref "clojure.core" "deref") pv)) (seen (jolt-nth G__27 0 jolt-nil)) (prior (jolt-nth G__27 1 jolt-nil))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") pv (let* ((_o$1797 #t) (_o$1798 input)) (jolt-vector _o$1797 _o$1798))) (if (jolt-truthy? (let* ((and__13__auto seen)) (if (jolt-truthy? and__13__auto) (jolt= prior input) and__13__auto))) result (jolt-invoke rf result input)))))))))))) ((coll) (let fnrec1799 ((coll coll)) (let* ((step (letrec ((step (lambda (s prev) (let fnrec1800 ((s s) (prev prev)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1801 () (let* ((s (jolt-seq s))) (if (jolt-truthy? s) (let* ((x (jolt-first s))) (if (jolt= x prev) (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-invoke step (jolt-rest s) prev)) (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (jolt-invoke step (jolt-rest s) x))))) jolt-nil))))))))) step))) (let* ((s (jolt-seq coll))) (if (jolt-truthy? s) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec1802 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$1806 (jolt-first s)) (_a$1807 (let* ((_a$1803 step) (_a$1804 (jolt-rest s)) (_a$1805 (jolt-first s))) (jolt-invoke _a$1803 _a$1804 _a$1805)))) (jolt-cons _a$1806 _a$1807)))))) (jolt-list ))))))))) dedupe))) (guard (e (#t #f)) - (def-var! "clojure.core" "seq-to-map-for-destructuring" (letrec ((seq-to-map-for-destructuring (lambda (s) (let fnrec2078 ((s s)) (if (jolt-truthy? (jolt-next s)) (let* ((m (jolt-hash-map)) (xs (jolt-seq s))) (let loop2079 ((m m) (xs xs)) (if (jolt-truthy? xs) (if (jolt-truthy? (jolt-next xs)) (let* ((_a$2083 (let* ((_a$2080 m) (_a$2081 (jolt-first xs)) (_a$2082 (jolt-invoke (var-deref "clojure.core" "second") xs))) (jolt-assoc _a$2080 _a$2081 _a$2082))) (_a$2084 (jolt-invoke (var-deref "clojure.core" "nnext") xs))) (loop2079 _a$2083 _a$2084)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "No value supplied for key: " (jolt-first xs)))) m))) (if (jolt-truthy? (jolt-seq s)) (jolt-first s) (jolt-hash-map))))))) seq-to-map-for-destructuring))) + (def-var! "clojure.core" "seq-to-map-for-destructuring" (letrec ((seq-to-map-for-destructuring (lambda (s) (let fnrec1808 ((s s)) (if (jolt-truthy? (jolt-next s)) (let* ((m (jolt-hash-map)) (xs (jolt-seq s))) (let loop1809 ((m m) (xs xs)) (if (jolt-truthy? xs) (if (jolt-truthy? (jolt-next xs)) (let* ((_a$1813 (let* ((_a$1810 m) (_a$1811 (jolt-first xs)) (_a$1812 (jolt-invoke (var-deref "clojure.core" "second") xs))) (jolt-assoc _a$1810 _a$1811 _a$1812))) (_a$1814 (jolt-invoke (var-deref "clojure.core" "nnext") xs))) (loop1809 _a$1813 _a$1814)) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "No value supplied for key: " (jolt-first xs)))) m))) (if (jolt-truthy? (jolt-seq s)) (jolt-first s) (jolt-hash-map))))))) seq-to-map-for-destructuring))) (guard (e (#t #f)) - (def-var! "clojure.core" "vary-meta" (letrec ((vary-meta (lambda (obj f . args) (let fnrec2085 ((obj obj) (f f) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "with-meta") obj (jolt-apply f (jolt-invoke (var-deref "clojure.core" "meta") obj) args)))))) vary-meta))) + (def-var! "clojure.core" "vary-meta" (letrec ((vary-meta (lambda (obj f . args) (let fnrec1815 ((obj obj) (f f) (args (list->cseq args))) (jolt-invoke (var-deref "clojure.core" "with-meta") obj (jolt-apply f (jolt-invoke (var-deref "clojure.core" "meta") obj) args)))))) vary-meta))) (guard (e (#t #f)) - (def-var! "clojure.core" "namespace-munge" (letrec ((namespace-munge (lambda (s) (let fnrec2086 ((s s)) (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$2088 (lambda (c) (let fnrec2087 ((c c)) (if (jolt= c (integer->char 45)) (integer->char 95) c)))) (_a$2089 (jolt-seq (jolt-invoke (var-deref "clojure.core" "str") s)))) (jolt-map _a$2088 _a$2089))))))) namespace-munge))) + (def-var! "clojure.core" "namespace-munge" (letrec ((namespace-munge (lambda (s) (let fnrec1816 ((s s)) (jolt-apply (var-deref "clojure.core" "str") (let* ((_a$1818 (lambda (c) (let fnrec1817 ((c c)) (if (jolt= c (integer->char 45)) (integer->char 95) c)))) (_a$1819 (jolt-seq (jolt-invoke (var-deref "clojure.core" "str") s)))) (jolt-map _a$1818 _a$1819))))))) namespace-munge))) (guard (e (#t #f)) - (def-var! "clojure.core" "reduce-kv" (letrec ((reduce-kv (lambda (f init coll) (let fnrec2090 ((f f) (init init) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (let* ((_a$2092 (lambda (acc i) (let fnrec2091 ((acc acc) (i i)) (jolt-invoke f acc i (jolt-nth coll i))))) (_a$2093 init) (_a$2094 (jolt-range (jolt-count coll)))) (jolt-reduce _a$2092 _a$2093 _a$2094)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (let* ((_a$2096 (lambda (acc k) (let fnrec2095 ((acc acc) (k k)) (jolt-invoke f acc k (jolt-get coll k))))) (_a$2097 init) (_a$2098 (jolt-keys coll))) (jolt-reduce _a$2096 _a$2097 _a$2098)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) init (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "reduce-kv not supported on: " coll)) jolt-nil)))))))) reduce-kv))) + (def-var! "clojure.core" "reduce-kv" (letrec ((reduce-kv (lambda (f init coll) (let fnrec1820 ((f f) (init init) (coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (let* ((_a$1822 (lambda (acc i) (let fnrec1821 ((acc acc) (i i)) (jolt-invoke f acc i (jolt-nth coll i))))) (_a$1823 init) (_a$1824 (jolt-range (jolt-count coll)))) (jolt-reduce _a$1822 _a$1823 _a$1824)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (let* ((_a$1826 (lambda (acc k) (let fnrec1825 ((acc acc) (k k)) (jolt-invoke f acc k (jolt-get coll k))))) (_a$1827 init) (_a$1828 (jolt-keys coll))) (jolt-reduce _a$1826 _a$1827 _a$1828)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) init (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "reduce-kv not supported on: " coll)) jolt-nil)))))))) reduce-kv))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-info-val?" (letrec ((ex-info-val? (lambda (x) (let fnrec2099 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "ex-info")))))) ex-info-val?))) + (def-var! "clojure.core" "ex-info-val?" (letrec ((ex-info-val? (lambda (x) (let fnrec1829 ((x x)) (jolt= (jolt-get x (keyword "jolt" "type")) (keyword "jolt" "ex-info")))))) ex-info-val?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-unwrap" (letrec ((ex-unwrap (lambda (e) (let fnrec2100 ((e e)) (if (jolt= (jolt-get e (keyword "jolt" "type")) (keyword "jolt" "exception")) (jolt-get e (keyword #f "value")) e))))) ex-unwrap))) + (def-var! "clojure.core" "ex-unwrap" (letrec ((ex-unwrap (lambda (e) (let fnrec1830 ((e e)) (if (jolt= (jolt-get e (keyword "jolt" "type")) (keyword "jolt" "exception")) (jolt-get e (keyword #f "value")) e))))) ex-unwrap))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-data" (letrec ((ex-data (lambda (e) (let fnrec2101 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "data")) jolt-nil)))))) ex-data))) + (def-var! "clojure.core" "ex-data" (letrec ((ex-data (lambda (e) (let fnrec1831 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "data")) jolt-nil)))))) ex-data))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-message" (letrec ((ex-message (lambda (e) (let fnrec2102 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "message")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) ex-message))) + (def-var! "clojure.core" "ex-message" (letrec ((ex-message (lambda (e) (let fnrec1832 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "message")) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))) ex-message))) (guard (e (#t #f)) - (def-var! "clojure.core" "ex-cause" (letrec ((ex-cause (lambda (e) (let fnrec2103 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "cause")) jolt-nil)))))) ex-cause))) + (def-var! "clojure.core" "ex-cause" (letrec ((ex-cause (lambda (e) (let fnrec1833 ((e e)) (let* ((e (jolt-invoke (var-deref "clojure.core" "ex-unwrap") e))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "ex-info-val?") e)) (jolt-get e (keyword #f "cause")) jolt-nil)))))) ex-cause))) (guard (e (#t #f)) - (def-var! "clojure.core" "inst-ms" (letrec ((inst-ms (lambda (x) (let fnrec2104 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "inst?") x)) (jolt-get x (keyword #f "ms")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "inst-ms requires an inst, got: " x))))))) inst-ms))) + (def-var! "clojure.core" "inst-ms" (letrec ((inst-ms (lambda (x) (let fnrec1834 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "inst?") x)) (jolt-get x (keyword #f "ms")) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "inst-ms requires an inst, got: " x))))))) inst-ms))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-keys" (letrec ((update-keys (lambda (m f) (let fnrec2105 ((m m) (f f)) (let* ((_a$2107 (var-deref "clojure.core" "reduce-kv")) (_a$2108 (lambda (acc k v) (let fnrec2106 ((acc acc) (k k) (v v)) (jolt-assoc acc (jolt-invoke f k) v)))) (_a$2109 (jolt-hash-map )) (_a$2110 m)) (jolt-invoke _a$2107 _a$2108 _a$2109 _a$2110)))))) update-keys))) + (def-var! "clojure.core" "update-keys" (letrec ((update-keys (lambda (m f) (let fnrec1835 ((m m) (f f)) (let* ((_a$1837 (var-deref "clojure.core" "reduce-kv")) (_a$1838 (lambda (acc k v) (let fnrec1836 ((acc acc) (k k) (v v)) (jolt-assoc acc (jolt-invoke f k) v)))) (_a$1839 (jolt-hash-map )) (_a$1840 m)) (jolt-invoke _a$1837 _a$1838 _a$1839 _a$1840)))))) update-keys))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-vals" (letrec ((update-vals (lambda (m f) (let fnrec2111 ((m m) (f f)) (let* ((_a$2113 (var-deref "clojure.core" "reduce-kv")) (_a$2114 (lambda (acc k v) (let fnrec2112 ((acc acc) (k k) (v v)) (jolt-assoc acc k (jolt-invoke f v))))) (_a$2115 (jolt-hash-map )) (_a$2116 m)) (jolt-invoke _a$2113 _a$2114 _a$2115 _a$2116)))))) update-vals))) + (def-var! "clojure.core" "update-vals" (letrec ((update-vals (lambda (m f) (let fnrec1841 ((m m) (f f)) (let* ((_a$1843 (var-deref "clojure.core" "reduce-kv")) (_a$1844 (lambda (acc k v) (let fnrec1842 ((acc acc) (k k) (v v)) (jolt-assoc acc k (jolt-invoke f v))))) (_a$1845 (jolt-hash-map )) (_a$1846 m)) (jolt-invoke _a$1843 _a$1844 _a$1845 _a$1846)))))) update-vals))) (guard (e (#t #f)) - (def-var! "clojure.core" "partitionv" (letrec ((partitionv (case-lambda ((n coll) (let fnrec2117 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n coll)))) ((n step coll) (let fnrec2118 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step coll)))) ((n step pad coll) (let fnrec2119 ((n n) (step step) (pad pad) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step pad coll))))))) partitionv))) + (def-var! "clojure.core" "partitionv" (letrec ((partitionv (case-lambda ((n coll) (let fnrec1847 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n coll)))) ((n step coll) (let fnrec1848 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step coll)))) ((n step pad coll) (let fnrec1849 ((n n) (step step) (pad pad) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition") n step pad coll))))))) partitionv))) (guard (e (#t #f)) (declare-var! "clojure.core" "partition-all")) (guard (e (#t #f)) - (def-var! "clojure.core" "partitionv-all" (letrec ((partitionv-all (case-lambda ((n coll) (let fnrec2120 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n coll)))) ((n step coll) (let fnrec2121 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n step coll))))))) partitionv-all))) + (def-var! "clojure.core" "partitionv-all" (letrec ((partitionv-all (case-lambda ((n coll) (let fnrec1850 ((n n) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n coll)))) ((n step coll) (let fnrec1851 ((n n) (step step) (coll coll)) (jolt-map (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "partition-all") n step coll))))))) partitionv-all))) (guard (e (#t #f)) - (def-var! "clojure.core" "splitv-at" (letrec ((splitv-at (lambda (n coll) (let fnrec2122 ((n n) (coll coll)) (let* ((_o$2123 (jolt-invoke (var-deref "clojure.core" "vec") (jolt-take n coll))) (_o$2124 (jolt-drop n coll))) (jolt-vector _o$2123 _o$2124)))))) splitv-at))) + (def-var! "clojure.core" "splitv-at" (letrec ((splitv-at (lambda (n coll) (let fnrec1852 ((n n) (coll coll)) (let* ((_o$1853 (jolt-invoke (var-deref "clojure.core" "vec") (jolt-take n coll))) (_o$1854 (jolt-drop n coll))) (jolt-vector _o$1853 _o$1854)))))) splitv-at))) (guard (e (#t #f)) - (def-var! "clojure.core" "with-redefs-fn" (letrec ((with-redefs-fn (lambda (binding-map func) (let fnrec2125 ((binding-map binding-map) (func func)) (let* ((vars (jolt-invoke (var-deref "clojure.core" "vec") (jolt-keys binding-map))) (saved (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "var-get") vars))) (begin (begin (jolt-count (jolt-map (lambda (v) (let fnrec2126 ((v v)) (begin (jolt-invoke (var-deref "clojure.core" "var-set") v (jolt-get binding-map v)) jolt-nil))) vars)) jolt-nil) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke func)) (lambda () (let* ((i 0)) (let loop2127 ((i i)) (if (< i (jolt-count vars)) (begin (let* ((_a$2128 (var-deref "clojure.core" "var-set")) (_a$2129 (jolt-nth vars i)) (_a$2130 (jolt-nth saved i))) (jolt-invoke _a$2128 _a$2129 _a$2130)) (loop2127 (jolt-inc i))) jolt-nil))))))))))) with-redefs-fn))) + (def-var! "clojure.core" "with-redefs-fn" (letrec ((with-redefs-fn (lambda (binding-map func) (let fnrec1855 ((binding-map binding-map) (func func)) (let* ((vars (jolt-invoke (var-deref "clojure.core" "vec") (jolt-keys binding-map))) (saved (jolt-invoke (var-deref "clojure.core" "mapv") (var-deref "clojure.core" "var-get") vars))) (begin (begin (jolt-count (jolt-map (lambda (v) (let fnrec1856 ((v v)) (begin (jolt-invoke (var-deref "clojure.core" "var-set") v (jolt-get binding-map v)) jolt-nil))) vars)) jolt-nil) (dynamic-wind (lambda () #f) (lambda () (jolt-invoke func)) (lambda () (let* ((i 0)) (let loop1857 ((i i)) (if (< i (jolt-count vars)) (begin (let* ((_a$1858 (var-deref "clojure.core" "var-set")) (_a$1859 (jolt-nth vars i)) (_a$1860 (jolt-nth saved i))) (jolt-invoke _a$1858 _a$1859 _a$1860)) (loop1857 (jolt-inc i))) jolt-nil))))))))))) with-redefs-fn))) (guard (e (#t #f)) - (def-var! "clojure.core" "chunked-seq?" (letrec ((chunked-seq? (lambda (x) (let fnrec2131 ((x x)) #f)))) chunked-seq?))) + (def-var! "clojure.core" "chunked-seq?" (letrec ((chunked-seq? (lambda (x) (let fnrec1861 ((x x)) #f)))) chunked-seq?))) (guard (e (#t #f)) - (def-var! "clojure.core" "swap-vals!" (letrec ((swap-vals! (lambda (a f . args) (let fnrec2132 ((a a) (f f) (args (list->cseq args))) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((_o$2133 old) (_o$2134 (jolt-apply (var-deref "clojure.core" "swap!") a f args))) (jolt-vector _o$2133 _o$2134))))))) swap-vals!))) + (def-var! "clojure.core" "swap-vals!" (letrec ((swap-vals! (lambda (a f . args) (let fnrec1862 ((a a) (f f) (args (list->cseq args))) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((_o$1863 old) (_o$1864 (jolt-apply (var-deref "clojure.core" "swap!") a f args))) (jolt-vector _o$1863 _o$1864))))))) swap-vals!))) (guard (e (#t #f)) - (def-var! "clojure.core" "reset-vals!" (letrec ((reset-vals! (lambda (a newval) (let fnrec2135 ((a a) (newval newval)) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) (let* ((_o$2136 old) (_o$2137 newval)) (jolt-vector _o$2136 _o$2137)))))))) reset-vals!))) + (def-var! "clojure.core" "reset-vals!" (letrec ((reset-vals! (lambda (a newval) (let fnrec1865 ((a a) (newval newval)) (let* ((old (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) (let* ((_o$1866 old) (_o$1867 newval)) (jolt-vector _o$1866 _o$1867)))))))) reset-vals!))) (guard (e (#t #f)) - (def-var! "clojure.core" "compare-and-set!" (letrec ((compare-and-set! (lambda (a oldval newval) (let fnrec2138 ((a a) (oldval oldval) (newval newval)) (if (jolt= oldval (jolt-invoke (var-deref "clojure.core" "deref") a)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) #t) #f))))) compare-and-set!))) + (def-var! "clojure.core" "compare-and-set!" (letrec ((compare-and-set! (lambda (a oldval newval) (let fnrec1868 ((a a) (oldval oldval) (newval newval)) (if (jolt= oldval (jolt-invoke (var-deref "clojure.core" "deref") a)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") a newval) #t) #f))))) compare-and-set!))) (guard (e (#t #f)) - (def-var! "clojure.core" "get-validator" (letrec ((get-validator (lambda (a) (let fnrec2139 ((a a)) (jolt-get a (keyword #f "validator")))))) get-validator))) + (def-var! "clojure.core" "get-validator" (letrec ((get-validator (lambda (a) (let fnrec1869 ((a a)) (jolt-get a (keyword #f "validator")))))) get-validator))) (guard (e (#t #f)) - (def-var! "clojure.core" "add-watch" (letrec ((add-watch (lambda (a key f) (let fnrec2140 ((a a) (key key) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key f) a))))) add-watch))) + (def-var! "clojure.core" "add-watch" (letrec ((add-watch (lambda (a key f) (let fnrec1870 ((a a) (key key) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key f) a))))) add-watch))) (guard (e (#t #f)) - (def-var! "clojure.core" "remove-watch" (letrec ((remove-watch (lambda (a key) (let fnrec2141 ((a a) (key key)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key jolt-nil) a))))) remove-watch))) + (def-var! "clojure.core" "remove-watch" (letrec ((remove-watch (lambda (a key) (let fnrec1871 ((a a) (key key)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-get a (keyword #f "watches")) key jolt-nil) a))))) remove-watch))) (guard (e (#t #f)) - (def-var! "clojure.core" "set-validator!" (letrec ((set-validator! (lambda (a f) (let fnrec2142 ((a a) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") a (keyword #f "validator") f) jolt-nil))))) set-validator!))) + (def-var! "clojure.core" "set-validator!" (letrec ((set-validator! (lambda (a f) (let fnrec1872 ((a a) (f f)) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") a (keyword #f "validator") f) jolt-nil))))) set-validator!))) (guard (e (#t #f)) - (def-var! "clojure.core" "future-done?" (letrec ((future-done? (lambda (x) (let fnrec2143 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (jolt-throw "future-done? requires a future")))))) future-done?))) + (def-var! "clojure.core" "future-done?" (letrec ((future-done? (lambda (x) (let fnrec1873 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "future?") x)) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cached"))) (jolt-throw "future-done? requires a future")))))) future-done?))) (guard (e (#t #f)) - (def-var! "clojure.core" "future-cancelled?" (letrec ((future-cancelled? (lambda (x) (let fnrec2144 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "future?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cancelled"))) and__13__auto)))))) future-cancelled?))) + (def-var! "clojure.core" "future-cancelled?" (letrec ((future-cancelled? (lambda (x) (let fnrec1874 ((x x)) (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "future?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "boolean") (jolt-get x (keyword #f "cancelled"))) and__13__auto)))))) future-cancelled?))) (guard (e (#t #f)) - (def-var! "clojure.core" "ns-name" (letrec ((ns-name (lambda (ns) (let fnrec2145 ((ns ns)) (let* ((nm (jolt-get ns (keyword #f "name")))) (if (jolt-truthy? nm) (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") nm)) jolt-nil)))))) ns-name))) + (def-var! "clojure.core" "ns-name" (letrec ((ns-name (lambda (ns) (let fnrec1875 ((ns ns)) (let* ((nm (jolt-get ns (keyword #f "name")))) (if (jolt-truthy? nm) (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") nm)) jolt-nil)))))) ns-name))) (guard (e (#t #f)) - (def-var! "clojure.core" "aget" (letrec ((aget (lambda (arr . idxs) (let fnrec2146 ((arr arr) (idxs (list->cseq idxs))) (jolt-reduce (lambda (v i) (let fnrec2147 ((v v) (i i)) (jolt-nth v i))) arr idxs))))) aget))) + (def-var! "clojure.core" "aget" (letrec ((aget (lambda (arr . idxs) (let fnrec1876 ((arr arr) (idxs (list->cseq idxs))) (jolt-reduce (lambda (v i) (let fnrec1877 ((v v) (i i)) (jolt-nth v i))) arr idxs))))) aget))) (guard (e (#t #f)) - (def-var! "clojure.core" "alength" (letrec ((alength (lambda (arr) (let fnrec2148 ((arr arr)) (jolt-count arr))))) alength))) + (def-var! "clojure.core" "alength" (letrec ((alength (lambda (arr) (let fnrec1878 ((arr arr)) (jolt-count arr))))) alength))) (guard (e (#t #f)) - (def-var! "clojure.core" "aset" (letrec ((aset (lambda (arr . idxs+val) (let fnrec2149 ((arr arr) (idxs+val (list->cseq idxs+val))) (let* ((n (jolt-count idxs+val)) (val (jolt-nth idxs+val (jolt-dec n))) (target (let* ((_a$2151 (lambda (t k) (let fnrec2150 ((t t) (k k)) (jolt-nth t k)))) (_a$2152 arr) (_a$2153 (jolt-take (- n 2) idxs+val))) (jolt-reduce _a$2151 _a$2152 _a$2153)))) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") target (jolt-nth idxs+val (- n 2)) val) val)))))) aset))) + (def-var! "clojure.core" "aset" (letrec ((aset (lambda (arr . idxs+val) (let fnrec1879 ((arr arr) (idxs+val (list->cseq idxs+val))) (let* ((n (jolt-count idxs+val)) (val (jolt-nth idxs+val (jolt-dec n))) (target (let* ((_a$1881 (lambda (t k) (let fnrec1880 ((t t) (k k)) (jolt-nth t k)))) (_a$1882 arr) (_a$1883 (jolt-take (- n 2) idxs+val))) (jolt-reduce _a$1881 _a$1882 _a$1883)))) (begin (jolt-invoke (var-deref "jolt.host" "ref-put!") target (jolt-nth idxs+val (- n 2)) val) val)))))) aset))) (guard (e (#t #f)) - (def-var! "clojure.core" "complement" (letrec ((complement (lambda (f) (let fnrec2154 ((f f)) (lambda args (let fnrec2155 ((args (list->cseq args))) (jolt-not (jolt-apply f args)))))))) complement))) + (def-var! "clojure.core" "complement" (letrec ((complement (lambda (f) (let fnrec1884 ((f f)) (lambda args (let fnrec1885 ((args (list->cseq args))) (jolt-not (jolt-apply f args)))))))) complement))) (guard (e (#t #f)) - (def-var! "clojure.core" "fnil" (letrec ((fnil (case-lambda ((f x) (let fnrec2156 ((f f) (x x)) (lambda (a . args) (let fnrec2157 ((a a) (args (list->cseq args))) (jolt-apply f (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) x a) args))))) ((f x y) (let fnrec2158 ((f f) (x x) (y y)) (lambda (a b . args) (let fnrec2159 ((a a) (b b) (args (list->cseq args))) (let* ((_a$2160 f) (_a$2161 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) x a)) (_a$2162 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) y b)) (_a$2163 args)) (jolt-apply _a$2160 _a$2161 _a$2162 _a$2163)))))) ((f x y z) (let fnrec2164 ((f f) (x x) (y y) (z z)) (lambda (a b c . args) (let fnrec2165 ((a a) (b b) (c c) (args (list->cseq args))) (let* ((_a$2166 f) (_a$2167 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) x a)) (_a$2168 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) y b)) (_a$2169 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") c)) z c)) (_a$2170 args)) (jolt-apply _a$2166 _a$2167 _a$2168 _a$2169 _a$2170))))))))) fnil))) + (def-var! "clojure.core" "fnil" (letrec ((fnil (case-lambda ((f x) (let fnrec1886 ((f f) (x x)) (lambda (a . args) (let fnrec1887 ((a a) (args (list->cseq args))) (jolt-apply f (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) x a) args))))) ((f x y) (let fnrec1888 ((f f) (x x) (y y)) (lambda (a b . args) (let fnrec1889 ((a a) (b b) (args (list->cseq args))) (let* ((_a$1890 f) (_a$1891 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) x a)) (_a$1892 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) y b)) (_a$1893 args)) (jolt-apply _a$1890 _a$1891 _a$1892 _a$1893)))))) ((f x y z) (let fnrec1894 ((f f) (x x) (y y) (z z)) (lambda (a b c . args) (let fnrec1895 ((a a) (b b) (c c) (args (list->cseq args))) (let* ((_a$1896 f) (_a$1897 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") a)) x a)) (_a$1898 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") b)) y b)) (_a$1899 (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") c)) z c)) (_a$1900 args)) (jolt-apply _a$1896 _a$1897 _a$1898 _a$1899 _a$1900))))))))) fnil))) (guard (e (#t #f)) - (def-var! "clojure.core" "clojure-version" (letrec ((clojure-version (lambda () (let fnrec2171 () "1.11.0-jolt")))) clojure-version))) + (def-var! "clojure.core" "clojure-version" (letrec ((clojure-version (lambda () (let fnrec1901 () "1.11.0-jolt")))) clojure-version))) (guard (e (#t #f)) - (def-var! "clojure.core" "numerator" (letrec ((numerator (lambda (x) (let fnrec2172 ((x x)) (jolt-throw (jolt-ex-info "numerator requires a ratio (Jolt has no ratios)" (jolt-hash-map))))))) numerator))) + (def-var! "clojure.core" "numerator" (letrec ((numerator (lambda (x) (let fnrec1902 ((x x)) (jolt-throw (jolt-ex-info "numerator requires a ratio (Jolt has no ratios)" (jolt-hash-map))))))) numerator))) (guard (e (#t #f)) - (def-var! "clojure.core" "denominator" (letrec ((denominator (lambda (x) (let fnrec2173 ((x x)) (jolt-throw (jolt-ex-info "denominator requires a ratio (Jolt has no ratios)" (jolt-hash-map))))))) denominator))) + (def-var! "clojure.core" "denominator" (letrec ((denominator (lambda (x) (let fnrec1903 ((x x)) (jolt-throw (jolt-ex-info "denominator requires a ratio (Jolt has no ratios)" (jolt-hash-map))))))) denominator))) (guard (e (#t #f)) - (def-var! "clojure.core" "supers" (letrec ((supers (lambda (x) (let fnrec2174 ((x x)) (jolt-hash-set))))) supers))) + (def-var! "clojure.core" "supers" (letrec ((supers (lambda (x) (let fnrec1904 ((x x)) (jolt-hash-set))))) supers))) (guard (e (#t #f)) - (def-var! "clojure.core" "munge" (letrec ((munge (lambda (s) (let fnrec2175 ((s s)) (let* ((m (jolt-invoke (var-deref "clojure.core" "str-replace-all") "-" "_" (jolt-invoke (var-deref "clojure.core" "str") s)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") s)) (jolt-invoke (var-deref "clojure.core" "symbol") m) m)))))) munge))) + (def-var! "clojure.core" "munge" (letrec ((munge (lambda (s) (let fnrec1905 ((s s)) (let* ((m (jolt-invoke (var-deref "clojure.core" "str-replace-all") "-" "_" (jolt-invoke (var-deref "clojure.core" "str") s)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "symbol?") s)) (jolt-invoke (var-deref "clojure.core" "symbol") m) m)))))) munge))) (guard (e (#t #f)) - (def-var! "clojure.core" "test" (letrec ((test (lambda (v) (let fnrec2176 ((v v)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") v) (keyword #f "test")))) (if (jolt-truthy? t) (begin (jolt-invoke t) (keyword #f "ok")) (keyword #f "no-test"))))))) test))) + (def-var! "clojure.core" "test" (letrec ((test (lambda (v) (let fnrec1906 ((v v)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") v) (keyword #f "test")))) (if (jolt-truthy? t) (begin (jolt-invoke t) (keyword #f "ok")) (keyword #f "no-test"))))))) test))) (guard (e (#t #f)) - (def-var! "clojure.core" "find" (letrec ((find (lambda (m k) (let fnrec2177 ((m m) (k k)) (if (jolt-contains? m k) (jolt-first (let* ((_o$2178 k) (_o$2179 (jolt-get m k))) (jolt-hash-map _o$2178 _o$2179))) jolt-nil))))) find))) + (def-var! "clojure.core" "find" (letrec ((find (lambda (m k) (let fnrec1907 ((m m) (k k)) (if (jolt-contains? m k) (jolt-first (let* ((_o$1908 k) (_o$1909 (jolt-get m k))) (jolt-hash-map _o$1908 _o$1909))) jolt-nil))))) find))) (guard (e (#t #f)) - (def-var! "clojure.core" "true?" (letrec ((true? (lambda (x) (let fnrec2180 ((x x)) (jolt= #t x))))) true?))) + (def-var! "clojure.core" "true?" (letrec ((true? (lambda (x) (let fnrec1910 ((x x)) (jolt= #t x))))) true?))) (guard (e (#t #f)) - (def-var! "clojure.core" "false?" (letrec ((false? (lambda (x) (let fnrec2181 ((x x)) (jolt= #f x))))) false?))) + (def-var! "clojure.core" "false?" (letrec ((false? (lambda (x) (let fnrec1911 ((x x)) (jolt= #f x))))) false?))) (guard (e (#t #f)) - (def-var! "clojure.core" "select-keys" (letrec ((select-keys (lambda (map keyseq) (let fnrec2182 ((map map) (keyseq keyseq)) (let* ((_a$2184 (lambda (m k) (let fnrec2183 ((m m) (k k)) (if (jolt-contains? map k) (jolt-assoc m k (jolt-get map k)) m)))) (_a$2185 (jolt-hash-map )) (_a$2186 keyseq)) (jolt-reduce _a$2184 _a$2185 _a$2186)))))) select-keys))) + (def-var! "clojure.core" "select-keys" (letrec ((select-keys (lambda (map keyseq) (let fnrec1912 ((map map) (keyseq keyseq)) (let* ((_a$1914 (lambda (m k) (let fnrec1913 ((m m) (k k)) (if (jolt-contains? map k) (jolt-assoc m k (jolt-get map k)) m)))) (_a$1915 (jolt-hash-map )) (_a$1916 keyseq)) (jolt-reduce _a$1914 _a$1915 _a$1916)))))) select-keys))) (guard (e (#t #f)) - (def-var! "clojure.core" "zipmap" (letrec ((zipmap (lambda (keys vals) (let fnrec2187 ((keys keys) (vals vals)) (let* ((m (jolt-hash-map )) (ks (jolt-seq keys)) (vs (jolt-seq vals))) (let loop2188 ((m m) (ks ks) (vs vs)) (if (jolt-truthy? (let* ((and__13__auto ks)) (if (jolt-truthy? and__13__auto) vs and__13__auto))) (let* ((_a$2192 (let* ((_a$2189 m) (_a$2190 (jolt-first ks)) (_a$2191 (jolt-first vs))) (jolt-assoc _a$2189 _a$2190 _a$2191))) (_a$2193 (jolt-next ks)) (_a$2194 (jolt-next vs))) (loop2188 _a$2192 _a$2193 _a$2194)) m))))))) zipmap))) + (def-var! "clojure.core" "zipmap" (letrec ((zipmap (lambda (keys vals) (let fnrec1917 ((keys keys) (vals vals)) (let* ((m (jolt-hash-map )) (ks (jolt-seq keys)) (vs (jolt-seq vals))) (let loop1918 ((m m) (ks ks) (vs vs)) (if (jolt-truthy? (let* ((and__13__auto ks)) (if (jolt-truthy? and__13__auto) vs and__13__auto))) (let* ((_a$1922 (let* ((_a$1919 m) (_a$1920 (jolt-first ks)) (_a$1921 (jolt-first vs))) (jolt-assoc _a$1919 _a$1920 _a$1921))) (_a$1923 (jolt-next ks)) (_a$1924 (jolt-next vs))) (loop1918 _a$1922 _a$1923 _a$1924)) m))))))) zipmap))) (guard (e (#t #f)) - (def-var! "clojure.core" "merge" (letrec ((merge (lambda maps (let fnrec2195 ((maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (jolt-reduce (lambda (acc m) (let fnrec2196 ((acc acc) (m m)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") m)) acc (jolt-conj (let* ((or__14__auto acc)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map ))) m)))) maps) jolt-nil))))) merge))) + (def-var! "clojure.core" "merge" (letrec ((merge (lambda maps (let fnrec1925 ((maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (jolt-reduce (lambda (acc m) (let fnrec1926 ((acc acc) (m m)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") m)) acc (jolt-conj (let* ((or__14__auto acc)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map ))) m)))) maps) jolt-nil))))) merge))) (guard (e (#t #f)) - (def-var! "clojure.core" "merge-with" (letrec ((merge-with (lambda (f . maps) (let fnrec2197 ((f f) (maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (let* ((merge-entry (lambda (m e) (let fnrec2198 ((m m) (e e)) (let* ((k (jolt-invoke (var-deref "clojure.core" "key") e)) (v (jolt-invoke (var-deref "clojure.core" "val") e))) (if (jolt-contains? m k) (jolt-assoc m k (jolt-invoke f (jolt-get m k) v)) (jolt-assoc m k v)))))) (merge2 (lambda (m1 m2) (let fnrec2199 ((m1 m1) (m2 m2)) (let* ((_a$2200 merge-entry) (_a$2201 (let* ((or__14__auto m1)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map )))) (_a$2202 (jolt-seq m2))) (jolt-reduce _a$2200 _a$2201 _a$2202)))))) (jolt-reduce merge2 maps)) jolt-nil))))) merge-with))) + (def-var! "clojure.core" "merge-with" (letrec ((merge-with (lambda (f . maps) (let fnrec1927 ((f f) (maps (list->cseq maps))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "some") jolt-identity maps)) (let* ((merge-entry (lambda (m e) (let fnrec1928 ((m m) (e e)) (let* ((k (jolt-invoke (var-deref "clojure.core" "key") e)) (v (jolt-invoke (var-deref "clojure.core" "val") e))) (if (jolt-contains? m k) (jolt-assoc m k (jolt-invoke f (jolt-get m k) v)) (jolt-assoc m k v)))))) (merge2 (lambda (m1 m2) (let fnrec1929 ((m1 m1) (m2 m2)) (let* ((_a$1930 merge-entry) (_a$1931 (let* ((or__14__auto m1)) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-hash-map )))) (_a$1932 (jolt-seq m2))) (jolt-reduce _a$1930 _a$1931 _a$1932)))))) (jolt-reduce merge2 maps)) jolt-nil))))) merge-with))) (guard (e (#t #f)) - (def-var! "clojure.core" "get-in" (letrec ((get-in (case-lambda ((m ks) (let fnrec2203 ((m m) (ks ks)) (jolt-reduce jolt-get m ks))) ((m ks not-found) (let fnrec2204 ((m m) (ks ks) (not-found not-found)) (let* ((sentinel (jolt-hash-map ))) (let* ((m m) (ks (jolt-seq ks))) (let loop2205 ((m m) (ks ks)) (if (jolt-truthy? ks) (let* ((nxt (jolt-get m (jolt-first ks) sentinel))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "identical?") sentinel nxt)) not-found (loop2205 nxt (jolt-next ks)))) m))))))))) get-in))) + (def-var! "clojure.core" "get-in" (letrec ((get-in (case-lambda ((m ks) (let fnrec1933 ((m m) (ks ks)) (jolt-reduce jolt-get m ks))) ((m ks not-found) (let fnrec1934 ((m m) (ks ks) (not-found not-found)) (let* ((sentinel (jolt-hash-map ))) (let* ((m m) (ks (jolt-seq ks))) (let loop1935 ((m m) (ks ks)) (if (jolt-truthy? ks) (let* ((nxt (jolt-get m (jolt-first ks) sentinel))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "identical?") sentinel nxt)) not-found (loop1935 nxt (jolt-next ks)))) m))))))))) get-in))) (guard (e (#t #f)) - (def-var! "clojure.core" "memoize" (letrec ((memoize (lambda (f) (let fnrec2206 ((f f)) (let* ((mem (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map )))) (lambda args (let fnrec2207 ((args (list->cseq args))) (let* ((e (jolt-invoke (var-deref "clojure.core" "find") (jolt-invoke (var-deref "clojure.core" "deref") mem) args))) (if (jolt-truthy? e) (jolt-invoke (var-deref "clojure.core" "val") e) (let* ((ret (jolt-apply f args))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") mem jolt-assoc args ret) ret))))))))))) memoize))) + (def-var! "clojure.core" "memoize" (letrec ((memoize (lambda (f) (let fnrec1936 ((f f)) (let* ((mem (jolt-invoke (var-deref "clojure.core" "atom") (jolt-hash-map )))) (lambda args (let fnrec1937 ((args (list->cseq args))) (let* ((e (jolt-invoke (var-deref "clojure.core" "find") (jolt-invoke (var-deref "clojure.core" "deref") mem) args))) (if (jolt-truthy? e) (jolt-invoke (var-deref "clojure.core" "val") e) (let* ((ret (jolt-apply f args))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") mem jolt-assoc args ret) ret))))))))))) memoize))) (guard (e (#t #f)) - (def-var! "clojure.core" "partial" (letrec ((partial (case-lambda ((f) (let fnrec2208 ((f f)) f)) ((f a) (let fnrec2209 ((f f) (a a)) (lambda args (let fnrec2210 ((args (list->cseq args))) (jolt-apply f a args))))) ((f a b) (let fnrec2211 ((f f) (a a) (b b)) (lambda args (let fnrec2212 ((args (list->cseq args))) (jolt-apply f a b args))))) ((f a b c) (let fnrec2213 ((f f) (a a) (b b) (c c)) (lambda args (let fnrec2214 ((args (list->cseq args))) (jolt-apply f a b c args))))) ((f a b c . more) (let fnrec2215 ((f f) (a a) (b b) (c c) (more (list->cseq more))) (lambda args (let fnrec2216 ((args (list->cseq args))) (jolt-apply f a b c (jolt-concat more args))))))))) partial))) + (def-var! "clojure.core" "partial" (letrec ((partial (case-lambda ((f) (let fnrec1938 ((f f)) f)) ((f a) (let fnrec1939 ((f f) (a a)) (lambda args (let fnrec1940 ((args (list->cseq args))) (jolt-apply f a args))))) ((f a b) (let fnrec1941 ((f f) (a a) (b b)) (lambda args (let fnrec1942 ((args (list->cseq args))) (jolt-apply f a b args))))) ((f a b c) (let fnrec1943 ((f f) (a a) (b b) (c c)) (lambda args (let fnrec1944 ((args (list->cseq args))) (jolt-apply f a b c args))))) ((f a b c . more) (let fnrec1945 ((f f) (a a) (b b) (c c) (more (list->cseq more))) (lambda args (let fnrec1946 ((args (list->cseq args))) (jolt-apply f a b c (jolt-concat more args))))))))) partial))) (guard (e (#t #f)) - (def-var! "clojure.core" "trampoline" (letrec ((trampoline (case-lambda ((f) (let fnrec2217 ((f f)) (let* ((ret (jolt-invoke f))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "fn?") ret)) (jolt-invoke trampoline ret) ret)))) ((f . args) (let fnrec2218 ((f f) (args (list->cseq args))) (jolt-invoke trampoline (lambda () (let fnrec2219 () (jolt-apply f args))))))))) trampoline))) + (def-var! "clojure.core" "trampoline" (letrec ((trampoline (case-lambda ((f) (let fnrec1947 ((f f)) (let* ((ret (jolt-invoke f))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "fn?") ret)) (jolt-invoke trampoline ret) ret)))) ((f . args) (let fnrec1948 ((f f) (args (list->cseq args))) (jolt-invoke trampoline (lambda () (let fnrec1949 () (jolt-apply f args))))))))) trampoline))) (guard (e (#t #f)) - (def-var! "clojure.core" "max" (letrec ((max (case-lambda ((x) (let fnrec2220 ((x x)) x)) ((x y) (let fnrec2221 ((x x) (y y)) (if (> x y) x y))) ((x y . more) (let fnrec2222 ((x x) (y y) (more (list->cseq more))) (jolt-reduce max (jolt-invoke max x y) more)))))) max))) + (def-var! "clojure.core" "max" (letrec ((max (case-lambda ((x) (let fnrec1950 ((x x)) x)) ((x y) (let fnrec1951 ((x x) (y y)) (if (> x y) x y))) ((x y . more) (let fnrec1952 ((x x) (y y) (more (list->cseq more))) (jolt-reduce max (jolt-invoke max x y) more)))))) max))) (guard (e (#t #f)) - (def-var! "clojure.core" "min" (letrec ((min (case-lambda ((x) (let fnrec2223 ((x x)) x)) ((x y) (let fnrec2224 ((x x) (y y)) (if (< x y) x y))) ((x y . more) (let fnrec2225 ((x x) (y y) (more (list->cseq more))) (jolt-reduce min (jolt-invoke min x y) more)))))) min))) + (def-var! "clojure.core" "min" (letrec ((min (case-lambda ((x) (let fnrec1953 ((x x)) x)) ((x y) (let fnrec1954 ((x x) (y y)) (if (< x y) x y))) ((x y . more) (let fnrec1955 ((x x) (y y) (more (list->cseq more))) (jolt-reduce min (jolt-invoke min x y) more)))))) min))) (guard (e (#t #f)) - (def-var! "clojure.core" "reverse" (letrec ((reverse (lambda (coll) (let fnrec2226 ((coll coll)) (jolt-reduce jolt-conj (jolt-list ) coll))))) reverse))) + (def-var! "clojure.core" "reverse" (letrec ((reverse (lambda (coll) (let fnrec1956 ((coll coll)) (jolt-reduce jolt-conj (jolt-list ) coll))))) reverse))) (guard (e (#t #f)) - (def-var! "clojure.core" "empty" (letrec ((empty (lambda (coll) (let fnrec2227 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted?") coll)) (jolt-invoke (jolt-get (jolt-invoke (var-deref "jolt.host" "ref-get") coll (keyword #f "ops")) (keyword #f "empty")) coll) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (jolt-hash-map) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (jolt-hash-set) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-vector) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-list ) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))))) empty))) + (def-var! "clojure.core" "empty" (letrec ((empty (lambda (coll) (let fnrec1957 ((coll coll)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") coll)) jolt-nil (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "sorted?") coll)) (jolt-invoke (jolt-get (jolt-invoke (var-deref "jolt.host" "ref-get") coll (keyword #f "ops")) (keyword #f "empty")) coll) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") coll)) (jolt-hash-map) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "set?") coll)) (jolt-hash-set) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "vector?") coll)) (jolt-vector) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "coll?") coll)) (jolt-list ) (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))))))))))) empty))) (guard (e (#t #f)) - (def-var! "clojure.core" "assoc-in" (letrec ((assoc-in (lambda (m G__30 v) (let fnrec2228 ((m m) (G__30 G__30) (v v)) (let* ((G__31 G__30) (k (jolt-nth G__31 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__31 1))) (if (jolt-truthy? ks) (jolt-assoc m k (jolt-invoke assoc-in (jolt-get m k) ks v)) (jolt-assoc m k v))))))) assoc-in))) + (def-var! "clojure.core" "assoc-in" (letrec ((assoc-in (lambda (m G__28 v) (let fnrec1958 ((m m) (G__28 G__28) (v v)) (let* ((G__29 G__28) (k (jolt-nth G__29 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__29 1))) (if (jolt-truthy? ks) (jolt-assoc m k (jolt-invoke assoc-in (jolt-get m k) ks v)) (jolt-assoc m k v))))))) assoc-in))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-in" (letrec ((update-in (lambda (m ks f . args) (let fnrec2229 ((m m) (ks ks) (f f) (args (list->cseq args))) (let* ((up (letrec ((up (lambda (m ks f args) (let fnrec2230 ((m m) (ks ks) (f f) (args args)) (let* ((G__32 ks) (k (jolt-nth G__32 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__32 1))) (if (jolt-truthy? ks) (jolt-assoc m k (jolt-invoke up (jolt-get m k) ks f args)) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))))) up))) (jolt-invoke up m ks f args)))))) update-in))) + (def-var! "clojure.core" "update-in" (letrec ((update-in (lambda (m ks f . args) (let fnrec1959 ((m m) (ks ks) (f f) (args (list->cseq args))) (let* ((up (letrec ((up (lambda (m ks f args) (let fnrec1960 ((m m) (ks ks) (f f) (args args)) (let* ((G__30 ks) (k (jolt-nth G__30 0 jolt-nil)) (ks (jolt-invoke (var-deref "clojure.core" "nthnext") G__30 1))) (if (jolt-truthy? ks) (jolt-assoc m k (jolt-invoke up (jolt-get m k) ks f args)) (jolt-assoc m k (jolt-apply f (jolt-get m k) args)))))))) up))) (jolt-invoke up m ks f args)))))) update-in))) (guard (e (#t #f)) - (def-var! "clojure.core" "find-keyword" (letrec ((find-keyword (case-lambda ((nm) (let fnrec2231 ((nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") nm))) ((ns nm) (let fnrec2232 ((ns ns) (nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") ns nm)))))) find-keyword))) + (def-var! "clojure.core" "find-keyword" (letrec ((find-keyword (case-lambda ((nm) (let fnrec1961 ((nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") nm))) ((ns nm) (let fnrec1962 ((ns ns) (nm nm)) (jolt-invoke (var-deref "clojure.core" "keyword") ns nm)))))) find-keyword))) (guard (e (#t #f)) - (def-var! "clojure.core" "inst-ms*" (letrec ((inst-ms* (lambda (i) (let fnrec2233 ((i i)) (jolt-invoke (var-deref "clojure.core" "inst-ms") i))))) inst-ms*))) + (def-var! "clojure.core" "inst-ms*" (letrec ((inst-ms* (lambda (i) (let fnrec1963 ((i i)) (jolt-invoke (var-deref "clojure.core" "inst-ms") i))))) inst-ms*))) (guard (e (#t #f)) - (def-var! "clojure.core" "comp" (letrec ((comp (case-lambda (() (let fnrec2234 () jolt-identity)) ((f) (let fnrec2235 ((f f)) f)) ((f g) (let fnrec2236 ((f f) (g g)) (case-lambda (() (let fnrec2237 () (jolt-invoke f (jolt-invoke g)))) ((x) (let fnrec2238 ((x x)) (jolt-invoke f (jolt-invoke g x)))) ((x y) (let fnrec2239 ((x x) (y y)) (jolt-invoke f (jolt-invoke g x y)))) ((x y z) (let fnrec2240 ((x x) (y y) (z z)) (jolt-invoke f (jolt-invoke g x y z)))) ((x y z . args) (let fnrec2241 ((x x) (y y) (z z) (args (list->cseq args))) (jolt-invoke f (jolt-apply g x y z args))))))) ((f g . fs) (let fnrec2242 ((f f) (g g) (fs (list->cseq fs))) (jolt-reduce comp (jolt-invoke comp f g) fs)))))) comp))) + (def-var! "clojure.core" "comp" (letrec ((comp (case-lambda (() (let fnrec1964 () jolt-identity)) ((f) (let fnrec1965 ((f f)) f)) ((f g) (let fnrec1966 ((f f) (g g)) (case-lambda (() (let fnrec1967 () (jolt-invoke f (jolt-invoke g)))) ((x) (let fnrec1968 ((x x)) (jolt-invoke f (jolt-invoke g x)))) ((x y) (let fnrec1969 ((x x) (y y)) (jolt-invoke f (jolt-invoke g x y)))) ((x y z) (let fnrec1970 ((x x) (y y) (z z)) (jolt-invoke f (jolt-invoke g x y z)))) ((x y z . args) (let fnrec1971 ((x x) (y y) (z z) (args (list->cseq args))) (jolt-invoke f (jolt-apply g x y z args))))))) ((f g . fs) (let fnrec1972 ((f f) (g g) (fs (list->cseq fs))) (jolt-reduce comp (jolt-invoke comp f g) fs)))))) comp))) (guard (e (#t #f)) - (def-var! "clojure.core" "ifn?" (letrec ((ifn? (lambda (x) (let fnrec2243 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "fn?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "var?") x))))))))))))))))) ifn?))) + (def-var! "clojure.core" "ifn?" (letrec ((ifn? (lambda (x) (let fnrec1973 ((x x)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "fn?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "keyword?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "symbol?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "map?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "set?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? or__14__auto) or__14__auto (jolt-invoke (var-deref "clojure.core" "var?") x))))))))))))))))) ifn?))) (guard (e (#t #f)) (def-var! "clojure.core" "+'" jolt-add)) (guard (e (#t #f)) @@ -503,17 +503,17 @@ (guard (e (#t #f)) (def-var! "clojure.core" "dec'" jolt-dec)) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-add" (letrec ((unchecked-add (lambda (x y) (let fnrec2244 ((x x) (y y)) (+ x y))))) unchecked-add))) + (def-var! "clojure.core" "unchecked-add" (letrec ((unchecked-add (lambda (x y) (let fnrec1974 ((x x) (y y)) (+ x y))))) unchecked-add))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-subtract" (letrec ((unchecked-subtract (lambda (x y) (let fnrec2245 ((x x) (y y)) (- x y))))) unchecked-subtract))) + (def-var! "clojure.core" "unchecked-subtract" (letrec ((unchecked-subtract (lambda (x y) (let fnrec1975 ((x x) (y y)) (- x y))))) unchecked-subtract))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-multiply" (letrec ((unchecked-multiply (lambda (x y) (let fnrec2246 ((x x) (y y)) (* x y))))) unchecked-multiply))) + (def-var! "clojure.core" "unchecked-multiply" (letrec ((unchecked-multiply (lambda (x y) (let fnrec1976 ((x x) (y y)) (* x y))))) unchecked-multiply))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-negate" (letrec ((unchecked-negate (lambda (x) (let fnrec2247 ((x x)) (- x))))) unchecked-negate))) + (def-var! "clojure.core" "unchecked-negate" (letrec ((unchecked-negate (lambda (x) (let fnrec1977 ((x x)) (- x))))) unchecked-negate))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-inc" (letrec ((unchecked-inc (lambda (x) (let fnrec2248 ((x x)) (+ x 1))))) unchecked-inc))) + (def-var! "clojure.core" "unchecked-inc" (letrec ((unchecked-inc (lambda (x) (let fnrec1978 ((x x)) (+ x 1))))) unchecked-inc))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-dec" (letrec ((unchecked-dec (lambda (x) (let fnrec2249 ((x x)) (- x 1))))) unchecked-dec))) + (def-var! "clojure.core" "unchecked-dec" (letrec ((unchecked-dec (lambda (x) (let fnrec1979 ((x x)) (- x 1))))) unchecked-dec))) (guard (e (#t #f)) (def-var! "clojure.core" "unchecked-add-int" (var-deref "clojure.core" "unchecked-add"))) (guard (e (#t #f)) @@ -527,394 +527,394 @@ (guard (e (#t #f)) (def-var! "clojure.core" "unchecked-dec-int" (var-deref "clojure.core" "unchecked-dec"))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-divide-int" (letrec ((unchecked-divide-int (lambda (x y) (let fnrec2250 ((x x) (y y)) (quotient x y))))) unchecked-divide-int))) + (def-var! "clojure.core" "unchecked-divide-int" (letrec ((unchecked-divide-int (lambda (x y) (let fnrec1980 ((x x) (y y)) (quotient x y))))) unchecked-divide-int))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-remainder-int" (letrec ((unchecked-remainder-int (lambda (x y) (let fnrec2251 ((x x) (y y)) (remainder x y))))) unchecked-remainder-int))) + (def-var! "clojure.core" "unchecked-remainder-int" (letrec ((unchecked-remainder-int (lambda (x y) (let fnrec1981 ((x x) (y y)) (remainder x y))))) unchecked-remainder-int))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-int" (letrec ((unchecked-int (lambda (x) (let fnrec2252 ((x x)) (jolt-invoke (var-deref "clojure.core" "int") x))))) unchecked-int))) + (def-var! "clojure.core" "unchecked-int" (letrec ((unchecked-int (lambda (x) (let fnrec1982 ((x x)) (jolt-invoke (var-deref "clojure.core" "int") x))))) unchecked-int))) (guard (e (#t #f)) (def-var! "clojure.core" "unchecked-long" (var-deref "clojure.core" "unchecked-int"))) (guard (e (#t #f)) - (def-var! "clojure.core" "int?" (letrec ((int? (lambda (x) (let fnrec2253 ((x x)) (jolt-invoke (var-deref "clojure.core" "integer?") x))))) int?))) + (def-var! "clojure.core" "int?" (letrec ((int? (lambda (x) (let fnrec1983 ((x x)) (jolt-invoke (var-deref "clojure.core" "integer?") x))))) int?))) (guard (e (#t #f)) - (def-var! "clojure.core" "num" (letrec ((num (lambda (x) (let fnrec2254 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) x (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "num requires a number, got: " x))))))) num))) + (def-var! "clojure.core" "num" (letrec ((num (lambda (x) (let fnrec1984 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) x (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "num requires a number, got: " x))))))) num))) (guard (e (#t #f)) - (def-var! "clojure.core" "==" (letrec ((== (case-lambda ((x) (let fnrec2255 ((x x)) #t)) ((x y) (let fnrec2256 ((x x) (y y)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "number?") y) and__13__auto))) (jolt= x y) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cannot cast to number: " (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) y x)))))) ((x y . more) (let fnrec2257 ((x x) (y y) (more (list->cseq more))) (if (jolt-truthy? (jolt-invoke == x y)) (jolt-apply == y more) #f)))))) ==))) + (def-var! "clojure.core" "==" (letrec ((== (case-lambda ((x) (let fnrec1985 ((x x)) #t)) ((x y) (let fnrec1986 ((x x) (y y)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "number?") x))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "number?") y) and__13__auto))) (jolt= x y) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "Cannot cast to number: " (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") x)) y x)))))) ((x y . more) (let fnrec1987 ((x x) (y y) (more (list->cseq more))) (if (jolt-truthy? (jolt-invoke == x y)) (jolt-apply == y more) #f)))))) ==))) (guard (e (#t #f)) - (def-var! "clojure.core" "ensure-reduced" (letrec ((ensure-reduced (lambda (x) (let fnrec2258 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) x (jolt-invoke (var-deref "clojure.core" "reduced") x)))))) ensure-reduced))) + (def-var! "clojure.core" "ensure-reduced" (letrec ((ensure-reduced (lambda (x) (let fnrec1988 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") x)) x (jolt-invoke (var-deref "clojure.core" "reduced") x)))))) ensure-reduced))) (guard (e (#t #f)) - (def-var! "clojure.core" "halt-when" (letrec ((halt-when (case-lambda ((pred) (let fnrec2259 ((pred pred)) (jolt-invoke halt-when pred jolt-nil))) ((pred retf) (let fnrec2260 ((pred pred) (retf retf)) (lambda (rf) (let fnrec2261 ((rf rf)) (case-lambda (() (let fnrec2262 () (jolt-invoke rf))) ((result) (let fnrec2263 ((result result)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") result))) (if (jolt-truthy? and__13__auto) (jolt-contains? result (keyword #f "halt")) and__13__auto))) (jolt-get result (keyword #f "halt")) (jolt-invoke rf result)))) ((result input) (let fnrec2264 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke pred input)) (jolt-invoke (var-deref "clojure.core" "reduced") (jolt-hash-map (keyword #f "halt") (if (jolt-truthy? retf) (jolt-invoke retf (jolt-invoke rf result) input) input))) (jolt-invoke rf result input)))))))))))) halt-when))) + (def-var! "clojure.core" "halt-when" (letrec ((halt-when (case-lambda ((pred) (let fnrec1989 ((pred pred)) (jolt-invoke halt-when pred jolt-nil))) ((pred retf) (let fnrec1990 ((pred pred) (retf retf)) (lambda (rf) (let fnrec1991 ((rf rf)) (case-lambda (() (let fnrec1992 () (jolt-invoke rf))) ((result) (let fnrec1993 ((result result)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") result))) (if (jolt-truthy? and__13__auto) (jolt-contains? result (keyword #f "halt")) and__13__auto))) (jolt-get result (keyword #f "halt")) (jolt-invoke rf result)))) ((result input) (let fnrec1994 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke pred input)) (jolt-invoke (var-deref "clojure.core" "reduced") (jolt-hash-map (keyword #f "halt") (if (jolt-truthy? retf) (jolt-invoke retf (jolt-invoke rf result) input) input))) (jolt-invoke rf result input)))))))))))) halt-when))) (guard (e (#t #f)) - (def-var! "clojure.core" "parse-boolean" (letrec ((parse-boolean (lambda (s) (let fnrec2265 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt= s "true") #t (if (jolt= s "false") #f (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-boolean requires a string, got: " s))))))) parse-boolean))) + (def-var! "clojure.core" "parse-boolean" (letrec ((parse-boolean (lambda (s) (let fnrec1995 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") s)) (if (jolt= s "true") #t (if (jolt= s "false") #f (if (jolt-truthy? (keyword #f "else")) jolt-nil jolt-nil))) (jolt-throw (jolt-invoke (var-deref "clojure.core" "str") "parse-boolean requires a string, got: " s))))))) parse-boolean))) (guard (e (#t #f)) - (def-var! "clojure.core" "newline" (letrec ((newline (lambda () (let fnrec2266 () (begin (jolt-invoke (var-deref "clojure.core" "print") "\n") jolt-nil))))) newline))) + (def-var! "clojure.core" "newline" (letrec ((newline (lambda () (let fnrec1996 () (begin (jolt-invoke (var-deref "clojure.core" "print") "\n") jolt-nil))))) newline))) (guard (e (#t #f)) - (def-var! "clojure.core" "seque" (letrec ((seque (case-lambda ((s) (let fnrec2267 ((s s)) s)) ((n-or-q s) (let fnrec2268 ((n-or-q n-or-q) (s s)) s))))) seque))) + (def-var! "clojure.core" "seque" (letrec ((seque (case-lambda ((s) (let fnrec1997 ((s s)) s)) ((n-or-q s) (let fnrec1998 ((n-or-q n-or-q) (s s)) s))))) seque))) (guard (e (#t #f)) - (def-var! "clojure.core" "array-seq" (letrec ((array-seq (lambda (arr . _) (let fnrec2269 ((arr arr) (_ (list->cseq _))) (jolt-seq arr))))) array-seq))) + (def-var! "clojure.core" "array-seq" (letrec ((array-seq (lambda (arr . _) (let fnrec1999 ((arr arr) (_ (list->cseq _))) (jolt-seq arr))))) array-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "to-array-2d" (letrec ((to-array-2d (lambda (coll) (let fnrec2270 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "to-array") (jolt-map (var-deref "clojure.core" "to-array") coll)))))) to-array-2d))) + (def-var! "clojure.core" "to-array-2d" (letrec ((to-array-2d (lambda (coll) (let fnrec2000 ((coll coll)) (jolt-invoke (var-deref "clojure.core" "to-array") (jolt-map (var-deref "clojure.core" "to-array") coll)))))) to-array-2d))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-byte" (letrec ((unchecked-byte (lambda (x) (let fnrec2271 ((x x)) (jolt-invoke (var-deref "clojure.core" "bit-and") (jolt-invoke (var-deref "clojure.core" "int") x) 255))))) unchecked-byte))) + (def-var! "clojure.core" "unchecked-byte" (letrec ((unchecked-byte (lambda (x) (let fnrec2001 ((x x)) (jolt-invoke (var-deref "clojure.core" "bit-and") (jolt-invoke (var-deref "clojure.core" "int") x) 255))))) unchecked-byte))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-short" (letrec ((unchecked-short (lambda (x) (let fnrec2272 ((x x)) (jolt-invoke (var-deref "clojure.core" "bit-and") (jolt-invoke (var-deref "clojure.core" "int") x) 65535))))) unchecked-short))) + (def-var! "clojure.core" "unchecked-short" (letrec ((unchecked-short (lambda (x) (let fnrec2002 ((x x)) (jolt-invoke (var-deref "clojure.core" "bit-and") (jolt-invoke (var-deref "clojure.core" "int") x) 65535))))) unchecked-short))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-char" (letrec ((unchecked-char (lambda (x) (let fnrec2273 ((x x)) (jolt-invoke (var-deref "clojure.core" "char") (jolt-invoke (var-deref "clojure.core" "bit-and") (jolt-invoke (var-deref "clojure.core" "int") x) 65535)))))) unchecked-char))) + (def-var! "clojure.core" "unchecked-char" (letrec ((unchecked-char (lambda (x) (let fnrec2003 ((x x)) (jolt-invoke (var-deref "clojure.core" "char") (jolt-invoke (var-deref "clojure.core" "bit-and") (jolt-invoke (var-deref "clojure.core" "int") x) 65535)))))) unchecked-char))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-float" (letrec ((unchecked-float (lambda (x) (let fnrec2274 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-float))) + (def-var! "clojure.core" "unchecked-float" (letrec ((unchecked-float (lambda (x) (let fnrec2004 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-float))) (guard (e (#t #f)) - (def-var! "clojure.core" "unchecked-double" (letrec ((unchecked-double (lambda (x) (let fnrec2275 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-double))) + (def-var! "clojure.core" "unchecked-double" (letrec ((unchecked-double (lambda (x) (let fnrec2005 ((x x)) (jolt-invoke (var-deref "clojure.core" "double") x))))) unchecked-double))) (guard (e (#t #f)) - (def-var! "clojure.core" "transduce" (letrec ((transduce (case-lambda ((xform f coll) (let fnrec2276 ((xform xform) (f f) (coll coll)) (jolt-invoke transduce xform f (jolt-invoke f) coll))) ((xform f init coll) (let fnrec2277 ((xform xform) (f f) (init init) (coll coll)) (let* ((xf (jolt-invoke xform f))) (jolt-invoke xf (jolt-reduce xf init coll)))))))) transduce))) + (def-var! "clojure.core" "transduce" (letrec ((transduce (case-lambda ((xform f coll) (let fnrec2006 ((xform xform) (f f) (coll coll)) (jolt-invoke transduce xform f (jolt-invoke f) coll))) ((xform f init coll) (let fnrec2007 ((xform xform) (f f) (init init) (coll coll)) (let* ((xf (jolt-invoke xform f))) (jolt-invoke xf (jolt-reduce xf init coll)))))))) transduce))) (guard (e (#t #f)) - (def-var! "clojure.core" "eduction" (letrec ((eduction (lambda args (let fnrec2278 ((args (list->cseq args))) (let* ((coll (jolt-last args)) (xforms (jolt-invoke (var-deref "clojure.core" "butlast") args))) (if (jolt-truthy? xforms) (let* ((_a$2279 jolt-into) (_a$2280 (jolt-vector)) (_a$2281 (jolt-apply (var-deref "clojure.core" "comp") xforms)) (_a$2282 coll)) (jolt-invoke _a$2279 _a$2280 _a$2281 _a$2282)) (jolt-into (jolt-vector) coll))))))) eduction))) + (def-var! "clojure.core" "eduction" (letrec ((eduction (lambda args (let fnrec2008 ((args (list->cseq args))) (let* ((coll (jolt-last args)) (xforms (jolt-invoke (var-deref "clojure.core" "butlast") args))) (if (jolt-truthy? xforms) (let* ((_a$2009 jolt-into) (_a$2010 (jolt-vector)) (_a$2011 (jolt-apply (var-deref "clojure.core" "comp") xforms)) (_a$2012 coll)) (jolt-invoke _a$2009 _a$2010 _a$2011 _a$2012)) (jolt-into (jolt-vector) coll))))))) eduction))) (guard (e (#t #f)) - (def-var! "clojure.core" "->Eduction" (letrec ((->Eduction (lambda (xform coll) (let fnrec2283 ((xform xform) (coll coll)) (jolt-invoke jolt-into (jolt-vector) xform coll))))) ->Eduction))) + (def-var! "clojure.core" "->Eduction" (letrec ((->Eduction (lambda (xform coll) (let fnrec2013 ((xform xform) (coll coll)) (jolt-invoke jolt-into (jolt-vector) xform coll))))) ->Eduction))) (guard (e (#t #f)) - (def-var! "clojure.core" "enumeration-seq" (letrec ((enumeration-seq (lambda (e) (let fnrec2284 ((e e)) (jolt-seq e))))) enumeration-seq))) + (def-var! "clojure.core" "enumeration-seq" (letrec ((enumeration-seq (lambda (e) (let fnrec2014 ((e e)) (jolt-seq e))))) enumeration-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "iterator-seq" (letrec ((iterator-seq (lambda (i) (let fnrec2285 ((i i)) (jolt-seq i))))) iterator-seq))) + (def-var! "clojure.core" "iterator-seq" (letrec ((iterator-seq (lambda (i) (let fnrec2015 ((i i)) (jolt-seq i))))) iterator-seq))) (guard (e (#t #f)) - (def-var! "clojure.core" "promise" (letrec ((promise (lambda () (let fnrec2286 () (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))))) promise))) + (def-var! "clojure.core" "promise" (letrec ((promise (lambda () (let fnrec2016 () (jolt-invoke (var-deref "clojure.core" "atom") jolt-nil))))) promise))) (guard (e (#t #f)) - (def-var! "clojure.core" "deliver" (letrec ((deliver (lambda (p v) (let fnrec2287 ((p p) (v v)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") p v) p))))) deliver))) + (def-var! "clojure.core" "deliver" (letrec ((deliver (lambda (p v) (let fnrec2017 ((p p) (v v)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") p v) p))))) deliver))) (guard (e (#t #f)) - (def-var! "clojure.core" "bean" (letrec ((bean (lambda (x) (let fnrec2288 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) x (jolt-hash-map)))))) bean))) + (def-var! "clojure.core" "bean" (letrec ((bean (lambda (x) (let fnrec2018 ((x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) x (jolt-hash-map)))))) bean))) (guard (e (#t #f)) - (def-var! "clojure.core" "uri?" (letrec ((uri? (lambda (x) (let fnrec2289 ((x x)) #f)))) uri?))) + (def-var! "clojure.core" "uri?" (letrec ((uri? (lambda (x) (let fnrec2019 ((x x)) #f)))) uri?))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "special-syms" (let* ((_o$2290 (jolt-symbol #f "if")) (_o$2291 (jolt-symbol #f "do")) (_o$2292 (jolt-symbol #f "let*")) (_o$2293 (jolt-symbol #f "fn*")) (_o$2294 (jolt-symbol #f "quote")) (_o$2295 (jolt-symbol #f "var")) (_o$2296 (jolt-symbol #f "def")) (_o$2297 (jolt-symbol #f "loop*")) (_o$2298 (jolt-symbol #f "recur")) (_o$2299 (jolt-symbol #f "throw")) (_o$2300 (jolt-symbol #f "try")) (_o$2301 (jolt-symbol #f "catch")) (_o$2302 (jolt-symbol #f "finally")) (_o$2303 (jolt-symbol #f "new")) (_o$2304 (jolt-symbol #f "set!")) (_o$2305 (jolt-symbol #f ".")) (_o$2306 (jolt-symbol #f "monitor-enter")) (_o$2307 (jolt-symbol #f "monitor-exit"))) (jolt-hash-set _o$2290 _o$2291 _o$2292 _o$2293 _o$2294 _o$2295 _o$2296 _o$2297 _o$2298 _o$2299 _o$2300 _o$2301 _o$2302 _o$2303 _o$2304 _o$2305 _o$2306 _o$2307)) (jolt-hash-map (keyword #f "private") #t))) + (def-var-with-meta! "clojure.core" "special-syms" (let* ((_o$2020 (jolt-symbol #f "if")) (_o$2021 (jolt-symbol #f "do")) (_o$2022 (jolt-symbol #f "let*")) (_o$2023 (jolt-symbol #f "fn*")) (_o$2024 (jolt-symbol #f "quote")) (_o$2025 (jolt-symbol #f "var")) (_o$2026 (jolt-symbol #f "def")) (_o$2027 (jolt-symbol #f "loop*")) (_o$2028 (jolt-symbol #f "recur")) (_o$2029 (jolt-symbol #f "throw")) (_o$2030 (jolt-symbol #f "try")) (_o$2031 (jolt-symbol #f "catch")) (_o$2032 (jolt-symbol #f "finally")) (_o$2033 (jolt-symbol #f "new")) (_o$2034 (jolt-symbol #f "set!")) (_o$2035 (jolt-symbol #f ".")) (_o$2036 (jolt-symbol #f "monitor-enter")) (_o$2037 (jolt-symbol #f "monitor-exit"))) (jolt-hash-set _o$2020 _o$2021 _o$2022 _o$2023 _o$2024 _o$2025 _o$2026 _o$2027 _o$2028 _o$2029 _o$2030 _o$2031 _o$2032 _o$2033 _o$2034 _o$2035 _o$2036 _o$2037)) (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var! "clojure.core" "special-symbol?" (letrec ((special-symbol? (lambda (s) (let fnrec2308 ((s s)) (jolt-contains? (var-deref "clojure.core" "special-syms") s))))) special-symbol?))) + (def-var! "clojure.core" "special-symbol?" (letrec ((special-symbol? (lambda (s) (let fnrec2038 ((s s)) (jolt-contains? (var-deref "clojure.core" "special-syms") s))))) special-symbol?))) (guard (e (#t #f)) - (def-var! "clojure.core" "proxy-mappings" (letrec ((proxy-mappings (lambda (p) (let fnrec2309 ((p p)) (jolt-hash-map))))) proxy-mappings))) + (def-var! "clojure.core" "proxy-mappings" (letrec ((proxy-mappings (lambda (p) (let fnrec2039 ((p p)) (jolt-hash-map))))) proxy-mappings))) (guard (e (#t #f)) - (def-var! "clojure.core" "proxy-call-with-super" (letrec ((proxy-call-with-super (lambda (f p meth) (let fnrec2310 ((f f) (p p) (meth meth)) (jolt-invoke f))))) proxy-call-with-super))) + (def-var! "clojure.core" "proxy-call-with-super" (letrec ((proxy-call-with-super (lambda (f p meth) (let fnrec2040 ((f f) (p p) (meth meth)) (jolt-invoke f))))) proxy-call-with-super))) (guard (e (#t #f)) - (def-var! "clojure.core" "init-proxy" (letrec ((init-proxy (lambda (p mappings) (let fnrec2311 ((p p) (mappings mappings)) p)))) init-proxy))) + (def-var! "clojure.core" "init-proxy" (letrec ((init-proxy (lambda (p mappings) (let fnrec2041 ((p p) (mappings mappings)) p)))) init-proxy))) (guard (e (#t #f)) - (def-var! "clojure.core" "update-proxy" (letrec ((update-proxy (lambda (p mappings) (let fnrec2312 ((p p) (mappings mappings)) p)))) update-proxy))) + (def-var! "clojure.core" "update-proxy" (letrec ((update-proxy (lambda (p mappings) (let fnrec2042 ((p p) (mappings mappings)) p)))) update-proxy))) (guard (e (#t #f)) - (def-var! "clojure.core" "proxy-super" (letrec ((proxy-super (lambda args (let fnrec2313 ((args (list->cseq args))) (jolt-throw "proxy-super: JVM proxies are not supported in Jolt"))))) proxy-super))) + (def-var! "clojure.core" "proxy-super" (letrec ((proxy-super (lambda args (let fnrec2043 ((args (list->cseq args))) (jolt-throw "proxy-super: JVM proxies are not supported in Jolt"))))) proxy-super))) (guard (e (#t #f)) - (def-var! "clojure.core" "construct-proxy" (letrec ((construct-proxy (lambda (c . args) (let fnrec2314 ((c c) (args (list->cseq args))) (jolt-throw "construct-proxy: not supported in Jolt"))))) construct-proxy))) + (def-var! "clojure.core" "construct-proxy" (letrec ((construct-proxy (lambda (c . args) (let fnrec2044 ((c c) (args (list->cseq args))) (jolt-throw "construct-proxy: not supported in Jolt"))))) construct-proxy))) (guard (e (#t #f)) - (def-var! "clojure.core" "get-proxy-class" (letrec ((get-proxy-class (lambda interfaces (let fnrec2315 ((interfaces (list->cseq interfaces))) (jolt-throw "get-proxy-class: not supported in Jolt"))))) get-proxy-class))) + (def-var! "clojure.core" "get-proxy-class" (letrec ((get-proxy-class (lambda interfaces (let fnrec2045 ((interfaces (list->cseq interfaces))) (jolt-throw "get-proxy-class: not supported in Jolt"))))) get-proxy-class))) (guard (e (#t #f)) - (def-var! "clojure.core" "sfield" (letrec ((sfield (lambda (sc k) (let fnrec361 ((sc sc) (k k)) (jolt-invoke (var-deref "jolt.host" "ref-get") sc k))))) sfield))) + (def-var! "clojure.core" "sfield" (letrec ((sfield (lambda (sc k) (let fnrec358 ((sc sc) (k k)) (jolt-invoke (var-deref "jolt.host" "ref-get") sc k))))) sfield))) (guard (e (#t #f)) - (def-var! "clojure.core" "fn->cmp" (letrec ((fn->cmp (lambda (f) (let fnrec362 ((f f)) (lambda (a b) (let fnrec363 ((a a) (b b)) (let* ((r (jolt-invoke f a b))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") r)) r (if (jolt-truthy? r) -1 (if (jolt-truthy? (jolt-invoke f b a)) 1 0)))))))))) fn->cmp))) + (def-var! "clojure.core" "fn->cmp" (letrec ((fn->cmp (lambda (f) (let fnrec359 ((f f)) (lambda (a b) (let fnrec360 ((a a) (b b)) (let* ((r (jolt-invoke f a b))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "number?") r)) r (if (jolt-truthy? r) -1 (if (jolt-truthy? (jolt-invoke f b a)) 1 0)))))))))) fn->cmp))) (guard (e (#t #f)) - (def-var! "clojure.core" "the-cmp" (letrec ((the-cmp (lambda (sc) (let fnrec364 ((sc sc)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "sfield") sc (keyword #f "cmp")))) (if (jolt-truthy? or__14__auto) or__14__auto (var-deref "clojure.core" "compare"))))))) the-cmp))) + (def-var! "clojure.core" "the-cmp" (letrec ((the-cmp (lambda (sc) (let fnrec361 ((sc sc)) (let* ((or__14__auto (jolt-invoke (var-deref "clojure.core" "sfield") sc (keyword #f "cmp")))) (if (jolt-truthy? or__14__auto) or__14__auto (var-deref "clojure.core" "compare"))))))) the-cmp))) (guard (e (#t #f)) - (def-var! "clojure.core" "nd-key" (letrec ((nd-key (lambda (n) (let fnrec365 ((n n)) (jolt-nth n 1))))) nd-key))) + (def-var! "clojure.core" "nd-key" (letrec ((nd-key (lambda (n) (let fnrec362 ((n n)) (jolt-nth n 1))))) nd-key))) (guard (e (#t #f)) - (def-var! "clojure.core" "nd-val" (letrec ((nd-val (lambda (n) (let fnrec366 ((n n)) (jolt-nth n 2))))) nd-val))) + (def-var! "clojure.core" "nd-val" (letrec ((nd-val (lambda (n) (let fnrec363 ((n n)) (jolt-nth n 2))))) nd-val))) (guard (e (#t #f)) - (def-var! "clojure.core" "nd-left" (letrec ((nd-left (lambda (n) (let fnrec367 ((n n)) (jolt-nth n 3))))) nd-left))) + (def-var! "clojure.core" "nd-left" (letrec ((nd-left (lambda (n) (let fnrec364 ((n n)) (jolt-nth n 3))))) nd-left))) (guard (e (#t #f)) - (def-var! "clojure.core" "nd-right" (letrec ((nd-right (lambda (n) (let fnrec368 ((n n)) (jolt-nth n 4))))) nd-right))) + (def-var! "clojure.core" "nd-right" (letrec ((nd-right (lambda (n) (let fnrec365 ((n n)) (jolt-nth n 4))))) nd-right))) (guard (e (#t #f)) - (def-var! "clojure.core" "red?" (letrec ((red? (lambda (n) (let fnrec369 ((n n)) (let* ((and__13__auto n)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "identical?") (keyword #f "red") (jolt-nth n 0)) and__13__auto)))))) red?))) + (def-var! "clojure.core" "red?" (letrec ((red? (lambda (n) (let fnrec366 ((n n)) (let* ((and__13__auto n)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "identical?") (keyword #f "red") (jolt-nth n 0)) and__13__auto)))))) red?))) (guard (e (#t #f)) - (def-var! "clojure.core" "black?" (letrec ((black? (lambda (n) (let fnrec370 ((n n)) (let* ((and__13__auto n)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "identical?") (keyword #f "black") (jolt-nth n 0)) and__13__auto)))))) black?))) + (def-var! "clojure.core" "black?" (letrec ((black? (lambda (n) (let fnrec367 ((n n)) (let* ((and__13__auto n)) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "identical?") (keyword #f "black") (jolt-nth n 0)) and__13__auto)))))) black?))) (guard (e (#t #f)) - (def-var! "clojure.core" "mk-red" (letrec ((mk-red (lambda (k v l r) (let fnrec371 ((k k) (v v) (l l) (r r)) (let* ((_o$372 (keyword #f "red")) (_o$373 k) (_o$374 v) (_o$375 l) (_o$376 r)) (jolt-vector _o$372 _o$373 _o$374 _o$375 _o$376)))))) mk-red))) + (def-var! "clojure.core" "mk-red" (letrec ((mk-red (lambda (k v l r) (let fnrec368 ((k k) (v v) (l l) (r r)) (let* ((_o$369 (keyword #f "red")) (_o$370 k) (_o$371 v) (_o$372 l) (_o$373 r)) (jolt-vector _o$369 _o$370 _o$371 _o$372 _o$373)))))) mk-red))) (guard (e (#t #f)) - (def-var! "clojure.core" "mk-black" (letrec ((mk-black (lambda (k v l r) (let fnrec377 ((k k) (v v) (l l) (r r)) (let* ((_o$378 (keyword #f "black")) (_o$379 k) (_o$380 v) (_o$381 l) (_o$382 r)) (jolt-vector _o$378 _o$379 _o$380 _o$381 _o$382)))))) mk-black))) + (def-var! "clojure.core" "mk-black" (letrec ((mk-black (lambda (k v l r) (let fnrec374 ((k k) (v v) (l l) (r r)) (let* ((_o$375 (keyword #f "black")) (_o$376 k) (_o$377 v) (_o$378 l) (_o$379 r)) (jolt-vector _o$375 _o$376 _o$377 _o$378 _o$379)))))) mk-black))) (guard (e (#t #f)) - (def-var! "clojure.core" "blacken" (letrec ((blacken (lambda (n) (let fnrec383 ((n n)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") n)) (let* ((_o$384 (keyword #f "black")) (_o$385 (jolt-invoke (var-deref "clojure.core" "nd-key") n)) (_o$386 (jolt-invoke (var-deref "clojure.core" "nd-val") n)) (_o$387 (jolt-invoke (var-deref "clojure.core" "nd-left") n)) (_o$388 (jolt-invoke (var-deref "clojure.core" "nd-right") n))) (jolt-vector _o$384 _o$385 _o$386 _o$387 _o$388)) n))))) blacken))) + (def-var! "clojure.core" "blacken" (letrec ((blacken (lambda (n) (let fnrec380 ((n n)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") n)) (let* ((_o$381 (keyword #f "black")) (_o$382 (jolt-invoke (var-deref "clojure.core" "nd-key") n)) (_o$383 (jolt-invoke (var-deref "clojure.core" "nd-val") n)) (_o$384 (jolt-invoke (var-deref "clojure.core" "nd-left") n)) (_o$385 (jolt-invoke (var-deref "clojure.core" "nd-right") n))) (jolt-vector _o$381 _o$382 _o$383 _o$384 _o$385)) n))))) blacken))) (guard (e (#t #f)) - (def-var! "clojure.core" "redden" (letrec ((redden (lambda (n) (let fnrec389 ((n n)) (let* ((_o$390 (keyword #f "red")) (_o$391 (jolt-invoke (var-deref "clojure.core" "nd-key") n)) (_o$392 (jolt-invoke (var-deref "clojure.core" "nd-val") n)) (_o$393 (jolt-invoke (var-deref "clojure.core" "nd-left") n)) (_o$394 (jolt-invoke (var-deref "clojure.core" "nd-right") n))) (jolt-vector _o$390 _o$391 _o$392 _o$393 _o$394)))))) redden))) + (def-var! "clojure.core" "redden" (letrec ((redden (lambda (n) (let fnrec386 ((n n)) (let* ((_o$387 (keyword #f "red")) (_o$388 (jolt-invoke (var-deref "clojure.core" "nd-key") n)) (_o$389 (jolt-invoke (var-deref "clojure.core" "nd-val") n)) (_o$390 (jolt-invoke (var-deref "clojure.core" "nd-left") n)) (_o$391 (jolt-invoke (var-deref "clojure.core" "nd-right") n))) (jolt-vector _o$387 _o$388 _o$389 _o$390 _o$391)))))) redden))) (guard (e (#t #f)) - (def-var! "clojure.core" "replace-node" (letrec ((replace-node (lambda (n k v l r) (let fnrec395 ((n n) (k k) (v v) (l l) (r r)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") n)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v l r) (jolt-invoke (var-deref "clojure.core" "mk-black") k v l r)))))) replace-node))) + (def-var! "clojure.core" "replace-node" (letrec ((replace-node (lambda (n k v l r) (let fnrec392 ((n n) (k k) (v v) (l l) (r r)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") n)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v l r) (jolt-invoke (var-deref "clojure.core" "mk-black") k v l r)))))) replace-node))) (guard (e (#t #f)) - (def-var! "clojure.core" "ins-balance-left" (letrec ((ins-balance-left (lambda (ins parent) (let fnrec396 ((ins ins) (parent parent)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((l (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (r (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") l)) (let* ((_a$402 (var-deref "clojure.core" "mk-red")) (_a$403 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$404 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$405 (jolt-invoke (var-deref "clojure.core" "blacken") l)) (_a$406 (let* ((_a$397 (var-deref "clojure.core" "mk-black")) (_a$398 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$399 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$400 r) (_a$401 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$397 _a$398 _a$399 _a$400 _a$401)))) (jolt-invoke _a$402 _a$403 _a$404 _a$405 _a$406)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") r)) (let* ((_a$417 (var-deref "clojure.core" "mk-red")) (_a$418 (jolt-invoke (var-deref "clojure.core" "nd-key") r)) (_a$419 (jolt-invoke (var-deref "clojure.core" "nd-val") r)) (_a$420 (let* ((_a$407 (var-deref "clojure.core" "mk-black")) (_a$408 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$409 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$410 l) (_a$411 (jolt-invoke (var-deref "clojure.core" "nd-left") r))) (jolt-invoke _a$407 _a$408 _a$409 _a$410 _a$411))) (_a$421 (let* ((_a$412 (var-deref "clojure.core" "mk-black")) (_a$413 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$414 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$415 (jolt-invoke (var-deref "clojure.core" "nd-right") r)) (_a$416 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$412 _a$413 _a$414 _a$415 _a$416)))) (jolt-invoke _a$417 _a$418 _a$419 _a$420 _a$421)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$422 (var-deref "clojure.core" "mk-black")) (_a$423 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$424 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$425 ins) (_a$426 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$422 _a$423 _a$424 _a$425 _a$426)) jolt-nil)))) (let* ((_a$427 (var-deref "clojure.core" "mk-black")) (_a$428 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$429 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$430 ins) (_a$431 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$427 _a$428 _a$429 _a$430 _a$431))))))) ins-balance-left))) + (def-var! "clojure.core" "ins-balance-left" (letrec ((ins-balance-left (lambda (ins parent) (let fnrec393 ((ins ins) (parent parent)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((l (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (r (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") l)) (let* ((_a$399 (var-deref "clojure.core" "mk-red")) (_a$400 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$401 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$402 (jolt-invoke (var-deref "clojure.core" "blacken") l)) (_a$403 (let* ((_a$394 (var-deref "clojure.core" "mk-black")) (_a$395 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$396 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$397 r) (_a$398 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$394 _a$395 _a$396 _a$397 _a$398)))) (jolt-invoke _a$399 _a$400 _a$401 _a$402 _a$403)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") r)) (let* ((_a$414 (var-deref "clojure.core" "mk-red")) (_a$415 (jolt-invoke (var-deref "clojure.core" "nd-key") r)) (_a$416 (jolt-invoke (var-deref "clojure.core" "nd-val") r)) (_a$417 (let* ((_a$404 (var-deref "clojure.core" "mk-black")) (_a$405 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$406 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$407 l) (_a$408 (jolt-invoke (var-deref "clojure.core" "nd-left") r))) (jolt-invoke _a$404 _a$405 _a$406 _a$407 _a$408))) (_a$418 (let* ((_a$409 (var-deref "clojure.core" "mk-black")) (_a$410 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$411 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$412 (jolt-invoke (var-deref "clojure.core" "nd-right") r)) (_a$413 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$409 _a$410 _a$411 _a$412 _a$413)))) (jolt-invoke _a$414 _a$415 _a$416 _a$417 _a$418)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$419 (var-deref "clojure.core" "mk-black")) (_a$420 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$421 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$422 ins) (_a$423 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$419 _a$420 _a$421 _a$422 _a$423)) jolt-nil)))) (let* ((_a$424 (var-deref "clojure.core" "mk-black")) (_a$425 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$426 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$427 ins) (_a$428 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$424 _a$425 _a$426 _a$427 _a$428))))))) ins-balance-left))) (guard (e (#t #f)) - (def-var! "clojure.core" "ins-balance-right" (letrec ((ins-balance-right (lambda (ins parent) (let fnrec432 ((ins ins) (parent parent)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((l (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (r (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") r)) (let* ((_a$438 (var-deref "clojure.core" "mk-red")) (_a$439 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$440 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$441 (let* ((_a$433 (var-deref "clojure.core" "mk-black")) (_a$434 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$435 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$436 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$437 l)) (jolt-invoke _a$433 _a$434 _a$435 _a$436 _a$437))) (_a$442 (jolt-invoke (var-deref "clojure.core" "blacken") r))) (jolt-invoke _a$438 _a$439 _a$440 _a$441 _a$442)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") l)) (let* ((_a$453 (var-deref "clojure.core" "mk-red")) (_a$454 (jolt-invoke (var-deref "clojure.core" "nd-key") l)) (_a$455 (jolt-invoke (var-deref "clojure.core" "nd-val") l)) (_a$456 (let* ((_a$443 (var-deref "clojure.core" "mk-black")) (_a$444 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$445 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$446 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$447 (jolt-invoke (var-deref "clojure.core" "nd-left") l))) (jolt-invoke _a$443 _a$444 _a$445 _a$446 _a$447))) (_a$457 (let* ((_a$448 (var-deref "clojure.core" "mk-black")) (_a$449 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$450 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$451 (jolt-invoke (var-deref "clojure.core" "nd-right") l)) (_a$452 r)) (jolt-invoke _a$448 _a$449 _a$450 _a$451 _a$452)))) (jolt-invoke _a$453 _a$454 _a$455 _a$456 _a$457)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$458 (var-deref "clojure.core" "mk-black")) (_a$459 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$460 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$461 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$462 ins)) (jolt-invoke _a$458 _a$459 _a$460 _a$461 _a$462)) jolt-nil)))) (let* ((_a$463 (var-deref "clojure.core" "mk-black")) (_a$464 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$465 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$466 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$467 ins)) (jolt-invoke _a$463 _a$464 _a$465 _a$466 _a$467))))))) ins-balance-right))) + (def-var! "clojure.core" "ins-balance-right" (letrec ((ins-balance-right (lambda (ins parent) (let fnrec429 ((ins ins) (parent parent)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((l (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (r (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") r)) (let* ((_a$435 (var-deref "clojure.core" "mk-red")) (_a$436 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$437 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$438 (let* ((_a$430 (var-deref "clojure.core" "mk-black")) (_a$431 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$432 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$433 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$434 l)) (jolt-invoke _a$430 _a$431 _a$432 _a$433 _a$434))) (_a$439 (jolt-invoke (var-deref "clojure.core" "blacken") r))) (jolt-invoke _a$435 _a$436 _a$437 _a$438 _a$439)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") l)) (let* ((_a$450 (var-deref "clojure.core" "mk-red")) (_a$451 (jolt-invoke (var-deref "clojure.core" "nd-key") l)) (_a$452 (jolt-invoke (var-deref "clojure.core" "nd-val") l)) (_a$453 (let* ((_a$440 (var-deref "clojure.core" "mk-black")) (_a$441 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$442 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$443 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$444 (jolt-invoke (var-deref "clojure.core" "nd-left") l))) (jolt-invoke _a$440 _a$441 _a$442 _a$443 _a$444))) (_a$454 (let* ((_a$445 (var-deref "clojure.core" "mk-black")) (_a$446 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$447 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$448 (jolt-invoke (var-deref "clojure.core" "nd-right") l)) (_a$449 r)) (jolt-invoke _a$445 _a$446 _a$447 _a$448 _a$449)))) (jolt-invoke _a$450 _a$451 _a$452 _a$453 _a$454)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$455 (var-deref "clojure.core" "mk-black")) (_a$456 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$457 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$458 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$459 ins)) (jolt-invoke _a$455 _a$456 _a$457 _a$458 _a$459)) jolt-nil)))) (let* ((_a$460 (var-deref "clojure.core" "mk-black")) (_a$461 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$462 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$463 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$464 ins)) (jolt-invoke _a$460 _a$461 _a$462 _a$463 _a$464))))))) ins-balance-right))) (guard (e (#t #f)) - (def-var! "clojure.core" "add-left" (letrec ((add-left (lambda (parent ins) (let fnrec468 ((parent parent) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") parent)) (let* ((_a$469 (var-deref "clojure.core" "mk-red")) (_a$470 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$471 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$472 ins) (_a$473 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$469 _a$470 _a$471 _a$472 _a$473)) (jolt-invoke (var-deref "clojure.core" "ins-balance-left") ins parent)))))) add-left))) + (def-var! "clojure.core" "add-left" (letrec ((add-left (lambda (parent ins) (let fnrec465 ((parent parent) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") parent)) (let* ((_a$466 (var-deref "clojure.core" "mk-red")) (_a$467 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$468 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$469 ins) (_a$470 (jolt-invoke (var-deref "clojure.core" "nd-right") parent))) (jolt-invoke _a$466 _a$467 _a$468 _a$469 _a$470)) (jolt-invoke (var-deref "clojure.core" "ins-balance-left") ins parent)))))) add-left))) (guard (e (#t #f)) - (def-var! "clojure.core" "add-right" (letrec ((add-right (lambda (parent ins) (let fnrec474 ((parent parent) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") parent)) (let* ((_a$475 (var-deref "clojure.core" "mk-red")) (_a$476 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$477 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$478 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$479 ins)) (jolt-invoke _a$475 _a$476 _a$477 _a$478 _a$479)) (jolt-invoke (var-deref "clojure.core" "ins-balance-right") ins parent)))))) add-right))) + (def-var! "clojure.core" "add-right" (letrec ((add-right (lambda (parent ins) (let fnrec471 ((parent parent) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") parent)) (let* ((_a$472 (var-deref "clojure.core" "mk-red")) (_a$473 (jolt-invoke (var-deref "clojure.core" "nd-key") parent)) (_a$474 (jolt-invoke (var-deref "clojure.core" "nd-val") parent)) (_a$475 (jolt-invoke (var-deref "clojure.core" "nd-left") parent)) (_a$476 ins)) (jolt-invoke _a$472 _a$473 _a$474 _a$475 _a$476)) (jolt-invoke (var-deref "clojure.core" "ins-balance-right") ins parent)))))) add-right))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-ins" (letrec ((tree-ins (lambda (cmp tree k v) (let fnrec480 ((cmp cmp) (tree tree) (k k) (v v)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") tree)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v jolt-nil jolt-nil) (if (jolt-neg? (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree))) (jolt-invoke (var-deref "clojure.core" "add-left") tree (jolt-invoke tree-ins cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k v)) (jolt-invoke (var-deref "clojure.core" "add-right") tree (jolt-invoke tree-ins cmp (jolt-invoke (var-deref "clojure.core" "nd-right") tree) k v)))))))) tree-ins))) + (def-var! "clojure.core" "tree-ins" (letrec ((tree-ins (lambda (cmp tree k v) (let fnrec477 ((cmp cmp) (tree tree) (k k) (v v)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") tree)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v jolt-nil jolt-nil) (if (jolt-neg? (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree))) (jolt-invoke (var-deref "clojure.core" "add-left") tree (jolt-invoke tree-ins cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k v)) (jolt-invoke (var-deref "clojure.core" "add-right") tree (jolt-invoke tree-ins cmp (jolt-invoke (var-deref "clojure.core" "nd-right") tree) k v)))))))) tree-ins))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-replace" (letrec ((tree-replace (lambda (cmp tree k v) (let fnrec481 ((cmp cmp) (tree tree) (k k) (v v)) (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree)))) (if (jolt-zero? c) (let* ((_a$482 (var-deref "clojure.core" "replace-node")) (_a$483 tree) (_a$484 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$485 v) (_a$486 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$487 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$482 _a$483 _a$484 _a$485 _a$486 _a$487)) (if (jolt-neg? c) (let* ((_a$488 (var-deref "clojure.core" "replace-node")) (_a$489 tree) (_a$490 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$491 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$492 (jolt-invoke tree-replace cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k v)) (_a$493 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$488 _a$489 _a$490 _a$491 _a$492 _a$493)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$494 (var-deref "clojure.core" "replace-node")) (_a$495 tree) (_a$496 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$497 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$498 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$499 (jolt-invoke tree-replace cmp (jolt-invoke (var-deref "clojure.core" "nd-right") tree) k v))) (jolt-invoke _a$494 _a$495 _a$496 _a$497 _a$498 _a$499)) jolt-nil)))))))) tree-replace))) + (def-var! "clojure.core" "tree-replace" (letrec ((tree-replace (lambda (cmp tree k v) (let fnrec478 ((cmp cmp) (tree tree) (k k) (v v)) (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree)))) (if (jolt-zero? c) (let* ((_a$479 (var-deref "clojure.core" "replace-node")) (_a$480 tree) (_a$481 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$482 v) (_a$483 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$484 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$479 _a$480 _a$481 _a$482 _a$483 _a$484)) (if (jolt-neg? c) (let* ((_a$485 (var-deref "clojure.core" "replace-node")) (_a$486 tree) (_a$487 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$488 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$489 (jolt-invoke tree-replace cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k v)) (_a$490 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$485 _a$486 _a$487 _a$488 _a$489 _a$490)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$491 (var-deref "clojure.core" "replace-node")) (_a$492 tree) (_a$493 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$494 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$495 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$496 (jolt-invoke tree-replace cmp (jolt-invoke (var-deref "clojure.core" "nd-right") tree) k v))) (jolt-invoke _a$491 _a$492 _a$493 _a$494 _a$495 _a$496)) jolt-nil)))))))) tree-replace))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-lookup" (letrec ((tree-lookup (lambda (tree cmp k) (let fnrec500 ((tree tree) (cmp cmp) (k k)) (let* ((t tree)) (let loop501 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") t)) jolt-nil (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") t)))) (if (jolt-zero? c) t (if (jolt-neg? c) (loop501 (jolt-invoke (var-deref "clojure.core" "nd-left") t)) (if (jolt-truthy? (keyword #f "else")) (loop501 (jolt-invoke (var-deref "clojure.core" "nd-right") t)) jolt-nil))))))))))) tree-lookup))) + (def-var! "clojure.core" "tree-lookup" (letrec ((tree-lookup (lambda (tree cmp k) (let fnrec497 ((tree tree) (cmp cmp) (k k)) (let* ((t tree)) (let loop498 ((t t)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") t)) jolt-nil (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") t)))) (if (jolt-zero? c) t (if (jolt-neg? c) (loop498 (jolt-invoke (var-deref "clojure.core" "nd-left") t)) (if (jolt-truthy? (keyword #f "else")) (loop498 (jolt-invoke (var-deref "clojure.core" "nd-right") t)) jolt-nil))))))))))) tree-lookup))) (guard (e (#t #f)) - (def-var! "clojure.core" "balance-left" (letrec ((balance-left (lambda (k v ins right) (let fnrec502 ((k k) (v v) (ins ins) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$503 (var-deref "clojure.core" "mk-red")) (_a$504 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$505 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$506 (jolt-invoke (var-deref "clojure.core" "blacken") il)) (_a$507 (jolt-invoke (var-deref "clojure.core" "mk-black") k v ir right))) (jolt-invoke _a$503 _a$504 _a$505 _a$506 _a$507)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$513 (var-deref "clojure.core" "mk-red")) (_a$514 (jolt-invoke (var-deref "clojure.core" "nd-key") ir)) (_a$515 (jolt-invoke (var-deref "clojure.core" "nd-val") ir)) (_a$516 (let* ((_a$508 (var-deref "clojure.core" "mk-black")) (_a$509 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$510 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$511 il) (_a$512 (jolt-invoke (var-deref "clojure.core" "nd-left") ir))) (jolt-invoke _a$508 _a$509 _a$510 _a$511 _a$512))) (_a$517 (jolt-invoke (var-deref "clojure.core" "mk-black") k v (jolt-invoke (var-deref "clojure.core" "nd-right") ir) right))) (jolt-invoke _a$513 _a$514 _a$515 _a$516 _a$517)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v ins right) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v ins right)))))) balance-left))) + (def-var! "clojure.core" "balance-left" (letrec ((balance-left (lambda (k v ins right) (let fnrec499 ((k k) (v v) (ins ins) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$500 (var-deref "clojure.core" "mk-red")) (_a$501 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$502 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$503 (jolt-invoke (var-deref "clojure.core" "blacken") il)) (_a$504 (jolt-invoke (var-deref "clojure.core" "mk-black") k v ir right))) (jolt-invoke _a$500 _a$501 _a$502 _a$503 _a$504)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$510 (var-deref "clojure.core" "mk-red")) (_a$511 (jolt-invoke (var-deref "clojure.core" "nd-key") ir)) (_a$512 (jolt-invoke (var-deref "clojure.core" "nd-val") ir)) (_a$513 (let* ((_a$505 (var-deref "clojure.core" "mk-black")) (_a$506 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$507 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$508 il) (_a$509 (jolt-invoke (var-deref "clojure.core" "nd-left") ir))) (jolt-invoke _a$505 _a$506 _a$507 _a$508 _a$509))) (_a$514 (jolt-invoke (var-deref "clojure.core" "mk-black") k v (jolt-invoke (var-deref "clojure.core" "nd-right") ir) right))) (jolt-invoke _a$510 _a$511 _a$512 _a$513 _a$514)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v ins right) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v ins right)))))) balance-left))) (guard (e (#t #f)) - (def-var! "clojure.core" "balance-right" (letrec ((balance-right (lambda (k v left ins) (let fnrec518 ((k k) (v v) (left left) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$519 (var-deref "clojure.core" "mk-red")) (_a$520 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$521 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$522 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left il)) (_a$523 (jolt-invoke (var-deref "clojure.core" "blacken") ir))) (jolt-invoke _a$519 _a$520 _a$521 _a$522 _a$523)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$529 (var-deref "clojure.core" "mk-red")) (_a$530 (jolt-invoke (var-deref "clojure.core" "nd-key") il)) (_a$531 (jolt-invoke (var-deref "clojure.core" "nd-val") il)) (_a$532 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left (jolt-invoke (var-deref "clojure.core" "nd-left") il))) (_a$533 (let* ((_a$524 (var-deref "clojure.core" "mk-black")) (_a$525 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$526 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$527 (jolt-invoke (var-deref "clojure.core" "nd-right") il)) (_a$528 ir)) (jolt-invoke _a$524 _a$525 _a$526 _a$527 _a$528)))) (jolt-invoke _a$529 _a$530 _a$531 _a$532 _a$533)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins)))))) balance-right))) + (def-var! "clojure.core" "balance-right" (letrec ((balance-right (lambda (k v left ins) (let fnrec515 ((k k) (v v) (left left) (ins ins)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ins)) (let* ((il (jolt-invoke (var-deref "clojure.core" "nd-left") ins)) (ir (jolt-invoke (var-deref "clojure.core" "nd-right") ins))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") ir)) (let* ((_a$516 (var-deref "clojure.core" "mk-red")) (_a$517 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$518 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$519 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left il)) (_a$520 (jolt-invoke (var-deref "clojure.core" "blacken") ir))) (jolt-invoke _a$516 _a$517 _a$518 _a$519 _a$520)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") il)) (let* ((_a$526 (var-deref "clojure.core" "mk-red")) (_a$527 (jolt-invoke (var-deref "clojure.core" "nd-key") il)) (_a$528 (jolt-invoke (var-deref "clojure.core" "nd-val") il)) (_a$529 (jolt-invoke (var-deref "clojure.core" "mk-black") k v left (jolt-invoke (var-deref "clojure.core" "nd-left") il))) (_a$530 (let* ((_a$521 (var-deref "clojure.core" "mk-black")) (_a$522 (jolt-invoke (var-deref "clojure.core" "nd-key") ins)) (_a$523 (jolt-invoke (var-deref "clojure.core" "nd-val") ins)) (_a$524 (jolt-invoke (var-deref "clojure.core" "nd-right") il)) (_a$525 ir)) (jolt-invoke _a$521 _a$522 _a$523 _a$524 _a$525)))) (jolt-invoke _a$526 _a$527 _a$528 _a$529 _a$530)) (if (jolt-truthy? (keyword #f "else")) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins) jolt-nil)))) (jolt-invoke (var-deref "clojure.core" "mk-black") k v left ins)))))) balance-right))) (guard (e (#t #f)) - (def-var! "clojure.core" "balance-left-del" (letrec ((balance-left-del (lambda (k v del right) (let fnrec534 ((k k) (v v) (del del) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v (jolt-invoke (var-deref "clojure.core" "blacken") del) right) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") right)) (jolt-invoke (var-deref "clojure.core" "balance-right") k v del (jolt-invoke (var-deref "clojure.core" "redden") right)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "red?") right))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-left") right)) and__13__auto))) (let* ((_a$540 (var-deref "clojure.core" "mk-red")) (_a$541 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$542 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$543 (jolt-invoke (var-deref "clojure.core" "mk-black") k v del (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-left") right)))) (_a$544 (let* ((_a$535 (var-deref "clojure.core" "balance-right")) (_a$536 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$537 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$538 (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$539 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-right") right)))) (jolt-invoke _a$535 _a$536 _a$537 _a$538 _a$539)))) (jolt-invoke _a$540 _a$541 _a$542 _a$543 _a$544)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-left-del))) + (def-var! "clojure.core" "balance-left-del" (letrec ((balance-left-del (lambda (k v del right) (let fnrec531 ((k k) (v v) (del del) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v (jolt-invoke (var-deref "clojure.core" "blacken") del) right) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") right)) (jolt-invoke (var-deref "clojure.core" "balance-right") k v del (jolt-invoke (var-deref "clojure.core" "redden") right)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "red?") right))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-left") right)) and__13__auto))) (let* ((_a$537 (var-deref "clojure.core" "mk-red")) (_a$538 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$539 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$540 (jolt-invoke (var-deref "clojure.core" "mk-black") k v del (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-left") right)))) (_a$541 (let* ((_a$532 (var-deref "clojure.core" "balance-right")) (_a$533 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$534 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$535 (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$536 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-right") right)))) (jolt-invoke _a$532 _a$533 _a$534 _a$535 _a$536)))) (jolt-invoke _a$537 _a$538 _a$539 _a$540 _a$541)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-left-del))) (guard (e (#t #f)) - (def-var! "clojure.core" "balance-right-del" (letrec ((balance-right-del (lambda (k v left del) (let fnrec545 ((k k) (v v) (left left) (del del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v left (jolt-invoke (var-deref "clojure.core" "blacken") del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") left)) (jolt-invoke (var-deref "clojure.core" "balance-left") k v (jolt-invoke (var-deref "clojure.core" "redden") left) del) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "red?") left))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-right") left)) and__13__auto))) (let* ((_a$551 (var-deref "clojure.core" "mk-red")) (_a$552 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-right") left))) (_a$553 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-right") left))) (_a$554 (let* ((_a$546 (var-deref "clojure.core" "balance-left")) (_a$547 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$548 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$549 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-left") left))) (_a$550 (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-right") left)))) (jolt-invoke _a$546 _a$547 _a$548 _a$549 _a$550))) (_a$555 (jolt-invoke (var-deref "clojure.core" "mk-black") k v (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-right") left)) del))) (jolt-invoke _a$551 _a$552 _a$553 _a$554 _a$555)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-right-del))) + (def-var! "clojure.core" "balance-right-del" (letrec ((balance-right-del (lambda (k v left del) (let fnrec542 ((k k) (v v) (left left) (del del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") del)) (jolt-invoke (var-deref "clojure.core" "mk-red") k v left (jolt-invoke (var-deref "clojure.core" "blacken") del)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") left)) (jolt-invoke (var-deref "clojure.core" "balance-left") k v (jolt-invoke (var-deref "clojure.core" "redden") left) del) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "red?") left))) (if (jolt-truthy? and__13__auto) (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-right") left)) and__13__auto))) (let* ((_a$548 (var-deref "clojure.core" "mk-red")) (_a$549 (jolt-invoke (var-deref "clojure.core" "nd-key") (jolt-invoke (var-deref "clojure.core" "nd-right") left))) (_a$550 (jolt-invoke (var-deref "clojure.core" "nd-val") (jolt-invoke (var-deref "clojure.core" "nd-right") left))) (_a$551 (let* ((_a$543 (var-deref "clojure.core" "balance-left")) (_a$544 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$545 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$546 (jolt-invoke (var-deref "clojure.core" "redden") (jolt-invoke (var-deref "clojure.core" "nd-left") left))) (_a$547 (jolt-invoke (var-deref "clojure.core" "nd-left") (jolt-invoke (var-deref "clojure.core" "nd-right") left)))) (jolt-invoke _a$543 _a$544 _a$545 _a$546 _a$547))) (_a$552 (jolt-invoke (var-deref "clojure.core" "mk-black") k v (jolt-invoke (var-deref "clojure.core" "nd-right") (jolt-invoke (var-deref "clojure.core" "nd-right") left)) del))) (jolt-invoke _a$548 _a$549 _a$550 _a$551 _a$552)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "red-black tree invariant violation" (jolt-hash-map))) jolt-nil)))))))) balance-right-del))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-append" (letrec ((tree-append (lambda (left right) (let fnrec556 ((left left) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") left)) right (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") right)) left (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") left)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") right)) (let* ((app (let* ((_a$557 tree-append) (_a$558 (jolt-invoke (var-deref "clojure.core" "nd-right") left)) (_a$559 (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (jolt-invoke _a$557 _a$558 _a$559)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") app)) (let* ((_a$570 (var-deref "clojure.core" "mk-red")) (_a$571 (jolt-invoke (var-deref "clojure.core" "nd-key") app)) (_a$572 (jolt-invoke (var-deref "clojure.core" "nd-val") app)) (_a$573 (let* ((_a$560 (var-deref "clojure.core" "mk-red")) (_a$561 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$562 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$563 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$564 (jolt-invoke (var-deref "clojure.core" "nd-left") app))) (jolt-invoke _a$560 _a$561 _a$562 _a$563 _a$564))) (_a$574 (let* ((_a$565 (var-deref "clojure.core" "mk-red")) (_a$566 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$567 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$568 (jolt-invoke (var-deref "clojure.core" "nd-right") app)) (_a$569 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$565 _a$566 _a$567 _a$568 _a$569)))) (jolt-invoke _a$570 _a$571 _a$572 _a$573 _a$574)) (let* ((_a$580 (var-deref "clojure.core" "mk-red")) (_a$581 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$582 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$583 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$584 (let* ((_a$575 (var-deref "clojure.core" "mk-red")) (_a$576 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$577 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$578 app) (_a$579 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$575 _a$576 _a$577 _a$578 _a$579)))) (jolt-invoke _a$580 _a$581 _a$582 _a$583 _a$584)))) (let* ((_a$585 (var-deref "clojure.core" "mk-red")) (_a$586 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$587 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$588 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$589 (jolt-invoke tree-append (jolt-invoke (var-deref "clojure.core" "nd-right") left) right))) (jolt-invoke _a$585 _a$586 _a$587 _a$588 _a$589))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") right)) (let* ((_a$590 (var-deref "clojure.core" "mk-red")) (_a$591 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$592 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$593 (jolt-invoke tree-append left (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$594 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$590 _a$591 _a$592 _a$593 _a$594)) (if (jolt-truthy? (keyword #f "else")) (let* ((app (let* ((_a$595 tree-append) (_a$596 (jolt-invoke (var-deref "clojure.core" "nd-right") left)) (_a$597 (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (jolt-invoke _a$595 _a$596 _a$597)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") app)) (let* ((_a$608 (var-deref "clojure.core" "mk-red")) (_a$609 (jolt-invoke (var-deref "clojure.core" "nd-key") app)) (_a$610 (jolt-invoke (var-deref "clojure.core" "nd-val") app)) (_a$611 (let* ((_a$598 (var-deref "clojure.core" "mk-black")) (_a$599 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$600 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$601 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$602 (jolt-invoke (var-deref "clojure.core" "nd-left") app))) (jolt-invoke _a$598 _a$599 _a$600 _a$601 _a$602))) (_a$612 (let* ((_a$603 (var-deref "clojure.core" "mk-black")) (_a$604 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$605 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$606 (jolt-invoke (var-deref "clojure.core" "nd-right") app)) (_a$607 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$603 _a$604 _a$605 _a$606 _a$607)))) (jolt-invoke _a$608 _a$609 _a$610 _a$611 _a$612)) (let* ((_a$618 (var-deref "clojure.core" "balance-left-del")) (_a$619 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$620 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$621 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$622 (let* ((_a$613 (var-deref "clojure.core" "mk-black")) (_a$614 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$615 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$616 app) (_a$617 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$613 _a$614 _a$615 _a$616 _a$617)))) (jolt-invoke _a$618 _a$619 _a$620 _a$621 _a$622)))) jolt-nil))))))))) tree-append))) + (def-var! "clojure.core" "tree-append" (letrec ((tree-append (lambda (left right) (let fnrec553 ((left left) (right right)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") left)) right (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") right)) left (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") left)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") right)) (let* ((app (let* ((_a$554 tree-append) (_a$555 (jolt-invoke (var-deref "clojure.core" "nd-right") left)) (_a$556 (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (jolt-invoke _a$554 _a$555 _a$556)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") app)) (let* ((_a$567 (var-deref "clojure.core" "mk-red")) (_a$568 (jolt-invoke (var-deref "clojure.core" "nd-key") app)) (_a$569 (jolt-invoke (var-deref "clojure.core" "nd-val") app)) (_a$570 (let* ((_a$557 (var-deref "clojure.core" "mk-red")) (_a$558 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$559 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$560 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$561 (jolt-invoke (var-deref "clojure.core" "nd-left") app))) (jolt-invoke _a$557 _a$558 _a$559 _a$560 _a$561))) (_a$571 (let* ((_a$562 (var-deref "clojure.core" "mk-red")) (_a$563 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$564 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$565 (jolt-invoke (var-deref "clojure.core" "nd-right") app)) (_a$566 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$562 _a$563 _a$564 _a$565 _a$566)))) (jolt-invoke _a$567 _a$568 _a$569 _a$570 _a$571)) (let* ((_a$577 (var-deref "clojure.core" "mk-red")) (_a$578 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$579 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$580 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$581 (let* ((_a$572 (var-deref "clojure.core" "mk-red")) (_a$573 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$574 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$575 app) (_a$576 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$572 _a$573 _a$574 _a$575 _a$576)))) (jolt-invoke _a$577 _a$578 _a$579 _a$580 _a$581)))) (let* ((_a$582 (var-deref "clojure.core" "mk-red")) (_a$583 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$584 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$585 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$586 (jolt-invoke tree-append (jolt-invoke (var-deref "clojure.core" "nd-right") left) right))) (jolt-invoke _a$582 _a$583 _a$584 _a$585 _a$586))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") right)) (let* ((_a$587 (var-deref "clojure.core" "mk-red")) (_a$588 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$589 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$590 (jolt-invoke tree-append left (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (_a$591 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$587 _a$588 _a$589 _a$590 _a$591)) (if (jolt-truthy? (keyword #f "else")) (let* ((app (let* ((_a$592 tree-append) (_a$593 (jolt-invoke (var-deref "clojure.core" "nd-right") left)) (_a$594 (jolt-invoke (var-deref "clojure.core" "nd-left") right))) (jolt-invoke _a$592 _a$593 _a$594)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "red?") app)) (let* ((_a$605 (var-deref "clojure.core" "mk-red")) (_a$606 (jolt-invoke (var-deref "clojure.core" "nd-key") app)) (_a$607 (jolt-invoke (var-deref "clojure.core" "nd-val") app)) (_a$608 (let* ((_a$595 (var-deref "clojure.core" "mk-black")) (_a$596 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$597 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$598 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$599 (jolt-invoke (var-deref "clojure.core" "nd-left") app))) (jolt-invoke _a$595 _a$596 _a$597 _a$598 _a$599))) (_a$609 (let* ((_a$600 (var-deref "clojure.core" "mk-black")) (_a$601 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$602 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$603 (jolt-invoke (var-deref "clojure.core" "nd-right") app)) (_a$604 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$600 _a$601 _a$602 _a$603 _a$604)))) (jolt-invoke _a$605 _a$606 _a$607 _a$608 _a$609)) (let* ((_a$615 (var-deref "clojure.core" "balance-left-del")) (_a$616 (jolt-invoke (var-deref "clojure.core" "nd-key") left)) (_a$617 (jolt-invoke (var-deref "clojure.core" "nd-val") left)) (_a$618 (jolt-invoke (var-deref "clojure.core" "nd-left") left)) (_a$619 (let* ((_a$610 (var-deref "clojure.core" "mk-black")) (_a$611 (jolt-invoke (var-deref "clojure.core" "nd-key") right)) (_a$612 (jolt-invoke (var-deref "clojure.core" "nd-val") right)) (_a$613 app) (_a$614 (jolt-invoke (var-deref "clojure.core" "nd-right") right))) (jolt-invoke _a$610 _a$611 _a$612 _a$613 _a$614)))) (jolt-invoke _a$615 _a$616 _a$617 _a$618 _a$619)))) jolt-nil))))))))) tree-append))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-del" (letrec ((tree-del (lambda (cmp tree k) (let fnrec623 ((cmp cmp) (tree tree) (k k)) (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree)))) (if (jolt-zero? c) (let* ((_a$624 (var-deref "clojure.core" "tree-append")) (_a$625 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$626 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$624 _a$625 _a$626)) (if (jolt-neg? c) (let* ((del (jolt-invoke tree-del cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-left") tree))) (let* ((_a$627 (var-deref "clojure.core" "balance-left-del")) (_a$628 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$629 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$630 del) (_a$631 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$627 _a$628 _a$629 _a$630 _a$631)) (let* ((_a$632 (var-deref "clojure.core" "mk-red")) (_a$633 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$634 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$635 del) (_a$636 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$632 _a$633 _a$634 _a$635 _a$636)))) (if (jolt-truthy? (keyword #f "else")) (let* ((del (jolt-invoke tree-del cmp (jolt-invoke (var-deref "clojure.core" "nd-right") tree) k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (let* ((_a$637 (var-deref "clojure.core" "balance-right-del")) (_a$638 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$639 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$640 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$641 del)) (jolt-invoke _a$637 _a$638 _a$639 _a$640 _a$641)) (let* ((_a$642 (var-deref "clojure.core" "mk-red")) (_a$643 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$644 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$645 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$646 del)) (jolt-invoke _a$642 _a$643 _a$644 _a$645 _a$646)))) jolt-nil)))))))) tree-del))) + (def-var! "clojure.core" "tree-del" (letrec ((tree-del (lambda (cmp tree k) (let fnrec620 ((cmp cmp) (tree tree) (k k)) (let* ((c (jolt-invoke cmp k (jolt-invoke (var-deref "clojure.core" "nd-key") tree)))) (if (jolt-zero? c) (let* ((_a$621 (var-deref "clojure.core" "tree-append")) (_a$622 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$623 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$621 _a$622 _a$623)) (if (jolt-neg? c) (let* ((del (jolt-invoke tree-del cmp (jolt-invoke (var-deref "clojure.core" "nd-left") tree) k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-left") tree))) (let* ((_a$624 (var-deref "clojure.core" "balance-left-del")) (_a$625 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$626 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$627 del) (_a$628 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$624 _a$625 _a$626 _a$627 _a$628)) (let* ((_a$629 (var-deref "clojure.core" "mk-red")) (_a$630 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$631 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$632 del) (_a$633 (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (jolt-invoke _a$629 _a$630 _a$631 _a$632 _a$633)))) (if (jolt-truthy? (keyword #f "else")) (let* ((del (jolt-invoke tree-del cmp (jolt-invoke (var-deref "clojure.core" "nd-right") tree) k))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "black?") (jolt-invoke (var-deref "clojure.core" "nd-right") tree))) (let* ((_a$634 (var-deref "clojure.core" "balance-right-del")) (_a$635 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$636 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$637 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$638 del)) (jolt-invoke _a$634 _a$635 _a$636 _a$637 _a$638)) (let* ((_a$639 (var-deref "clojure.core" "mk-red")) (_a$640 (jolt-invoke (var-deref "clojure.core" "nd-key") tree)) (_a$641 (jolt-invoke (var-deref "clojure.core" "nd-val") tree)) (_a$642 (jolt-invoke (var-deref "clojure.core" "nd-left") tree)) (_a$643 del)) (jolt-invoke _a$639 _a$640 _a$641 _a$642 _a$643)))) jolt-nil)))))))) tree-del))) (guard (e (#t #f)) - (def-var! "clojure.core" "tree-collect" (letrec ((tree-collect (lambda (t proj acc) (let fnrec647 ((t t) (proj proj) (acc acc)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") t)) acc (let* ((_a$650 tree-collect) (_a$651 (jolt-invoke (var-deref "clojure.core" "nd-right") t)) (_a$652 proj) (_a$653 (let* ((_a$648 (jolt-invoke tree-collect (jolt-invoke (var-deref "clojure.core" "nd-left") t) proj acc)) (_a$649 (jolt-invoke proj t))) (jolt-conj _a$648 _a$649)))) (jolt-invoke _a$650 _a$651 _a$652 _a$653))))))) tree-collect))) + (def-var! "clojure.core" "tree-collect" (letrec ((tree-collect (lambda (t proj acc) (let fnrec644 ((t t) (proj proj) (acc acc)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") t)) acc (let* ((_a$647 tree-collect) (_a$648 (jolt-invoke (var-deref "clojure.core" "nd-right") t)) (_a$649 proj) (_a$650 (let* ((_a$645 (jolt-invoke tree-collect (jolt-invoke (var-deref "clojure.core" "nd-left") t) proj acc)) (_a$646 (jolt-invoke proj t))) (jolt-conj _a$645 _a$646)))) (jolt-invoke _a$647 _a$648 _a$649 _a$650))))))) tree-collect))) (guard (e (#t #f)) - (def-var! "clojure.core" "make-sorted" (letrec ((make-sorted (lambda (tag tree cnt cmp ops) (let fnrec654 ((tag tag) (tree tree) (cnt cnt) (cmp cmp) (ops ops)) (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "tagged-table") tag) (keyword #f "tree") tree) (keyword #f "cnt") cnt) (keyword #f "cmp") cmp) (keyword #f "ops") ops))))) make-sorted))) + (def-var! "clojure.core" "make-sorted" (letrec ((make-sorted (lambda (tag tree cnt cmp ops) (let fnrec651 ((tag tag) (tree tree) (cnt cnt) (cmp cmp) (ops ops)) (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "ref-put!") (jolt-invoke (var-deref "jolt.host" "tagged-table") tag) (keyword #f "tree") tree) (keyword #f "cnt") cnt) (keyword #f "cmp") cmp) (keyword #f "ops") ops))))) make-sorted))) (guard (e (#t #f)) - (def-var! "clojure.core" "sc-entries" (letrec ((sc-entries (lambda (sc proj) (let fnrec655 ((sc sc) (proj proj)) (let* ((_a$656 (var-deref "clojure.core" "tree-collect")) (_a$657 (jolt-invoke (var-deref "clojure.core" "sfield") sc (keyword #f "tree"))) (_a$658 proj) (_a$659 (jolt-vector))) (jolt-invoke _a$656 _a$657 _a$658 _a$659)))))) sc-entries))) + (def-var! "clojure.core" "sc-entries" (letrec ((sc-entries (lambda (sc proj) (let fnrec652 ((sc sc) (proj proj)) (let* ((_a$653 (var-deref "clojure.core" "tree-collect")) (_a$654 (jolt-invoke (var-deref "clojure.core" "sfield") sc (keyword #f "tree"))) (_a$655 proj) (_a$656 (jolt-vector))) (jolt-invoke _a$653 _a$654 _a$655 _a$656)))))) sc-entries))) (guard (e (#t #f)) - (def-var! "clojure.core" "map-entry" (letrec ((map-entry (lambda (t) (let fnrec660 ((t t)) (let* ((_a$661 (var-deref "jolt.host" "map-entry")) (_a$662 (jolt-invoke (var-deref "clojure.core" "nd-key") t)) (_a$663 (jolt-invoke (var-deref "clojure.core" "nd-val") t))) (jolt-invoke _a$661 _a$662 _a$663)))))) map-entry))) + (def-var! "clojure.core" "map-entry" (letrec ((map-entry (lambda (t) (let fnrec657 ((t t)) (let* ((_a$658 (var-deref "jolt.host" "map-entry")) (_a$659 (jolt-invoke (var-deref "clojure.core" "nd-key") t)) (_a$660 (jolt-invoke (var-deref "clojure.core" "nd-val") t))) (jolt-invoke _a$658 _a$659 _a$660)))))) map-entry))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-get" (letrec ((sm-get (lambda (sm k not-found) (let fnrec664 ((sm sm) (k k) (not-found not-found)) (let* ((n (let* ((_a$665 (var-deref "clojure.core" "tree-lookup")) (_a$666 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "tree"))) (_a$667 (jolt-invoke (var-deref "clojure.core" "the-cmp") sm)) (_a$668 k)) (jolt-invoke _a$665 _a$666 _a$667 _a$668)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") n)) not-found (jolt-invoke (var-deref "clojure.core" "nd-val") n))))))) sm-get))) + (def-var! "clojure.core" "sm-get" (letrec ((sm-get (lambda (sm k not-found) (let fnrec661 ((sm sm) (k k) (not-found not-found)) (let* ((n (let* ((_a$662 (var-deref "clojure.core" "tree-lookup")) (_a$663 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "tree"))) (_a$664 (jolt-invoke (var-deref "clojure.core" "the-cmp") sm)) (_a$665 k)) (jolt-invoke _a$662 _a$663 _a$664 _a$665)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") n)) not-found (jolt-invoke (var-deref "clojure.core" "nd-val") n))))))) sm-get))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-assoc-1" (letrec ((sm-assoc-1 (lambda (sm k v) (let fnrec669 ((sm sm) (k k) (v v)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sm)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "tree"))) (node (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp k))) (if (jolt-truthy? (let* ((and__13__auto node)) (if (jolt-truthy? and__13__auto) (jolt= v (jolt-invoke (var-deref "clojure.core" "nd-val") node)) and__13__auto))) sm (if (jolt-truthy? node) (let* ((_a$670 (var-deref "clojure.core" "make-sorted")) (_a$671 (keyword "jolt" "sorted-map")) (_a$672 (jolt-invoke (var-deref "clojure.core" "tree-replace") cmp tree k v)) (_a$673 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cnt"))) (_a$674 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cmp"))) (_a$675 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "ops")))) (jolt-invoke _a$670 _a$671 _a$672 _a$673 _a$674 _a$675)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$676 (var-deref "clojure.core" "make-sorted")) (_a$677 (keyword "jolt" "sorted-map")) (_a$678 (jolt-invoke (var-deref "clojure.core" "blacken") (jolt-invoke (var-deref "clojure.core" "tree-ins") cmp tree k v))) (_a$679 (jolt-inc (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cnt")))) (_a$680 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cmp"))) (_a$681 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "ops")))) (jolt-invoke _a$676 _a$677 _a$678 _a$679 _a$680 _a$681)) jolt-nil)))))))) sm-assoc-1))) + (def-var! "clojure.core" "sm-assoc-1" (letrec ((sm-assoc-1 (lambda (sm k v) (let fnrec666 ((sm sm) (k k) (v v)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sm)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "tree"))) (node (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp k))) (if (jolt-truthy? (let* ((and__13__auto node)) (if (jolt-truthy? and__13__auto) (jolt= v (jolt-invoke (var-deref "clojure.core" "nd-val") node)) and__13__auto))) sm (if (jolt-truthy? node) (let* ((_a$667 (var-deref "clojure.core" "make-sorted")) (_a$668 (keyword "jolt" "sorted-map")) (_a$669 (jolt-invoke (var-deref "clojure.core" "tree-replace") cmp tree k v)) (_a$670 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cnt"))) (_a$671 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cmp"))) (_a$672 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "ops")))) (jolt-invoke _a$667 _a$668 _a$669 _a$670 _a$671 _a$672)) (if (jolt-truthy? (keyword #f "else")) (let* ((_a$673 (var-deref "clojure.core" "make-sorted")) (_a$674 (keyword "jolt" "sorted-map")) (_a$675 (jolt-invoke (var-deref "clojure.core" "blacken") (jolt-invoke (var-deref "clojure.core" "tree-ins") cmp tree k v))) (_a$676 (jolt-inc (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cnt")))) (_a$677 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cmp"))) (_a$678 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "ops")))) (jolt-invoke _a$673 _a$674 _a$675 _a$676 _a$677 _a$678)) jolt-nil)))))))) sm-assoc-1))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-assoc-many" (letrec ((sm-assoc-many (lambda (sm kvs) (let fnrec682 ((sm sm) (kvs kvs)) (let* ((n (jolt-count kvs))) (begin (if (jolt-odd? n) (jolt-throw (jolt-ex-info "sorted-map assoc expects an even number of key/values" (let* ((_o$683 (keyword #f "count")) (_o$684 n)) (jolt-hash-map _o$683 _o$684)))) jolt-nil) (let* ((m sm) (i 0)) (let loop685 ((m m) (i i)) (if (< i n) (let* ((_a$690 (let* ((_a$686 (var-deref "clojure.core" "sm-assoc-1")) (_a$687 m) (_a$688 (jolt-nth kvs i)) (_a$689 (jolt-nth kvs (jolt-inc i)))) (jolt-invoke _a$686 _a$687 _a$688 _a$689))) (_a$691 (+ i 2))) (loop685 _a$690 _a$691)) m))))))))) sm-assoc-many))) + (def-var! "clojure.core" "sm-assoc-many" (letrec ((sm-assoc-many (lambda (sm kvs) (let fnrec679 ((sm sm) (kvs kvs)) (let* ((n (jolt-count kvs))) (begin (if (jolt-odd? n) (jolt-throw (jolt-ex-info "sorted-map assoc expects an even number of key/values" (let* ((_o$680 (keyword #f "count")) (_o$681 n)) (jolt-hash-map _o$680 _o$681)))) jolt-nil) (let* ((m sm) (i 0)) (let loop682 ((m m) (i i)) (if (< i n) (let* ((_a$687 (let* ((_a$683 (var-deref "clojure.core" "sm-assoc-1")) (_a$684 m) (_a$685 (jolt-nth kvs i)) (_a$686 (jolt-nth kvs (jolt-inc i)))) (jolt-invoke _a$683 _a$684 _a$685 _a$686))) (_a$688 (+ i 2))) (loop682 _a$687 _a$688)) m))))))))) sm-assoc-many))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-dissoc-1" (letrec ((sm-dissoc-1 (lambda (sm k) (let fnrec692 ((sm sm) (k k)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sm)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "tree")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp k))) sm (let* ((t (jolt-invoke (var-deref "clojure.core" "tree-del") cmp tree k))) (let* ((_a$693 (var-deref "clojure.core" "make-sorted")) (_a$694 (keyword "jolt" "sorted-map")) (_a$695 (if (jolt-truthy? t) (jolt-invoke (var-deref "clojure.core" "blacken") t) jolt-nil)) (_a$696 (jolt-dec (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cnt")))) (_a$697 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cmp"))) (_a$698 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "ops")))) (jolt-invoke _a$693 _a$694 _a$695 _a$696 _a$697 _a$698))))))))) sm-dissoc-1))) + (def-var! "clojure.core" "sm-dissoc-1" (letrec ((sm-dissoc-1 (lambda (sm k) (let fnrec689 ((sm sm) (k k)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sm)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "tree")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp k))) sm (let* ((t (jolt-invoke (var-deref "clojure.core" "tree-del") cmp tree k))) (let* ((_a$690 (var-deref "clojure.core" "make-sorted")) (_a$691 (keyword "jolt" "sorted-map")) (_a$692 (if (jolt-truthy? t) (jolt-invoke (var-deref "clojure.core" "blacken") t) jolt-nil)) (_a$693 (jolt-dec (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cnt")))) (_a$694 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "cmp"))) (_a$695 (jolt-invoke (var-deref "clojure.core" "sfield") sm (keyword #f "ops")))) (jolt-invoke _a$690 _a$691 _a$692 _a$693 _a$694 _a$695))))))))) sm-dissoc-1))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-dissoc-many" (letrec ((sm-dissoc-many (lambda (sm ks) (let fnrec699 ((sm sm) (ks ks)) (jolt-reduce (var-deref "clojure.core" "sm-dissoc-1") sm ks))))) sm-dissoc-many))) + (def-var! "clojure.core" "sm-dissoc-many" (letrec ((sm-dissoc-many (lambda (sm ks) (let fnrec696 ((sm sm) (ks ks)) (jolt-reduce (var-deref "clojure.core" "sm-dissoc-1") sm ks))))) sm-dissoc-many))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-conj-1" (letrec ((sm-conj-1 (lambda (sm x) (let fnrec700 ((sm sm) (x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") x)) sm (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$706 (lambda (m e) (let fnrec701 ((m m) (e e)) (let* ((_a$702 (var-deref "clojure.core" "sm-assoc-1")) (_a$703 m) (_a$704 (jolt-first e)) (_a$705 (jolt-invoke (var-deref "clojure.core" "second") e))) (jolt-invoke _a$702 _a$703 _a$704 _a$705))))) (_a$707 sm) (_a$708 (jolt-seq x))) (jolt-reduce _a$706 _a$707 _a$708)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? and__13__auto) (jolt= 2 (jolt-count x)) and__13__auto))) (let* ((_a$709 (var-deref "clojure.core" "sm-assoc-1")) (_a$710 sm) (_a$711 (jolt-nth x 0)) (_a$712 (jolt-nth x 1))) (jolt-invoke _a$709 _a$710 _a$711 _a$712)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "conj on a sorted-map requires a [key value] pair or a map" (jolt-hash-map))) jolt-nil)))))))) sm-conj-1))) + (def-var! "clojure.core" "sm-conj-1" (letrec ((sm-conj-1 (lambda (sm x) (let fnrec697 ((sm sm) (x x)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") x)) sm (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "map?") x)) (let* ((_a$703 (lambda (m e) (let fnrec698 ((m m) (e e)) (let* ((_a$699 (var-deref "clojure.core" "sm-assoc-1")) (_a$700 m) (_a$701 (jolt-first e)) (_a$702 (jolt-invoke (var-deref "clojure.core" "second") e))) (jolt-invoke _a$699 _a$700 _a$701 _a$702))))) (_a$704 sm) (_a$705 (jolt-seq x))) (jolt-reduce _a$703 _a$704 _a$705)) (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "vector?") x))) (if (jolt-truthy? and__13__auto) (jolt= 2 (jolt-count x)) and__13__auto))) (let* ((_a$706 (var-deref "clojure.core" "sm-assoc-1")) (_a$707 sm) (_a$708 (jolt-nth x 0)) (_a$709 (jolt-nth x 1))) (jolt-invoke _a$706 _a$707 _a$708 _a$709)) (if (jolt-truthy? (keyword #f "else")) (jolt-throw (jolt-ex-info "conj on a sorted-map requires a [key value] pair or a map" (jolt-hash-map))) jolt-nil)))))))) sm-conj-1))) (guard (e (#t #f)) - (def-var! "clojure.core" "sm-conj-many" (letrec ((sm-conj-many (lambda (sm xs) (let fnrec713 ((sm sm) (xs xs)) (jolt-reduce (var-deref "clojure.core" "sm-conj-1") sm xs))))) sm-conj-many))) + (def-var! "clojure.core" "sm-conj-many" (letrec ((sm-conj-many (lambda (sm xs) (let fnrec710 ((sm sm) (xs xs)) (jolt-reduce (var-deref "clojure.core" "sm-conj-1") sm xs))))) sm-conj-many))) (guard (e (#t #f)) - (def-var! "clojure.core" "ss-get" (letrec ((ss-get (lambda (ss x not-found) (let fnrec714 ((ss ss) (x x) (not-found not-found)) (let* ((n (let* ((_a$715 (var-deref "clojure.core" "tree-lookup")) (_a$716 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "tree"))) (_a$717 (jolt-invoke (var-deref "clojure.core" "the-cmp") ss)) (_a$718 x)) (jolt-invoke _a$715 _a$716 _a$717 _a$718)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") n)) not-found (jolt-invoke (var-deref "clojure.core" "nd-key") n))))))) ss-get))) + (def-var! "clojure.core" "ss-get" (letrec ((ss-get (lambda (ss x not-found) (let fnrec711 ((ss ss) (x x) (not-found not-found)) (let* ((n (let* ((_a$712 (var-deref "clojure.core" "tree-lookup")) (_a$713 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "tree"))) (_a$714 (jolt-invoke (var-deref "clojure.core" "the-cmp") ss)) (_a$715 x)) (jolt-invoke _a$712 _a$713 _a$714 _a$715)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") n)) not-found (jolt-invoke (var-deref "clojure.core" "nd-key") n))))))) ss-get))) (guard (e (#t #f)) - (def-var! "clojure.core" "ss-conj-1" (letrec ((ss-conj-1 (lambda (ss x) (let fnrec719 ((ss ss) (x x)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") ss)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "tree")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp x)) ss (let* ((_a$720 (var-deref "clojure.core" "make-sorted")) (_a$721 (keyword "jolt" "sorted-set")) (_a$722 (jolt-invoke (var-deref "clojure.core" "blacken") (jolt-invoke (var-deref "clojure.core" "tree-ins") cmp tree x jolt-nil))) (_a$723 (jolt-inc (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "cnt")))) (_a$724 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "cmp"))) (_a$725 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "ops")))) (jolt-invoke _a$720 _a$721 _a$722 _a$723 _a$724 _a$725)))))))) ss-conj-1))) + (def-var! "clojure.core" "ss-conj-1" (letrec ((ss-conj-1 (lambda (ss x) (let fnrec716 ((ss ss) (x x)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") ss)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "tree")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp x)) ss (let* ((_a$717 (var-deref "clojure.core" "make-sorted")) (_a$718 (keyword "jolt" "sorted-set")) (_a$719 (jolt-invoke (var-deref "clojure.core" "blacken") (jolt-invoke (var-deref "clojure.core" "tree-ins") cmp tree x jolt-nil))) (_a$720 (jolt-inc (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "cnt")))) (_a$721 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "cmp"))) (_a$722 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "ops")))) (jolt-invoke _a$717 _a$718 _a$719 _a$720 _a$721 _a$722)))))))) ss-conj-1))) (guard (e (#t #f)) - (def-var! "clojure.core" "ss-conj-many" (letrec ((ss-conj-many (lambda (ss xs) (let fnrec726 ((ss ss) (xs xs)) (jolt-reduce (var-deref "clojure.core" "ss-conj-1") ss xs))))) ss-conj-many))) + (def-var! "clojure.core" "ss-conj-many" (letrec ((ss-conj-many (lambda (ss xs) (let fnrec723 ((ss ss) (xs xs)) (jolt-reduce (var-deref "clojure.core" "ss-conj-1") ss xs))))) ss-conj-many))) (guard (e (#t #f)) - (def-var! "clojure.core" "ss-disj-1" (letrec ((ss-disj-1 (lambda (ss x) (let fnrec727 ((ss ss) (x x)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") ss)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "tree")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") (jolt-invoke (var-deref "clojure.core" "tree-lookup") tree cmp x))) ss (let* ((t (jolt-invoke (var-deref "clojure.core" "tree-del") cmp tree x))) (let* ((_a$728 (var-deref "clojure.core" "make-sorted")) (_a$729 (keyword "jolt" "sorted-set")) (_a$730 (if (jolt-truthy? t) (jolt-invoke (var-deref "clojure.core" "blacken") t) jolt-nil)) (_a$731 (jolt-dec (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "cnt")))) (_a$732 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "cmp"))) (_a$733 (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "ops")))) (jolt-invoke _a$728 _a$729 _a$730 _a$731 _a$732 _a$733))))))))) ss-disj-1))) + (def-var! "clojure.core" "ss-disj-1" (letrec ((ss-disj-1 (lambda (ss x) (let fnrec724 ((ss ss) (x x)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") ss)) (tree (jolt-invoke (var-deref "clojure.core" "sfield") ss (keyword #f "tree")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") 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(lambda (G__15) (let fnrec834 ((G__15 G__15)) (let* ((G__16 G__15) (test (jolt-nth G__16 0 jolt-nil)) (k (jolt-nth G__16 1 jolt-nil))) (jolt-invoke test (jolt-invoke cmp (jolt-invoke keyf e) k) 0)))) tests)))) (_a$837 (jolt-invoke (var-deref "clojure.core" "sc-entries") sc (jolt-invoke (var-deref "clojure.core" "sc-proj") sc)))) (jolt-invoke _a$835 _a$836 _a$837))))))) sub-filter))) + (def-var! "clojure.core" "sub-filter" (letrec ((sub-filter (lambda (sc tests) (let fnrec829 ((sc sc) (tests tests)) (let* ((cmp (jolt-invoke (var-deref "clojure.core" "the-cmp") sc)) (keyf (jolt-invoke (var-deref "clojure.core" "sc-keyf") sc))) (let* ((_a$832 (var-deref "clojure.core" "filterv")) (_a$833 (lambda (e) (let fnrec830 ((e e)) (jolt-invoke (var-deref "clojure.core" "every?") (lambda (G__15) (let fnrec831 ((G__15 G__15)) (let* ((G__16 G__15) (test (jolt-nth G__16 0 jolt-nil)) (k (jolt-nth G__16 1 jolt-nil))) (jolt-invoke test (jolt-invoke cmp (jolt-invoke keyf e) k) 0)))) tests)))) (_a$834 (jolt-invoke (var-deref "clojure.core" "sc-entries") sc (jolt-invoke (var-deref "clojure.core" "sc-proj") sc)))) (jolt-invoke _a$832 _a$833 _a$834))))))) sub-filter))) (guard (e (#t #f)) - (def-var! "clojure.core" "subseq" (letrec ((subseq (case-lambda ((sc test k) (let fnrec838 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$839 test) (_o$840 k)) (jolt-vector _o$839 _o$840))))))) ((sc start-test start-k end-test end-k) (let fnrec841 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$846 (let* ((_o$842 start-test) (_o$843 start-k)) (jolt-vector _o$842 _o$843))) (_o$847 (let* ((_o$844 end-test) (_o$845 end-k)) (jolt-vector _o$844 _o$845)))) (jolt-vector _o$846 _o$847))))))))) subseq))) + (def-var! "clojure.core" "subseq" (letrec ((subseq (case-lambda ((sc test k) (let fnrec835 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$836 test) (_o$837 k)) (jolt-vector _o$836 _o$837))))))) ((sc start-test start-k end-test end-k) (let fnrec838 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$843 (let* ((_o$839 start-test) (_o$840 start-k)) (jolt-vector _o$839 _o$840))) (_o$844 (let* ((_o$841 end-test) (_o$842 end-k)) (jolt-vector _o$841 _o$842)))) (jolt-vector _o$843 _o$844))))))))) subseq))) (guard (e (#t #f)) - (def-var! "clojure.core" "rsubseq" (letrec ((rsubseq (case-lambda ((sc test k) (let fnrec848 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$849 test) (_o$850 k)) (jolt-vector _o$849 _o$850))))))))) ((sc start-test start-k end-test end-k) (let fnrec851 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$856 (let* ((_o$852 start-test) (_o$853 start-k)) (jolt-vector _o$852 _o$853))) (_o$857 (let* ((_o$854 end-test) (_o$855 end-k)) (jolt-vector _o$854 _o$855)))) (jolt-vector _o$856 _o$857))))))))))) rsubseq))) + (def-var! "clojure.core" "rsubseq" (letrec ((rsubseq (case-lambda ((sc test k) (let fnrec845 ((sc sc) (test test) (k k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (jolt-vector (let* ((_o$846 test) (_o$847 k)) (jolt-vector _o$846 _o$847))))))))) ((sc start-test start-k end-test end-k) (let fnrec848 ((sc sc) (start-test start-test) (start-k start-k) (end-test end-test) (end-k end-k)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "vec") (jolt-reverse (jolt-invoke (var-deref "clojure.core" "sub-filter") sc (let* ((_o$853 (let* ((_o$849 start-test) (_o$850 start-k)) (jolt-vector _o$849 _o$850))) (_o$854 (let* ((_o$851 end-test) (_o$852 end-k)) (jolt-vector _o$851 _o$852)))) (jolt-vector _o$853 _o$854))))))))))) rsubseq))) (guard (e (#t #f)) (def-var! "clojure.core" "comment" - (lambda body (let fnrec858 ((body (list->cseq body))) jolt-nil))) + (lambda body (let fnrec855 ((body (list->cseq body))) jolt-nil))) (mark-macro! "clojure.core" "comment")) (guard (e (#t #f)) (def-var! "clojure.core" "with-out-str" - (lambda body (let fnrec859 ((body (list->cseq body))) (let* ((_a$864 (var-deref "clojure.core" "__sqcat")) (_a$865 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__with-out-str"))) (_a$866 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$860 (var-deref "clojure.core" "__sqcat")) (_a$861 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$862 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$863 body)) (jolt-invoke _a$860 _a$861 _a$862 _a$863))))) (jolt-invoke _a$864 _a$865 _a$866))))) + (lambda body (let fnrec856 ((body (list->cseq body))) (let* ((_a$861 (var-deref "clojure.core" "__sqcat")) (_a$862 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__with-out-str"))) (_a$863 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$857 (var-deref "clojure.core" "__sqcat")) (_a$858 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$859 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec")))) (_a$860 body)) (jolt-invoke _a$857 _a$858 _a$859 _a$860))))) (jolt-invoke _a$861 _a$862 _a$863))))) (mark-macro! "clojure.core" "with-out-str")) (guard (e (#t #f)) (def-var! "clojure.core" "defmulti" - (lambda (name . args) (let fnrec867 ((name name) (args (list->cseq args))) (let* ((args (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first args))) (jolt-rest args) args)) (args (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first args)))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first args))) and__13__auto))) (jolt-rest args) args)) (dispatch (jolt-first args)) (opts (jolt-rest args))) (let* ((_a$871 (var-deref "clojure.core" "__sqcat")) (_a$872 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmulti-setup"))) (_a$873 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$868 (var-deref "clojure.core" "__sqcat")) (_a$869 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$870 (jolt-invoke (var-deref "clojure.core" "__sq1") name))) (jolt-invoke _a$868 _a$869 _a$870)))) (_a$874 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch)) (_a$875 opts)) (jolt-invoke _a$871 _a$872 _a$873 _a$874 _a$875)))))) + (lambda (name . args) (let fnrec864 ((name name) (args (list->cseq args))) (let* ((args (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") (jolt-first args))) (jolt-rest args) args)) (args (if (jolt-truthy? (let* ((and__13__auto (jolt-invoke (var-deref "clojure.core" "map?") (jolt-first args)))) (if (jolt-truthy? and__13__auto) (jolt-not (jolt-invoke (var-deref "clojure.core" "symbol?") (jolt-first args))) and__13__auto))) (jolt-rest args) args)) (dispatch (jolt-first args)) (opts (jolt-rest args))) (let* ((_a$868 (var-deref "clojure.core" "__sqcat")) (_a$869 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmulti-setup"))) (_a$870 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$865 (var-deref "clojure.core" "__sqcat")) (_a$866 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$867 (jolt-invoke (var-deref "clojure.core" "__sq1") name))) (jolt-invoke _a$865 _a$866 _a$867)))) (_a$871 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch)) (_a$872 opts)) (jolt-invoke _a$868 _a$869 _a$870 _a$871 _a$872)))))) (mark-macro! "clojure.core" "defmulti")) (guard (e (#t #f)) (def-var! "clojure.core" "defmethod" - (lambda (mm dispatch-val . fn-tail) (let fnrec876 ((mm mm) (dispatch-val dispatch-val) (fn-tail (list->cseq fn-tail))) (let* ((_a$880 (var-deref "clojure.core" "__sqcat")) (_a$881 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmethod-setup"))) (_a$882 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$877 (var-deref "clojure.core" "__sqcat")) (_a$878 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$879 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$877 _a$878 _a$879)))) (_a$883 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch-val)) (_a$884 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn")) fn-tail)))) (jolt-invoke _a$880 _a$881 _a$882 _a$883 _a$884))))) + (lambda (mm dispatch-val . fn-tail) (let fnrec873 ((mm mm) (dispatch-val dispatch-val) (fn-tail (list->cseq fn-tail))) (let* ((_a$877 (var-deref "clojure.core" "__sqcat")) (_a$878 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "defmethod-setup"))) (_a$879 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$874 (var-deref "clojure.core" "__sqcat")) (_a$875 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$876 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$874 _a$875 _a$876)))) (_a$880 (jolt-invoke (var-deref "clojure.core" "__sq1") dispatch-val)) (_a$881 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn")) fn-tail)))) (jolt-invoke _a$877 _a$878 _a$879 _a$880 _a$881))))) (mark-macro! "clojure.core" "defmethod")) (guard (e (#t #f)) (def-var! "clojure.core" "prefer-method" - (lambda (mm dval-a dval-b) (let fnrec885 ((mm mm) (dval-a dval-a) (dval-b dval-b)) (let* ((_a$889 (var-deref "clojure.core" "__sqcat")) (_a$890 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefer-method-setup"))) (_a$891 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$886 (var-deref "clojure.core" "__sqcat")) (_a$887 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$888 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$886 _a$887 _a$888)))) (_a$892 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-a)) (_a$893 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-b))) (jolt-invoke _a$889 _a$890 _a$891 _a$892 _a$893))))) + (lambda (mm dval-a dval-b) (let fnrec882 ((mm mm) (dval-a dval-a) (dval-b dval-b)) (let* ((_a$886 (var-deref "clojure.core" "__sqcat")) (_a$887 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefer-method-setup"))) (_a$888 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$883 (var-deref "clojure.core" "__sqcat")) (_a$884 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$885 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$883 _a$884 _a$885)))) (_a$889 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-a)) (_a$890 (jolt-invoke (var-deref "clojure.core" "__sq1") dval-b))) (jolt-invoke _a$886 _a$887 _a$888 _a$889 _a$890))))) (mark-macro! "clojure.core" "prefer-method")) (guard (e (#t #f)) (def-var! "clojure.core" "remove-method" - (lambda (mm dval) (let fnrec894 ((mm mm) (dval dval)) (let* ((_a$898 (var-deref "clojure.core" "__sqcat")) (_a$899 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-method-setup"))) (_a$900 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$895 (var-deref "clojure.core" "__sqcat")) (_a$896 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$897 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$895 _a$896 _a$897)))) (_a$901 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$898 _a$899 _a$900 _a$901))))) + (lambda (mm dval) (let fnrec891 ((mm mm) (dval dval)) (let* ((_a$895 (var-deref "clojure.core" "__sqcat")) (_a$896 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-method-setup"))) (_a$897 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$892 (var-deref "clojure.core" "__sqcat")) (_a$893 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$894 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$892 _a$893 _a$894)))) (_a$898 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$895 _a$896 _a$897 _a$898))))) (mark-macro! "clojure.core" "remove-method")) (guard (e (#t #f)) (def-var! "clojure.core" "remove-all-methods" - (lambda (mm) (let fnrec902 ((mm mm)) (let* ((_a$906 (var-deref "clojure.core" "__sqcat")) (_a$907 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-all-methods-setup"))) (_a$908 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$903 (var-deref "clojure.core" "__sqcat")) (_a$904 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$905 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$903 _a$904 _a$905))))) (jolt-invoke _a$906 _a$907 _a$908))))) + (lambda (mm) (let fnrec899 ((mm mm)) (let* ((_a$903 (var-deref "clojure.core" "__sqcat")) (_a$904 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "remove-all-methods-setup"))) (_a$905 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$900 (var-deref "clojure.core" "__sqcat")) (_a$901 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$902 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$900 _a$901 _a$902))))) (jolt-invoke _a$903 _a$904 _a$905))))) (mark-macro! "clojure.core" "remove-all-methods")) (guard (e (#t #f)) (def-var! "clojure.core" "get-method" - (lambda (mm dval) (let fnrec909 ((mm mm) (dval dval)) (let* ((_a$910 (var-deref "clojure.core" "__sqcat")) (_a$911 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "get-method-setup"))) (_a$912 (jolt-invoke (var-deref "clojure.core" "__sq1") mm)) (_a$913 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$910 _a$911 _a$912 _a$913))))) + (lambda (mm dval) (let fnrec906 ((mm mm) (dval dval)) (let* ((_a$907 (var-deref "clojure.core" "__sqcat")) (_a$908 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "get-method-setup"))) (_a$909 (jolt-invoke (var-deref "clojure.core" "__sq1") mm)) (_a$910 (jolt-invoke (var-deref "clojure.core" "__sq1") dval))) (jolt-invoke _a$907 _a$908 _a$909 _a$910))))) (mark-macro! "clojure.core" "get-method")) (guard (e (#t #f)) (def-var! "clojure.core" "methods" - (lambda (mm) (let fnrec914 ((mm mm)) (let* ((_a$915 (var-deref "clojure.core" "__sqcat")) (_a$916 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "methods-setup"))) (_a$917 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$915 _a$916 _a$917))))) + (lambda (mm) (let fnrec911 ((mm mm)) (let* ((_a$912 (var-deref "clojure.core" "__sqcat")) (_a$913 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "methods-setup"))) (_a$914 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$912 _a$913 _a$914))))) (mark-macro! "clojure.core" "methods")) (guard (e (#t #f)) (def-var! "clojure.core" "prefers" - (lambda (mm) (let fnrec918 ((mm mm)) (let* ((_a$922 (var-deref "clojure.core" "__sqcat")) (_a$923 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefers-setup"))) (_a$924 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$919 (var-deref "clojure.core" "__sqcat")) (_a$920 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$921 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$919 _a$920 _a$921))))) (jolt-invoke _a$922 _a$923 _a$924))))) + (lambda (mm) (let fnrec915 ((mm mm)) (let* ((_a$919 (var-deref "clojure.core" "__sqcat")) (_a$920 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "prefers-setup"))) (_a$921 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$916 (var-deref "clojure.core" "__sqcat")) (_a$917 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "quote"))) (_a$918 (jolt-invoke (var-deref "clojure.core" "__sq1") mm))) (jolt-invoke _a$916 _a$917 _a$918))))) (jolt-invoke _a$919 _a$920 _a$921))))) (mark-macro! 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(jolt-first x)))) (if (jolt-truthy? and__13__auto) (jolt= "with-meta" (jolt-invoke (var-deref "clojure.core" "name") (jolt-first x))) and__13__auto)) and__13__auto))) (jolt-invoke (var-deref "clojure.core" "second") x) x)))) (tname (jolt-invoke unwrap tname)) (fields (jolt-map unwrap fields)) (arrow (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") "->" (jolt-invoke (var-deref "clojure.core" "name") tname)))) (field-kws (jolt-map (lambda (f) (let fnrec1407 ((f f)) (jolt-invoke (var-deref "clojure.core" "keyword") (jolt-invoke (var-deref "clojure.core" "name") f)))) fields)) (field-tags (jolt-map (lambda (f) (let fnrec1408 ((f f)) (let* ((mt (jolt-invoke (var-deref "clojure.core" "meta") f))) (if (jolt-truthy? (let* ((and__13__auto mt)) (if (jolt-truthy? and__13__auto) (jolt-get mt (keyword #f "tag")) and__13__auto))) (jolt-get mt (keyword #f "tag")) (if (jolt-truthy? 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(lambda (protocol atype) (let fnrec1538 ((protocol protocol) (atype atype)) (let* ((want (jolt-invoke (var-deref "clojure.core" "name") atype)) (dotted (jolt-invoke (var-deref "clojure.core" "str") "." want)) (dlen (jolt-count dotted))) (jolt-invoke (var-deref "clojure.core" "boolean") (let* ((_a$1540 (var-deref "clojure.core" "some")) (_a$1541 (lambda (t) (let fnrec1539 ((t t)) (let* ((tn (jolt-invoke (var-deref "clojure.core" "name") t))) (let* ((or__14__auto (jolt= tn want))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((and__13__auto (> (jolt-count tn) dlen))) (if (jolt-truthy? and__13__auto) (jolt= (jolt-invoke (var-deref "clojure.core" "subs") tn (- (jolt-count tn) dlen)) dotted) and__13__auto)))))))) (_a$1542 (jolt-invoke (var-deref "clojure.core" "extenders") protocol))) (jolt-invoke _a$1540 _a$1541 _a$1542)))))))) extends?))) + (def-var! "clojure.core" "extends?" (letrec ((extends? (lambda (protocol atype) (let fnrec1535 ((protocol protocol) (atype atype)) (let* ((want (jolt-invoke (var-deref "clojure.core" "name") atype)) (dotted (jolt-invoke (var-deref "clojure.core" "str") "." want)) (dlen (jolt-count dotted))) (jolt-invoke (var-deref "clojure.core" "boolean") (let* ((_a$1537 (var-deref "clojure.core" "some")) (_a$1538 (lambda (t) (let fnrec1536 ((t t)) (let* ((tn (jolt-invoke (var-deref "clojure.core" "name") t))) (let* ((or__14__auto (jolt= tn want))) (if (jolt-truthy? or__14__auto) or__14__auto (let* ((and__13__auto (> (jolt-count tn) dlen))) (if (jolt-truthy? and__13__auto) (jolt= (jolt-invoke (var-deref "clojure.core" "subs") tn (- (jolt-count tn) dlen)) dotted) and__13__auto)))))))) (_a$1539 (jolt-invoke (var-deref "clojure.core" "extenders") protocol))) (jolt-invoke _a$1537 _a$1538 _a$1539)))))))) extends?))) (guard (e (#t #f)) - (def-var! 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"clojure.core" "extend" (letrec ((extend (lambda (atype . proto+mmaps) (let fnrec1540 ((atype atype) (proto+mmaps (list->cseq proto+mmaps))) (let* ((s (jolt-seq proto+mmaps))) (let loop1541 ((s s)) (if (jolt-truthy? s) (begin (let* ((proto (jolt-first s)) (mmap (jolt-invoke (var-deref "clojure.core" "second") s)) (pname (jolt-invoke (var-deref "clojure.core" "name") (jolt-get proto (keyword #f "name"))))) (begin (jolt-count (jolt-map (lambda (G__25) (let fnrec1542 ((G__25 G__25)) (let* ((G__26 G__25) (k (jolt-nth G__26 0 jolt-nil)) (f (jolt-nth G__26 1 jolt-nil))) (begin (let* ((_a$1543 (var-deref "clojure.core" "register-method")) (_a$1544 (jolt-invoke (var-deref "clojure.core" "name") atype)) (_a$1545 pname) (_a$1546 (jolt-invoke (var-deref "clojure.core" "name") k)) (_a$1547 f)) (jolt-invoke _a$1543 _a$1544 _a$1545 _a$1546 _a$1547)) jolt-nil)))) mmap)) jolt-nil)) (loop1541 (jolt-invoke (var-deref "clojure.core" "nnext") s))) jolt-nil))))))) extend))) (guard (e (#t #f)) (def-var! "clojure.core" "extend-type" - (lambda (tsym . body) (let fnrec1551 ((tsym tsym) (body (list->cseq body))) (let* ((tname (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") tsym)) "nil" (jolt-invoke (var-deref "clojure.core" "name") tsym)))) (let* ((items (jolt-seq body)) (proto jolt-nil) (forms (jolt-vector))) (let loop1552 ((items items) (proto proto) (forms forms)) (if (jolt-empty? items) (jolt-invoke (var-deref "clojure.core" "__sqcat") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do")) forms) (let* ((x (jolt-first items))) (if (jolt-truthy? 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((spec spec)) (let* ((argv (jolt-nth spec 1)) (inst (jolt-first argv)) (hinted (jolt-assoc argv 0 (jolt-invoke (var-deref "clojure.core" "vary-meta") inst jolt-assoc (keyword #f "tag") (jolt-invoke (var-deref "clojure.core" "name") name-sym)))) (binds (jolt-invoke (var-deref "clojure.core" "vec") (jolt-invoke (var-deref "clojure.core" "mapcat") (lambda (f) (let fnrec1613 ((f f)) (let* ((_o$1618 f) (_o$1619 (let* ((_a$1614 (var-deref "clojure.core" "__sqcat")) (_a$1615 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "get"))) (_a$1616 (jolt-invoke (var-deref "clojure.core" "__sq1") inst)) (_a$1617 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "keyword") (jolt-invoke (var-deref "clojure.core" "name") f))))) (jolt-invoke _a$1614 _a$1615 _a$1616 _a$1617)))) (jolt-vector _o$1618 _o$1619)))) fields)))) (let* ((_a$1628 (var-deref "clojure.core" "__sqcat")) (_a$1629 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol 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(jolt-drop 2 spec))) (jolt-invoke _a$1620 _a$1621 _a$1622 _a$1623))))) (jolt-invoke _a$1624 _a$1625 _a$1626 _a$1627))))) (jolt-invoke _a$1628 _a$1629 _a$1630 _a$1631 _a$1632 _a$1633))))) specs))) (jolt-invoke _a$1634 _a$1635 _a$1636)))))) (let* ((_a$1663 (var-deref "clojure.core" "__sqcat")) (_a$1664 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "do"))) (_a$1665 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1637 (var-deref "clojure.core" "__sqcat")) (_a$1638 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "deftype"))) (_a$1639 (jolt-invoke (var-deref "clojure.core" "__sq1") name-sym)) (_a$1640 (jolt-invoke (var-deref "clojure.core" "__sq1") fields))) (jolt-invoke _a$1637 _a$1638 _a$1639 _a$1640)))) (_a$1666 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1653 (var-deref "clojure.core" "__sqcat")) (_a$1654 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "def"))) (_a$1655 (jolt-invoke (var-deref "clojure.core" "__sq1") mapf)) (_a$1656 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1649 (var-deref "clojure.core" "__sqcat")) (_a$1650 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "fn*"))) (_a$1651 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "__sq1") m)))) (_a$1652 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1646 (var-deref "clojure.core" "__sqcat")) (_a$1647 (jolt-invoke (var-deref "clojure.core" "__sq1") arrow)) (_a$1648 (jolt-map (lambda (f) (let fnrec1641 ((f f)) (let* ((_a$1642 (var-deref "clojure.core" "__sqcat")) (_a$1643 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "get"))) (_a$1644 (jolt-invoke (var-deref "clojure.core" "__sq1") m)) (_a$1645 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "keyword") (jolt-invoke (var-deref "clojure.core" "name") f))))) (jolt-invoke _a$1642 _a$1643 _a$1644 _a$1645)))) fields))) (jolt-invoke _a$1646 _a$1647 _a$1648))))) (jolt-invoke _a$1649 _a$1650 _a$1651 _a$1652))))) (jolt-invoke _a$1653 _a$1654 _a$1655 _a$1656)))) (_a$1667 (let* ((_a$1661 (lambda (g) (let fnrec1657 ((g g)) (let* ((_a$1658 impl) (_a$1659 (jolt-first g)) (_a$1660 (jolt-rest g))) (jolt-invoke _a$1658 _a$1659 _a$1660))))) (_a$1662 (jolt-invoke (var-deref "clojure.core" "group-by-head") body))) (jolt-map _a$1661 _a$1662)))) (jolt-invoke _a$1663 _a$1664 _a$1665 _a$1666 _a$1667)))))) (mark-macro! "clojure.core" "defrecord")) (guard (e (#t #f)) (def-var! "clojure.core" "memfn" - (lambda (method-name . args) (let fnrec1671 ((method-name method-name) (args (list->cseq args))) (let* ((_a$1676 (var-deref "clojure.core" "__sqcat")) (_a$1677 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$1678 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "target__12__auto")) args))) (_a$1679 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1672 (var-deref "clojure.core" "__sqcat")) (_a$1673 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") "." (jolt-invoke (var-deref "clojure.core" "name") method-name))))) (_a$1674 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "target__12__auto"))) (_a$1675 args)) (jolt-invoke _a$1672 _a$1673 _a$1674 _a$1675))))) (jolt-invoke _a$1676 _a$1677 _a$1678 _a$1679))))) + (lambda (method-name . args) (let fnrec1668 ((method-name method-name) (args (list->cseq args))) (let* ((_a$1673 (var-deref "clojure.core" "__sqcat")) (_a$1674 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "fn"))) (_a$1675 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "__sqvec") (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "target__12__auto")) args))) (_a$1676 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$1669 (var-deref "clojure.core" "__sqcat")) (_a$1670 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-invoke (var-deref "clojure.core" "symbol") (jolt-invoke (var-deref "clojure.core" "str") "." (jolt-invoke (var-deref "clojure.core" "name") method-name))))) (_a$1671 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol #f "target__12__auto"))) (_a$1672 args)) (jolt-invoke _a$1669 _a$1670 _a$1671 _a$1672))))) (jolt-invoke _a$1673 _a$1674 _a$1675 _a$1676))))) (mark-macro! "clojure.core" "memfn")) (guard (e (#t #f)) (def-var! "clojure.core" "distinct" (letrec ((distinct (case-lambda (() (let fnrec173 () (lambda (rf) (let fnrec174 ((rf rf)) (let* ((seen (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-hash-set)))) (case-lambda (() (let fnrec175 () (jolt-invoke rf))) ((result) (let fnrec176 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec177 ((result result) (input input)) (if (jolt-contains? (jolt-invoke (var-deref "clojure.core" "deref") seen) input) result (begin (jolt-invoke (var-deref "clojure.core" "vswap!") seen jolt-conj input) (jolt-invoke rf result input))))))))))) ((coll) (let fnrec178 ((coll coll)) (let* ((step (letrec ((step (lambda (xs seen) (let fnrec179 ((xs xs) (seen seen)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec180 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-invoke (lambda (G__13 seen) (let fnrec181 ((G__13 G__13) (seen seen)) (let* ((G__14 G__13) (f (jolt-nth G__14 0 jolt-nil)) (xs G__14)) (let* ((temp__15__auto (jolt-seq xs))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (if (jolt-contains? seen f) (fnrec181 (jolt-rest s) seen) (jolt-cons f (let* ((_a$182 step) (_a$183 (jolt-rest s)) (_a$184 (jolt-conj seen f))) (jolt-invoke _a$182 _a$183 _a$184))))) jolt-nil))))) xs seen))))))))) step))) (jolt-invoke step coll (jolt-hash-set)))))))) distinct))) @@ -925,69 +925,69 @@ (guard (e (#t #f)) (def-var! "clojure.core" "map-indexed" (letrec ((map-indexed (case-lambda ((f) (let fnrec206 ((f f)) (lambda (rf) (let fnrec207 ((rf rf)) (let* ((i (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec208 () (jolt-invoke rf))) ((result) (let fnrec209 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec210 ((result result) (input input)) (jolt-invoke rf result (jolt-invoke f (jolt-invoke (var-deref "clojure.core" "vswap!") i jolt-inc) input)))))))))) ((f coll) (let fnrec211 ((f f) (coll coll)) (letrec* ((mapi (letrec ((mapi (lambda (idx coll) (let fnrec212 ((idx idx) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec213 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((_a$217 (jolt-invoke f idx (jolt-first s))) (_a$218 (let* ((_a$214 mapi) (_a$215 (jolt-inc idx)) (_a$216 (jolt-rest s))) (jolt-invoke _a$214 _a$215 _a$216)))) (jolt-cons _a$217 _a$218))) jolt-nil)))))))))) mapi))) (jolt-invoke mapi 0 coll))))))) map-indexed))) (guard (e (#t #f)) - (def-var! "clojure.core" "cycle" (letrec ((cycle (lambda (coll) (let fnrec219 ((coll coll)) (let* ((temp__4__auto (jolt-seq coll))) (if (jolt-truthy? temp__4__auto) (let* ((vals temp__4__auto)) (let* ((n (jolt-count vals))) (letrec* ((cstep (letrec ((cstep (lambda (i) (let fnrec220 ((i i)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec221 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$222 (jolt-nth vals (modulo i n))) (_a$223 (jolt-invoke cstep (jolt-inc i)))) (jolt-cons _a$222 _a$223)))))))))) cstep))) (jolt-invoke cstep 0)))) (jolt-list ))))))) cycle))) + (def-var! "clojure.core" "cycle" (letrec ((cycle (lambda (coll) (let fnrec219 ((coll coll)) (if (jolt-truthy? (jolt-seq coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec220 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-concat coll (jolt-invoke cycle coll)))))) (jolt-list )))))) cycle))) (guard (e (#t #f)) - (def-var! "clojure.core" "repeatedly" (letrec ((repeatedly (case-lambda ((f) (let fnrec224 ((f f)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec225 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$226 (jolt-invoke f)) (_a$227 (jolt-invoke repeatedly f))) (jolt-cons _a$226 _a$227)))))))) ((n f) (let fnrec228 ((n n) (f f)) (jolt-take n (jolt-invoke repeatedly f))))))) repeatedly))) + (def-var! "clojure.core" "repeatedly" (letrec ((repeatedly (case-lambda ((f) (let fnrec221 ((f f)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec222 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((_a$223 (jolt-invoke f)) (_a$224 (jolt-invoke repeatedly f))) (jolt-cons _a$223 _a$224)))))))) ((n f) (let fnrec225 ((n n) (f f)) (jolt-take n (jolt-invoke repeatedly f))))))) repeatedly))) (guard (e (#t #f)) - (def-var! "clojure.core" "repeat" (letrec ((repeat (case-lambda ((x) (let fnrec229 ((x x)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec230 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (jolt-invoke repeat x)))))))) ((n x) (let fnrec231 ((n n) (x x)) (jolt-take n (jolt-invoke repeat x))))))) repeat))) + (def-var! "clojure.core" "repeat" (letrec ((repeat (case-lambda ((x) (let fnrec226 ((x x)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec227 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (jolt-invoke repeat x)))))))) ((n x) (let fnrec228 ((n n) (x x)) (jolt-take n (jolt-invoke repeat x))))))) repeat))) (guard (e (#t #f)) - (def-var! "clojure.core" "iterate" (letrec ((iterate (lambda (f x) (let fnrec232 ((f f) (x x)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec233 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (jolt-invoke iterate f (jolt-invoke f x))))))))))) iterate))) + (def-var! "clojure.core" "iterate" (letrec ((iterate (lambda (f x) (let fnrec229 ((f f) (x x)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec230 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (jolt-cons x (jolt-invoke iterate f (jolt-invoke f x))))))))))) iterate))) (guard (e (#t #f)) - (def-var! "clojure.core" "partition-all" (letrec ((partition-all (case-lambda ((n) (let fnrec234 ((n n)) (lambda (rf) (let fnrec235 ((rf rf)) (let* ((a (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector)))) (case-lambda (() (let fnrec236 () (jolt-invoke rf))) ((result) (let fnrec237 ((result result)) (let* ((result (if (jolt-zero? (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) result (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result v))))))) (jolt-invoke rf result)))) ((result input) (let fnrec238 ((result result) (input input)) (begin (jolt-invoke (var-deref "clojure.core" "vswap!") a jolt-conj input) (if (jolt= n (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke rf result v))) result)))))))))) ((n coll) (let fnrec239 ((n n) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec240 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec241 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((i 0) (chunk (jolt-vector)) (cur s)) (let loop242 ((i i) (chunk chunk) (cur cur)) (if (jolt-truthy? (let* ((and__13__auto (< i n))) (if (jolt-truthy? and__13__auto) (jolt-seq cur) and__13__auto))) (let* ((_a$243 (jolt-inc i)) (_a$244 (jolt-conj chunk (jolt-first cur))) (_a$245 (jolt-rest cur))) (loop242 _a$243 _a$244 _a$245)) (jolt-cons chunk (jolt-invoke go cur))))) jolt-nil))))))))) go))) (jolt-invoke go coll)))) ((n step coll) (let fnrec246 ((n n) (step step) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec247 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec248 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((_a$249 (jolt-take n s)) (_a$250 (jolt-invoke go (jolt-invoke (var-deref "clojure.core" "nthrest") s step)))) (jolt-cons _a$249 _a$250)) jolt-nil))))))))) go))) (jolt-invoke go coll))))))) partition-all))) + (def-var! "clojure.core" "partition-all" (letrec ((partition-all (case-lambda ((n) (let fnrec231 ((n n)) (lambda (rf) (let fnrec232 ((rf rf)) (let* ((a (jolt-invoke (var-deref "clojure.core" "volatile!") (jolt-vector)))) (case-lambda (() (let fnrec233 () (jolt-invoke rf))) ((result) (let fnrec234 ((result result)) (let* ((result (if (jolt-zero? (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) result (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke (var-deref "clojure.core" "unreduced") (jolt-invoke rf result v))))))) (jolt-invoke rf result)))) ((result input) (let fnrec235 ((result result) (input input)) (begin (jolt-invoke (var-deref "clojure.core" "vswap!") a jolt-conj input) (if (jolt= n (jolt-count (jolt-invoke (var-deref "clojure.core" "deref") a))) (let* ((v (jolt-invoke (var-deref "clojure.core" "deref") a))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") a (jolt-vector)) (jolt-invoke rf result v))) result)))))))))) ((n coll) (let fnrec236 ((n n) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec237 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec238 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((i 0) (chunk (jolt-vector)) (cur s)) (let loop239 ((i i) (chunk chunk) (cur cur)) (if (jolt-truthy? (let* ((and__13__auto (< i n))) (if (jolt-truthy? and__13__auto) (jolt-seq cur) and__13__auto))) (let* ((_a$240 (jolt-inc i)) (_a$241 (jolt-conj chunk (jolt-first cur))) (_a$242 (jolt-rest cur))) (loop239 _a$240 _a$241 _a$242)) (jolt-cons chunk (jolt-invoke go cur))))) jolt-nil))))))))) go))) (jolt-invoke go coll)))) ((n step coll) (let fnrec243 ((n n) (step step) (coll coll)) (letrec* ((go (letrec ((go (lambda (s) (let fnrec244 ((s s)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec245 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (if (jolt-truthy? (jolt-seq s)) (let* ((_a$246 (jolt-take n s)) (_a$247 (jolt-invoke go (jolt-invoke (var-deref "clojure.core" "nthrest") s step)))) (jolt-cons _a$246 _a$247)) jolt-nil))))))))) go))) (jolt-invoke go coll))))))) partition-all))) (guard (e (#t #f)) - (def-var! "clojure.core" "interpose" (letrec ((interpose (case-lambda ((sep) (let fnrec251 ((sep sep)) (lambda (rf) (let fnrec252 ((rf rf)) (let* ((started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec253 () (jolt-invoke rf))) ((result) (let fnrec254 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec255 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") started)) (let* ((sepr (jolt-invoke rf result sep))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") sepr)) sepr (jolt-invoke rf sepr input))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke rf result input))))))))))) ((sep coll) (let fnrec256 ((sep sep) (coll coll)) (jolt-drop 1 (jolt-invoke (var-deref "clojure.core" "interleave") (jolt-invoke (var-deref "clojure.core" "repeat") sep) coll))))))) interpose))) + (def-var! "clojure.core" "interpose" (letrec ((interpose (case-lambda ((sep) (let fnrec248 ((sep sep)) (lambda (rf) (let fnrec249 ((rf rf)) (let* ((started (jolt-invoke (var-deref "clojure.core" "volatile!") #f))) (case-lambda (() (let fnrec250 () (jolt-invoke rf))) ((result) (let fnrec251 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec252 ((result result) (input input)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "deref") started)) (let* ((sepr (jolt-invoke rf result sep))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "reduced?") sepr)) sepr (jolt-invoke rf sepr input))) (begin (jolt-invoke (var-deref "clojure.core" "vreset!") started #t) (jolt-invoke rf result input))))))))))) ((sep coll) (let fnrec253 ((sep sep) (coll coll)) (jolt-drop 1 (jolt-invoke (var-deref "clojure.core" "interleave") (jolt-invoke (var-deref "clojure.core" "repeat") sep) coll))))))) interpose))) (guard (e (#t #f)) - (def-var! "clojure.core" "take-nth" (letrec ((take-nth (case-lambda ((n) (let fnrec257 ((n n)) (lambda (rf) (let fnrec258 ((rf rf)) (let* ((iv (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec259 () (jolt-invoke rf))) ((result) (let fnrec260 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec261 ((result result) (input input)) (let* ((i (jolt-invoke (var-deref "clojure.core" "vswap!") iv jolt-inc))) (if (jolt-zero? (remainder i n)) (jolt-invoke rf result input) result)))))))))) ((n coll) (let fnrec262 ((n n) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec263 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((_a$264 (jolt-first s)) (_a$265 (jolt-invoke take-nth n (jolt-drop n s)))) (jolt-cons _a$264 _a$265))) jolt-nil))))))))))) take-nth))) + (def-var! "clojure.core" "take-nth" (letrec ((take-nth (case-lambda ((n) (let fnrec254 ((n n)) (lambda (rf) (let fnrec255 ((rf rf)) (let* ((iv (jolt-invoke (var-deref "clojure.core" "volatile!") -1))) (case-lambda (() (let fnrec256 () (jolt-invoke rf))) ((result) (let fnrec257 ((result result)) (jolt-invoke rf result))) ((result input) (let fnrec258 ((result result) (input input)) (let* ((i (jolt-invoke (var-deref "clojure.core" "vswap!") iv jolt-inc))) (if (jolt-zero? (remainder i n)) (jolt-invoke rf result input) result)))))))))) ((n coll) (let fnrec259 ((n n) (coll coll)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec260 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((temp__15__auto (jolt-seq coll))) (if (jolt-truthy? temp__15__auto) (let* ((s temp__15__auto)) (let* ((_a$261 (jolt-first s)) (_a$262 (jolt-invoke take-nth n (jolt-drop n s)))) (jolt-cons _a$261 _a$262))) jolt-nil))))))))))) take-nth))) (guard (e (#t #f)) - (def-var! "clojure.core" "pmap" (letrec ((pmap (case-lambda ((f coll) (let fnrec266 ((f f) (coll coll)) (jolt-map (var-deref "clojure.core" "deref") (jolt-invoke (var-deref "clojure.core" "doall") (jolt-map (lambda (x) (let fnrec267 ((x x)) (jolt-invoke (var-deref "clojure.core" "future-call") (lambda () (let fnrec268 () (jolt-invoke f x)))))) coll))))) ((f coll . colls) (let fnrec269 ((f f) (coll coll) (colls (list->cseq colls))) (let* ((_a$271 pmap) (_a$272 (lambda (xs) (let fnrec270 ((xs xs)) (jolt-apply f xs)))) (_a$273 (jolt-apply jolt-map jolt-vector coll colls))) (jolt-invoke _a$271 _a$272 _a$273))))))) pmap))) + (def-var! "clojure.core" "pmap" (letrec ((pmap (case-lambda ((f coll) (let fnrec263 ((f f) (coll coll)) (jolt-map (var-deref "clojure.core" "deref") (jolt-invoke (var-deref "clojure.core" "doall") (jolt-map (lambda (x) (let fnrec264 ((x x)) (jolt-invoke (var-deref "clojure.core" "future-call") (lambda () (let fnrec265 () (jolt-invoke f x)))))) coll))))) ((f coll . colls) (let fnrec266 ((f f) (coll coll) (colls (list->cseq colls))) (let* ((_a$268 pmap) (_a$269 (lambda (xs) (let fnrec267 ((xs xs)) (jolt-apply f xs)))) (_a$270 (jolt-apply jolt-map jolt-vector coll colls))) (jolt-invoke _a$268 _a$269 _a$270))))))) pmap))) (guard (e (#t #f)) - (def-var! "clojure.core" "pcalls" (letrec ((pcalls (lambda fns (let fnrec274 ((fns (list->cseq fns))) (jolt-invoke (var-deref "clojure.core" "pmap") (lambda (f) (let fnrec275 ((f f)) (jolt-invoke f))) fns))))) pcalls))) + (def-var! "clojure.core" "pcalls" (letrec ((pcalls (lambda fns (let fnrec271 ((fns (list->cseq fns))) (jolt-invoke (var-deref "clojure.core" "pmap") (lambda (f) (let fnrec272 ((f f)) (jolt-invoke f))) fns))))) pcalls))) (guard (e (#t #f)) (def-var-with-meta! "clojure.core" "reader-eof" (keyword "jolt" "reader-eof") (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (begin (def-var! "clojure.core" "IReader" (jolt-invoke (var-deref "clojure.core" "make-protocol") "IReader" (let* ((_o$282 (keyword #f "-read+string")) (_o$283 (let* ((_o$276 (keyword #f "name")) (_o$277 "-read+string")) (jolt-hash-map _o$276 _o$277))) (_o$284 (keyword #f "-read-line")) (_o$285 (let* ((_o$278 (keyword #f "name")) (_o$279 "-read-line")) (jolt-hash-map _o$278 _o$279))) (_o$286 (keyword #f "-read-form")) (_o$287 (let* ((_o$280 (keyword #f "name")) (_o$281 "-read-form")) (jolt-hash-map _o$280 _o$281)))) (jolt-hash-map _o$282 _o$283 _o$284 _o$285 _o$286 _o$287)))) (jolt-invoke (var-deref "clojure.core" "register-protocol-methods!") "IReader" (let* ((_o$288 "-read-line") (_o$289 "-read-form") (_o$290 "-read+string")) (jolt-vector _o$288 _o$289 _o$290))) (def-var! "clojure.core" "-read-line" (lambda (this__11__auto . rest__10__auto) (let fnrec291 ((this__11__auto this__11__auto) (rest__10__auto (list->cseq rest__10__auto))) (jolt-invoke (var-deref "clojure.core" "protocol-dispatch") "IReader" "-read-line" this__11__auto rest__10__auto)))) (def-var! "clojure.core" "-read-form" (lambda (this__11__auto . rest__10__auto) (let fnrec292 ((this__11__auto this__11__auto) (rest__10__auto (list->cseq rest__10__auto))) (jolt-invoke (var-deref "clojure.core" "protocol-dispatch") "IReader" "-read-form" this__11__auto rest__10__auto)))) (def-var! "clojure.core" "-read+string" (lambda (this__11__auto . rest__10__auto) (let fnrec293 ((this__11__auto this__11__auto) (rest__10__auto (list->cseq rest__10__auto))) (jolt-invoke (var-deref "clojure.core" "protocol-dispatch") "IReader" "-read+string" this__11__auto rest__10__auto)))))) + (begin (def-var! "clojure.core" "IReader" (jolt-invoke (var-deref "clojure.core" "make-protocol") "IReader" (let* ((_o$279 (keyword #f "-read+string")) (_o$280 (let* ((_o$273 (keyword #f "name")) (_o$274 "-read+string")) (jolt-hash-map _o$273 _o$274))) (_o$281 (keyword #f "-read-line")) (_o$282 (let* ((_o$275 (keyword #f "name")) (_o$276 "-read-line")) (jolt-hash-map _o$275 _o$276))) (_o$283 (keyword #f "-read-form")) (_o$284 (let* ((_o$277 (keyword #f "name")) (_o$278 "-read-form")) (jolt-hash-map _o$277 _o$278)))) (jolt-hash-map _o$279 _o$280 _o$281 _o$282 _o$283 _o$284)))) (jolt-invoke (var-deref "clojure.core" "register-protocol-methods!") "IReader" (let* ((_o$285 "-read-line") (_o$286 "-read-form") (_o$287 "-read+string")) (jolt-vector _o$285 _o$286 _o$287))) (def-var! "clojure.core" "-read-line" (lambda (this__11__auto . rest__10__auto) (let fnrec288 ((this__11__auto this__11__auto) (rest__10__auto (list->cseq rest__10__auto))) (jolt-invoke (var-deref "clojure.core" "protocol-dispatch") "IReader" "-read-line" this__11__auto rest__10__auto)))) (def-var! "clojure.core" "-read-form" (lambda (this__11__auto . rest__10__auto) (let fnrec289 ((this__11__auto this__11__auto) (rest__10__auto (list->cseq rest__10__auto))) (jolt-invoke (var-deref "clojure.core" "protocol-dispatch") "IReader" "-read-form" this__11__auto rest__10__auto)))) (def-var! "clojure.core" "-read+string" (lambda (this__11__auto . rest__10__auto) (let fnrec290 ((this__11__auto this__11__auto) (rest__10__auto (list->cseq rest__10__auto))) (jolt-invoke (var-deref "clojure.core" "protocol-dispatch") "IReader" "-read+string" this__11__auto rest__10__auto)))))) (guard (e (#t #f)) - (def-var! "clojure.core" "__string-reader" (letrec ((__string-reader (lambda (s) (let fnrec294 ((s s)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "atom") s))) (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$304 (keyword #f "-read+string")) (_o$305 (lambda (_ eof-error? eof-value) (let fnrec295 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") buf)) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$296 eof-value) (_o$297 "")) (jolt-vector _o$296 _o$297))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (let* ((_o$300 (jolt-nth r 0)) (_o$301 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$298 (jolt-count s)) (_a$299 (jolt-count (jolt-nth r 1)))) (- _a$298 _a$299))))) (jolt-vector _o$300 _o$301)))))))) (_o$306 (keyword #f "-read-line")) (_o$307 (lambda (_) (let fnrec302 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") buf))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") i)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) jolt-nil))))) (_o$308 (keyword #f "-read-form")) (_o$309 (lambda (_) (let fnrec303 ((_ _)) (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") buf)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (jolt-nth r 0)))))))) (jolt-hash-map _o$304 _o$305 _o$306 _o$307 _o$308 _o$309)) "IReader")))))) __string-reader))) + (def-var! "clojure.core" "__string-reader" (letrec ((__string-reader (lambda (s) (let fnrec291 ((s s)) (let* ((buf (jolt-invoke (var-deref "clojure.core" "atom") s))) (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$301 (keyword #f "-read+string")) (_o$302 (lambda (_ eof-error? eof-value) (let fnrec292 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") buf)) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$293 eof-value) (_o$294 "")) (jolt-vector _o$293 _o$294))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (let* ((_o$297 (jolt-nth r 0)) (_o$298 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$295 (jolt-count s)) (_a$296 (jolt-count (jolt-nth r 1)))) (- _a$295 _a$296))))) (jolt-vector _o$297 _o$298)))))))) (_o$303 (keyword #f "-read-line")) (_o$304 (lambda (_) (let fnrec299 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") buf))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") i)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) jolt-nil))))) (_o$305 (keyword #f "-read-form")) (_o$306 (lambda (_) (let fnrec300 ((_ _)) (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") buf)))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "reset!") buf (jolt-nth r 1)) (jolt-nth r 0)))))))) (jolt-hash-map _o$301 _o$302 _o$303 _o$304 _o$305 _o$306)) "IReader")))))) __string-reader))) (guard (e (#t #f)) (def-var-with-meta! "clojure.core" "stdin-buf" (jolt-invoke (var-deref "clojure.core" "atom") "") (jolt-hash-map (keyword #f "private") #t))) (guard (e (#t #f)) - (def-var-with-meta! "clojure.core" "*in*" (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$323 (keyword #f "-read+string")) (_o$324 (lambda (_ eof-error? eof-value) (let fnrec310 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* () (let loop311 () (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") line)) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$312 eof-value) (_o$313 "")) (jolt-vector _o$312 _o$313))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec314 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop311 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (let* ((_o$317 (jolt-nth r 0)) (_o$318 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$315 (jolt-count s)) (_a$316 (jolt-count (jolt-nth r 1)))) (- _a$315 _a$316))))) (jolt-vector _o$317 _o$318)))))))))) (_o$325 (keyword #f "-read-line")) (_o$326 (lambda (_) (let fnrec319 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf")))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") i)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) (jolt-invoke (var-deref "clojure.core" "__stdin-read-line"))))))) (_o$327 (keyword #f "-read-form")) (_o$328 (lambda (_) (let fnrec320 ((_ _)) (let* () (let loop321 () (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") line)) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec322 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop321 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (jolt-nth r 0)))))))))) (jolt-hash-map _o$323 _o$324 _o$325 _o$326 _o$327 _o$328)) "IReader") (jolt-hash-map (keyword #f "dynamic") #t))) + (def-var-with-meta! "clojure.core" "*in*" (jolt-invoke (var-deref "clojure.core" "make-reified") (let* ((_o$320 (keyword #f "-read+string")) (_o$321 (lambda (_ eof-error? eof-value) (let fnrec307 ((_ _) (eof-error? eof-error?) (eof-value eof-value)) (let* () (let loop308 () (let* ((s (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))) (r (jolt-invoke (var-deref "clojure.core" "__parse-next") s))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") line)) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) (let* ((_o$309 eof-value) (_o$310 "")) (jolt-vector _o$309 _o$310))) (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec311 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop308 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (let* ((_o$314 (jolt-nth r 0)) (_o$315 (jolt-invoke (var-deref "clojure.core" "subs") s 0 (let* ((_a$312 (jolt-count s)) (_a$313 (jolt-count (jolt-nth r 1)))) (- _a$312 _a$313))))) (jolt-vector _o$314 _o$315)))))))))) (_o$322 (keyword #f "-read-line")) (_o$323 (lambda (_) (let fnrec316 ((_ _)) (let* ((cur (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf")))) (if (jolt-pos? (jolt-count cur)) (let* ((i (jolt-invoke (var-deref "clojure.core" "str-find") "\n" cur))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") i)) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") "") cur) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-invoke (var-deref "clojure.core" "subs") cur (jolt-inc i))) (jolt-invoke (var-deref "clojure.core" "subs") cur 0 i)))) (jolt-invoke (var-deref "clojure.core" "__stdin-read-line"))))))) (_o$324 (keyword #f "-read-form")) (_o$325 (lambda (_) (let fnrec317 ((_ _)) (let* () (let loop318 () (let* ((r (jolt-invoke (var-deref "clojure.core" "__parse-next") (jolt-invoke (var-deref "clojure.core" "deref") (var-deref "clojure.core" "stdin-buf"))))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") r)) (let* ((line (jolt-invoke (var-deref "clojure.core" "__stdin-read-line")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") line)) (var-deref "clojure.core" "reader-eof") (begin (jolt-invoke (var-deref "clojure.core" "swap!") (var-deref "clojure.core" "stdin-buf") (lambda (b) (let fnrec319 ((b b)) (jolt-invoke (var-deref "clojure.core" "str") b line "\n")))) (loop318 )))) (begin (jolt-invoke (var-deref "clojure.core" "reset!") (var-deref "clojure.core" "stdin-buf") (jolt-nth r 1)) (jolt-nth r 0)))))))))) (jolt-hash-map _o$320 _o$321 _o$322 _o$323 _o$324 _o$325)) "IReader") (jolt-hash-map (keyword #f "dynamic") #t))) (guard (e (#t #f)) - (def-var! "clojure.core" "read-line" (letrec ((read-line (lambda () (let fnrec329 () (jolt-invoke (var-deref "clojure.core" "-read-line") (var-deref "clojure.core" "*in*")))))) read-line))) + (def-var! "clojure.core" "read-line" (letrec ((read-line (lambda () (let fnrec326 () (jolt-invoke (var-deref "clojure.core" "-read-line") (var-deref "clojure.core" "*in*")))))) read-line))) (guard (e (#t #f)) - (def-var! "clojure.core" "read" (letrec ((read (case-lambda (() (let fnrec330 () (jolt-invoke read (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec331 ((stream stream)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) v)))) ((stream eof-error? eof-value) (let fnrec332 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) eof-value) v))))))) read))) + (def-var! "clojure.core" "read" (letrec ((read (case-lambda (() (let fnrec327 () (jolt-invoke read (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec328 ((stream stream)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) v)))) ((stream eof-error? eof-value) (let fnrec329 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (let* ((v (jolt-invoke (var-deref "clojure.core" "-read-form") stream))) (if (jolt= v (var-deref "clojure.core" "reader-eof")) (if (jolt-truthy? eof-error?) (jolt-throw (jolt-ex-info "EOF while reading" (jolt-hash-map))) eof-value) v))))))) read))) (guard (e (#t #f)) (def-var! "clojure.core" "with-in-str" - (lambda (s . body) (let fnrec333 ((s s) (body (list->cseq body))) (let* ((_a$340 (var-deref "clojure.core" "__sqcat")) (_a$341 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "binding"))) (_a$342 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$337 (var-deref "clojure.core" "__sqvec")) (_a$338 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "*in*"))) (_a$339 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$334 (var-deref "clojure.core" "__sqcat")) (_a$335 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__string-reader"))) (_a$336 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$334 _a$335 _a$336))))) (jolt-invoke _a$337 _a$338 _a$339)))) (_a$343 body)) (jolt-invoke _a$340 _a$341 _a$342 _a$343))))) + (lambda (s . body) (let fnrec330 ((s s) (body (list->cseq body))) (let* ((_a$337 (var-deref "clojure.core" "__sqcat")) (_a$338 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "binding"))) (_a$339 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$334 (var-deref "clojure.core" "__sqvec")) (_a$335 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "*in*"))) (_a$336 (jolt-invoke (var-deref "clojure.core" "__sq1") (let* ((_a$331 (var-deref "clojure.core" "__sqcat")) (_a$332 (jolt-invoke (var-deref "clojure.core" "__sq1") (jolt-symbol "clojure.core" "__string-reader"))) (_a$333 (jolt-invoke (var-deref "clojure.core" "__sq1") s))) (jolt-invoke _a$331 _a$332 _a$333))))) (jolt-invoke _a$334 _a$335 _a$336)))) (_a$340 body)) (jolt-invoke _a$337 _a$338 _a$339 _a$340))))) (mark-macro! "clojure.core" "with-in-str")) (guard (e (#t #f)) - (def-var! "clojure.core" "read+string" (letrec ((read+string (case-lambda (() (let fnrec344 () (jolt-invoke read+string (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec345 ((stream stream)) (jolt-invoke read+string stream #t jolt-nil))) ((stream eof-error? eof-value) (let fnrec346 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (jolt-invoke (var-deref "clojure.core" "-read+string") stream eof-error? eof-value)))))) read+string))) + (def-var! "clojure.core" "read+string" (letrec ((read+string (case-lambda (() (let fnrec341 () (jolt-invoke read+string (var-deref "clojure.core" "*in*")))) ((stream) (let fnrec342 ((stream stream)) (jolt-invoke read+string stream #t jolt-nil))) ((stream eof-error? eof-value) (let fnrec343 ((stream stream) (eof-error? eof-error?) (eof-value eof-value)) (jolt-invoke (var-deref "clojure.core" "-read+string") stream eof-error? eof-value)))))) read+string))) (guard (e (#t #f)) - (def-var! "clojure.core" "line-seq" (letrec ((line-seq (lambda (rdr) (let fnrec347 ((rdr rdr)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") rdr)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "str-split") "\n" rdr)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec348 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((line (jolt-invoke (var-deref "clojure.core" "-read-line") rdr))) (if (jolt-truthy? line) (jolt-cons line (jolt-invoke line-seq rdr)) jolt-nil))))))))))) line-seq))) + (def-var! "clojure.core" "line-seq" (letrec ((line-seq (lambda (rdr) (let fnrec344 ((rdr rdr)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "string?") rdr)) (jolt-seq (jolt-invoke (var-deref "clojure.core" "str-split") "\n" rdr)) (jolt-invoke (var-deref "clojure.core" "make-lazy-seq") (lambda () (let fnrec345 () (jolt-invoke (var-deref "clojure.core" "coll->cells") (let* ((line (jolt-invoke (var-deref "clojure.core" "-read-line") rdr))) (if (jolt-truthy? line) (jolt-cons line (jolt-invoke line-seq rdr)) jolt-nil))))))))))) line-seq))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol #f "print-method") (lambda (x writer) (let fnrec349 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "type") x))))))) + (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol #f "print-method") (lambda (x writer) (let fnrec346 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "type") x))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword #f "default") (lambda (o w) (let fnrec350 ((o o) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "__pr-str1") o))) jolt-nil))))) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword #f "default") (lambda (o w) (let fnrec347 ((o o) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "__pr-str1") o))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol #f "print-dup") (lambda (x writer) (let fnrec351 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "type") x))))))) + (jolt-invoke (var-deref "clojure.core" "defmulti-setup") (jolt-symbol #f "print-dup") (lambda (x writer) (let fnrec348 ((x x) (writer writer)) (let* ((t (jolt-get (jolt-invoke (var-deref "clojure.core" "meta") x) (keyword #f "type")))) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "keyword?") t)) t (jolt-invoke (var-deref "clojure.core" "type") x))))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-dup") (keyword #f "default") (lambda (o w) (let fnrec352 ((o o) (w w)) (jolt-invoke (var-deref "clojure.core" "print-method") o w))))) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-dup") (keyword #f "default") (lambda (o w) (let fnrec349 ((o o) (w w)) (jolt-invoke (var-deref "clojure.core" "print-method") o w))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "uuid") (lambda (u w) (let fnrec353 ((u u) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#uuid \"" (jolt-get u (keyword #f "str")) "\""))) jolt-nil))))) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "uuid") (lambda (u w) (let fnrec350 ((u u) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#uuid \"" (jolt-get u (keyword #f "str")) "\""))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "regex") (lambda (re w) (let fnrec354 ((re re) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#\"" (jolt-get re (keyword #f "source")) "\""))) jolt-nil))))) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "regex") (lambda (re w) (let fnrec351 ((re re) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#\"" (jolt-get re (keyword #f "source")) "\""))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "transient") (lambda (t w) (let fnrec355 ((t t) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#"))) jolt-nil))))) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "transient") (lambda (t w) (let fnrec352 ((t t) (w w)) (begin (record-method-dispatch w "write" (jolt-vector (jolt-invoke (var-deref "clojure.core" "str") "#"))) jolt-nil))))) (guard (e (#t #f)) - (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "chan") (lambda (c w) (let fnrec356 ((c c) (w w)) (begin (record-method-dispatch w "write" (jolt-vector "#")) jolt-nil))))) + (jolt-invoke (var-deref "clojure.core" "defmethod-setup") (jolt-symbol #f "print-method") (keyword "jolt" "chan") (lambda (c w) (let fnrec353 ((c c) (w w)) (begin (record-method-dispatch w "write" (jolt-vector "#")) jolt-nil))))) (guard (e (#t #f)) - (def-var! "clojure.core" "agent" (letrec ((agent (lambda (state . _opts) (let fnrec357 ((state state) (_opts (list->cseq _opts))) (jolt-invoke (var-deref "clojure.core" "atom") state))))) agent))) + (def-var! "clojure.core" "agent" (letrec ((agent (lambda (state . _opts) (let fnrec354 ((state state) (_opts (list->cseq _opts))) (jolt-invoke (var-deref "clojure.core" "atom") state))))) agent))) (guard (e (#t #f)) - (def-var! "clojure.core" "send-off" (letrec ((send-off (lambda (a f . args) (let fnrec358 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send-off))) + (def-var! "clojure.core" "send-off" (letrec ((send-off (lambda (a f . args) (let fnrec355 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send-off))) (guard (e (#t #f)) - (def-var! "clojure.core" "send" (letrec ((send (lambda (a f . args) (let fnrec359 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send))) + (def-var! "clojure.core" "send" (letrec ((send (lambda (a f . args) (let fnrec356 ((a a) (f f) (args (list->cseq args))) (begin (jolt-apply (var-deref "clojure.core" "swap!") a f args) a))))) send))) (guard (e (#t #f)) - (def-var! "clojure.core" "agent-error" (letrec ((agent-error (lambda (_a) (let fnrec360 ((_a _a)) jolt-nil)))) agent-error))) + (def-var! "clojure.core" "agent-error" (letrec ((agent-error (lambda (_a) (let fnrec357 ((_a _a)) jolt-nil)))) agent-error))) (guard (e (#t #f)) (def-var! "clojure.string" "blank?" (letrec ((blank? (lambda (s) (let fnrec101 ((s s)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "nil?") s)) #t (jolt= 0 (jolt-count (jolt-invoke (var-deref "clojure.core" "str-trim") s)))))))) blank?))) (guard (e (#t #f)) @@ -1063,7 +1063,7 @@ (guard (e (#t #f)) (def-var! "clojure.edn" "read-string" (letrec ((read-string (case-lambda ((s) (let fnrec93 ((s s)) (jolt-invoke (var-deref "clojure.edn" "read-edn") (jolt-hash-map) s))) ((opts s) (let fnrec94 ((opts opts) (s s)) (jolt-invoke (var-deref "clojure.edn" "read-edn") opts s)))))) read-string))) (guard (e (#t #f)) - (def-var! "clojure.edn" "drain-reader" (letrec ((drain-reader (lambda (reader) (let fnrec95 ((reader reader)) (if (jolt= (keyword "core" "file") (host-static-call "janet" "type" reader)) (host-static-call "janet.file" "read" reader (keyword #f "all")) (let* ((acc (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (c (record-method-dispatch reader "read" (jolt-vector)))) (let loop96 ((acc acc) (c c)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "==") -1 c)) (jolt-apply (var-deref "clojure.core" "str") (jolt-map (var-deref "clojure.core" "char") (jolt-invoke (var-deref "clojure.core" "persistent!") acc))) (let* ((_a$97 (jolt-invoke (var-deref "clojure.core" "conj!") acc c)) (_a$98 (record-method-dispatch reader "read" (jolt-vector)))) (loop96 _a$97 _a$98)))))))))) drain-reader))) + (def-var! "clojure.edn" "drain-reader" (letrec ((drain-reader (lambda (reader) (let fnrec95 ((reader reader)) (let* ((acc (jolt-invoke (var-deref "clojure.core" "transient") (jolt-vector))) (c (record-method-dispatch reader "read" (jolt-vector)))) (let loop96 ((acc acc) (c c)) (if (jolt-truthy? (jolt-invoke (var-deref "clojure.core" "==") -1 c)) (jolt-apply (var-deref "clojure.core" "str") (jolt-map (var-deref "clojure.core" "char") (jolt-invoke (var-deref "clojure.core" "persistent!") acc))) (let* ((_a$97 (jolt-invoke (var-deref "clojure.core" "conj!") acc c)) (_a$98 (record-method-dispatch reader "read" (jolt-vector)))) (loop96 _a$97 _a$98))))))))) drain-reader))) (guard (e (#t #f)) (def-var! "clojure.edn" "read" (letrec ((read (case-lambda ((reader) (let fnrec99 ((reader reader)) (jolt-invoke read (jolt-hash-map) reader))) ((opts reader) (let fnrec100 ((opts opts) (reader reader)) (jolt-invoke (var-deref "clojure.edn" "read-edn") opts (jolt-invoke (var-deref "clojure.edn" "drain-reader") reader))))))) read))) (guard (e (#t #f)) diff --git a/host/chez/seq.ss b/host/chez/seq.ss index 1901d36..34258a4 100644 --- a/host/chez/seq.ss +++ b/host/chez/seq.ss @@ -206,7 +206,13 @@ (if (jolt-reduced? r) (jolt-reduced-val r) r)))) (else (reduce-seq f init (jolt-seq coll))))))) -(define (jolt-into to from) (reduce-seq (lambda (acc x) (jolt-conj1 acc x)) to (jolt-seq from))) +;; Fold through a transient so a pvec/pmap/pset target is built in O(n): a +;; persistent pvec-conj copies its whole backing vector each step, making a naive +;; fold O(n^2) (and into/vec/mapv/filterv all route here). jolt-transient-new +;; falls back to a copy-on-write wrapper for other targets (lists, sorted colls, +;; nil), so those keep the old per-step jolt-conj behaviour. +(define (jolt-into to from) + (jolt-persistent! (reduce-seq (lambda (t x) (jolt-conj! t x)) (jolt-transient-new to) (jolt-seq from)))) (define (range-from n) (cseq-lazy n (lambda () (range-from (+ n 1))))) (define (range-bounded n end step) diff --git a/host/chez/vars.ss b/host/chez/vars.ss index bc451e3..123fb1a 100644 --- a/host/chez/vars.ss +++ b/host/chez/vars.ss @@ -45,8 +45,7 @@ (set! jolt-pr-str (lambda (x) (if (var-cell? x) (var->str x) (%v-pr-str x)))) (define %v-pr-readable jolt-pr-readable) (set! jolt-pr-readable (lambda (x) (if (var-cell? x) (var->str x) (%v-pr-readable x)))) -(define %v-str-render-one jolt-str-render-one) -(set! jolt-str-render-one (lambda (x) (if (var-cell? x) (var->str x) (%v-str-render-one x)))) +(register-str-render! var-cell? var->str) ;; bound? — native (the overlay's (get v :root) is nil on a var-cell record). (define (jolt-var-bound-one? v) (and (var-cell? v) (not (eq? (var-cell-root v) jolt-unbound)))) diff --git a/jolt-core/clojure/core/20-coll.clj b/jolt-core/clojure/core/20-coll.clj index 9e4d223..f5f688b 100644 --- a/jolt-core/clojure/core/20-coll.clj +++ b/jolt-core/clojure/core/20-coll.clj @@ -188,13 +188,15 @@ (defn replicate [n x] (map (fn [_] x) (range n))) +;; Returns a seq (JVM does), nil when n<=0 or coll is empty. (defn take-last [n coll] (let [c (vec coll) len (count c)] - (when (pos? len) (subvec c (max 0 (- len n)))))) + (when (pos? len) (seq (subvec c (max 0 (- len n))))))) +;; The JVM definition: a lazy seq (() when empty), not a vector. (defn drop-last ([coll] (drop-last 1 coll)) - ([n coll] (let [c (vec coll)] (subvec c 0 (max 0 (- (count c) n)))))) + ([n coll] (map (fn [x _] x) coll (drop n coll)))) (defn distinct? ([x] true) @@ -453,671 +455,3 @@ (defn println-str [& xs] (__with-out-str (fn* [] (apply println xs)))) (defn prn-str [& xs] (__with-out-str (fn* [] (apply prn xs)))) -;; --- leaves over the rand / sort host seams ---------------------------------- - -;; Canonical truncation toward zero via int (the kernel fn floored, which is -;; wrong for a negative n). -(defn rand-int [n] (int (rand n))) - -;; Pure-functional Fisher-Yates over vector assoc; returns a vector, as in -;; Clojure. Collections only — a string is seqable but not shuffleable, as on -;; the JVM (Collections/shuffle wants a Collection). -(defn shuffle [coll] - (when-not (coll? coll) - (throw (ex-info (str "shuffle requires a collection, got: " coll) {}))) - (loop [v (vec coll) i (dec (count v))] - (if (pos? i) - (let [j (rand-int (inc i)) - t (nth v i)] - (recur (assoc (assoc v i (nth v j)) j t) (dec i))) - v))) - -;; Canonical sort-by: the default comparator is compare (so nil sorts first, -;; like Clojure — the kernel fn used host ordering, which put nil last); the -;; comparator compares KEYS and may be 3-way or a boolean predicate (the host -;; sort seam normalizes). -(defn sort-by - ([keyfn coll] (sort-by keyfn compare coll)) - ([keyfn comp coll] - (sort (fn [x y] (comp (keyfn x) (keyfn y))) coll))) - -;; parse-uuid: nil unless s is a canonical 8-4-4-4-12 hex UUID string; throws -;; on a non-string (Clojure 1.11). __make-uuid is the host constructor for the -;; tagged value (overlay source can't write :jolt/type map literals — the -;; reader treats them as tagged forms). -(defn parse-uuid [s] - (if (string? s) - (when (re-matches - #"[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}" s) - (__make-uuid s)) - (throw (str "parse-uuid requires a string, got: " s)))) - -;; Version-4 UUID (RFC 4122): zero-padded hex groups 8-4-4-4-12, version -;; nibble 4, variant 8-b — built over rand-int and validated by parse-uuid. -(defn random-uuid [] - (let [hx4 (fn [] (format "%04x" (rand-int 0x10000))) - hx3 (fn [] (format "%03x" (rand-int 0x1000)))] - (parse-uuid (str (hx4) (hx4) "-" (hx4) "-4" (hx3) - "-" (format "%x" (+ 8 (rand-int 4))) (hx3) - "-" (hx4) (hx4) (hx4))))) - -;; The char escape/name tables, as char-keyed maps (Clojure's shape). -(def ^:private char-escape-strings - {\newline "\\n" \tab "\\t" \return "\\r" \formfeed "\\f" - \backspace "\\b" \" "\\\"" \\ "\\\\"}) -(defn char-escape-string [c] (get char-escape-strings c)) - -(def ^:private char-name-strings - {\newline "newline" \tab "tab" \return "return" \formfeed "formfeed" - \backspace "backspace" \space "space"}) -(defn char-name-string [c] (get char-name-strings c)) - -;; Random selection over the host rand primitives. -(defn rand-nth [coll] - (let [v (vec coll)] (nth v (rand-int (count v))))) - -(defn random-sample - ([prob] (filter (fn [_] (< (rand) prob)))) - ([prob coll] (filter (fn [_] (< (rand) prob)) coll))) - -(defn comparator [pred] - (fn [a b] (cond (pred a b) -1 (pred b a) 1 :else 0))) - -;; Lazy: the running accumulators, one at a time (matches Clojure). -(defn reductions - ([f coll] - (lazy-seq - (let [s (seq coll)] - (if s - (reductions f (first s) (rest s)) - (list (f)))))) - ([f init coll] - (cons init - (lazy-seq - (when-let [s (seq coll)] - (reductions f (f init (first s)) (rest s))))))) - -;; Lazy pre-order DFS (matches Clojure): node, then its children's walks spliced -;; via the (now lazy) mapcat. -(defn tree-seq [branch? children root] - (let [walk (fn walk [node] - (lazy-seq - (cons node - (when (branch? node) - (mapcat walk (children node))))))] - (walk root))) - -;; file-seq: the tree of paths under root (root included), directories walked -;; via the host dir primitives. Paths (strings), not File objects. (Lives below -;; tree-seq: forward references are analysis errors.) -(defn file-seq [root] - (if (__file? root) - ;; java.io.File tree: walk via the File method surface so leaves are File - ;; values callers can invoke .isFile/.getName/slurp on. - (tree-seq (fn [f] (.isDirectory f)) (fn [f] (seq (.listFiles f))) root) - (tree-seq __dir? __list-dir root))) - -;; Canonical flatten via tree-seq: the leaves (non-sequential nodes) in order. -;; Flattens lists too (sequential?), matching Clojure/CLJS. -(defn flatten [coll] - (filter (complement sequential?) (rest (tree-seq sequential? seq coll)))) - -;; xml-seq: tree-seq over XML element trees. Elements are maps with :content. -(defn xml-seq [root] - (tree-seq (complement string?) (comp seq :content) root)) - -;; Lazy interleave: round-robin one element from each coll until any exhausts. -(defn interleave - ([] ()) - ([c1] (lazy-seq c1)) - ([c1 c2] - (lazy-seq - (let [s1 (seq c1) s2 (seq c2)] - (when (and s1 s2) - (cons (first s1) - (cons (first s2) - (interleave (rest s1) (rest s2)))))))) - ([c1 c2 & cs] - (lazy-seq - (let [ss (map seq (list* c1 c2 cs))] - (when (every? identity ss) - (concat (map first ss) - (apply interleave (map rest ss)))))))) - -;; No ratio type on Jolt, so rationalize is identity. -(defn rationalize [x] x) - -;; 0-arg: a stateful transducer (tracks [seen? prev] in a volatile, so no sentinel -;; value is needed). 1-arg: eager dedupe of consecutive equal elements. -(defn dedupe - ([] - (fn [rf] - (let [pv (volatile! [false nil])] - (fn - ([] (rf)) - ([result] (rf result)) - ([result input] - (let [[seen prior] @pv] - (vreset! pv [true input]) - (if (and seen (= prior input)) result (rf result input)))))))) - ([coll] - (let [step (fn step [s prev] - (make-lazy-seq - (fn* [] - (let [s (seq s)] - (if s - (let [x (first s)] - (if (= x prev) - (coll->cells (step (rest s) prev)) - (coll->cells (cons x (step (rest s) x))))) - nil)))))] - (let [s (seq coll)] - (if s - (make-lazy-seq - (fn* [] (coll->cells (cons (first s) (step (rest s) (first s)))))) - ()))))) - -;; Internal helper for {:keys [...]} destructuring over a seq of k/v pairs — -;; canonical Clojure 1.11 shape (core.clj seq-to-map-for-destructuring): -;; even pairs build a map (later keys win, as createAsIfByAssoc), a SINGLE -;; element is returned as-is (the trailing-map calling convention), and an -;; unpaired key past pairs throws. -(defn seq-to-map-for-destructuring [s] - (if (next s) - (loop [m {} xs (seq s)] - (if xs - (if (next xs) - (recur (assoc m (first xs) (second xs)) (nnext xs)) - (throw (str "No value supplied for key: " (first xs)))) - m)) - (if (seq s) (first s) {}))) - -;; Host-coupled fns that are pure logic over existing core primitives, so they -;; need no new jolt.host surface. - -;; vary-meta: f applied to obj's metadata (+ extra args), reattached. meta and -;; with-meta are the irreducible host primitives; vary-meta is just their compose. -(defn vary-meta [obj f & args] - (with-meta obj (apply f (meta obj) args))) - -;; namespace-munge: Clojure namespace name -> legal Java package name (- -> _). -(defn namespace-munge [s] - (apply str (map (fn [c] (if (= c \-) \_ c)) (seq (str s))))) - -;; reduce-kv over a map (k v) or vector (index v). Both branches go through reduce, -;; so reduced short-circuits — and the vector path indexes correctly. nil folds -;; to init, matching Clojure. -(defn reduce-kv [f init coll] - (cond - (vector? coll) (reduce (fn [acc i] (f acc i (nth coll i))) init (range (count coll))) - (map? coll) (reduce (fn [acc k] (f acc k (get coll k))) init (keys coll)) - (nil? coll) init - :else (throw (str "reduce-kv not supported on: " coll)))) - -;; ex-info accessors. The constructor (ex-info) stays native — it builds the tagged -;; value and wires into throw — but the value exposes :jolt/type/:message/:data/ -;; :cause via get, so the accessors are pure over get. A thrown non-ex-info arrives -;; wrapped as {:jolt/type :jolt/exception :value v}; unwrap that first. -(defn- ex-info-val? [x] (= (get x :jolt/type) :jolt/ex-info)) -(defn- ex-unwrap [e] - (if (= (get e :jolt/type) :jolt/exception) (get e :value) e)) -(defn ex-data [e] - (let [e (ex-unwrap e)] (if (ex-info-val? e) (get e :data) nil))) -(defn ex-message [e] - (let [e (ex-unwrap e)] - (cond (ex-info-val? e) (get e :message) - :else nil))) -(defn ex-cause [e] - (let [e (ex-unwrap e)] (if (ex-info-val? e) (get e :cause) nil))) - -;; inst-ms: epoch milliseconds of an instant; throws on a non-inst (Clojure -;; protocol behavior). -(defn inst-ms [x] - (if (inst? x) (get x :ms) (throw (str "inst-ms requires an inst, got: " x)))) - -;; Clojure 1.11 map transformers. PHM base so transformed keys canonicalize -;; (collisions: last entry in seq order wins, matching the reference). -(defn update-keys [m f] - (reduce-kv (fn [acc k v] (assoc acc (f k) v)) (hash-map) m)) - -(defn update-vals [m f] - (reduce-kv (fn [acc k v] (assoc acc k (f v))) (hash-map) m)) - -;; Vector-returning partition variants (1.11): lazy seqs OF vectors. -(defn partitionv - ([n coll] (map vec (partition n coll))) - ([n step coll] (map vec (partition n step coll))) - ([n step pad coll] (map vec (partition n step pad coll)))) - -;; partition-all is a lazy-tier fn (40-lazy) — declared so partitionv-all -;; compiles; bound by the time anything calls it. -(declare partition-all) - -(defn partitionv-all - ([n coll] (map vec (partition-all n coll))) - ([n step coll] (map vec (partition-all n step coll)))) - -;; First part a vector, rest a seq — matching the reference implementation. -(defn splitv-at [n coll] - [(vec (take n coll)) (drop n coll)]) - -;; with-redefs-fn: temporarily set each var's root to the mapped value, run -;; the thunk, restore the saved roots even on throw. The with-redefs macro -;; (30-macros) builds the {var val} map from names. -(defn with-redefs-fn [binding-map func] - (let [vars (vec (keys binding-map)) - saved (mapv var-get vars)] - (doseq [v vars] (var-set v (get binding-map v))) - (try - (func) - (finally - ;; loop/recur, not dotimes: dotimes is a 30-macros macro and this tier - ;; compiles before it exists (a forward ref would resolve to the macro - ;; fn at runtime and mis-apply it). - (loop [i 0] - (when (< i (count vars)) - (var-set (nth vars i) (nth saved i)) - (recur (inc i)))))))) -;; Jolt has no chunked seqs, so this is always false. -(defn chunked-seq? [x] false) - -;; Atom peripheral operations. atom/swap!/reset!/deref stay native — the compiler -;; depends on them and they're hot. swap-vals!/reset-vals!/compare-and-set! compose -;; the native ops (which already validate and notify watches); get-validator reads a -;; slot; add-watch/remove-watch/set-validator! mutate the atom (or its watches -;; sub-table) through the one host primitive jolt.host/ref-put! — the minimal -;; mutation kernel the overlay can't express over core fns (a nil value removes the -;; key). compare-and-set! compares by value. -(defn swap-vals! [a f & args] - (let [old (deref a)] [old (apply swap! a f args)])) -(defn reset-vals! [a newval] - (let [old (deref a)] (reset! a newval) [old newval])) -(defn compare-and-set! [a oldval newval] - (if (= oldval (deref a)) (do (reset! a newval) true) false)) -(defn get-validator [a] (get a :validator)) -(defn add-watch [a key f] - (jolt.host/ref-put! (get a :watches) key f) a) -(defn remove-watch [a key] - (jolt.host/ref-put! (get a :watches) key nil) a) -(defn set-validator! [a f] - (jolt.host/ref-put! a :validator f) nil) - -;; vreset!/vswap! live in the seq tier (10-seq.clj): its transducers use them. - -;; Future status predicates — pure reads of the future's :cached/:cancelled slots. -;; future? stays native (deref/future-cancel/realized? call it); future-call and -;; future-cancel stay native too (OS threads). -(defn future-done? [x] - (if (future? x) (boolean (get x :cached)) (throw "future-done? requires a future"))) -(defn future-cancelled? [x] - (and (future? x) (boolean (get x :cancelled)))) - -;; ns-name: a namespace object's :name as a symbol. Pure over get + symbol. -(defn ns-name [ns] - (let [nm (get ns :name)] (if nm (symbol (str nm)) nil))) - -;; Java-array element access. Jolt arrays are mutable backing arrays; aget/alength -;; read them (nth/count) and aset writes a slot through ref-put!. Both handle the -;; multi-dimensional form (aget a i j ... / aset a i j ... v) by walking. The array -;; constructors (object-array/make-array/to-array/...) stay native — they build the -;; mutable backing. -(defn aget [arr & idxs] - (reduce (fn [v i] (nth v i)) arr idxs)) -(defn alength [arr] (count arr)) -(defn aset [arr & idxs+val] - (let [n (count idxs+val) - val (nth idxs+val (dec n)) - target (reduce (fn [t k] (nth t k)) arr (take (- n 2) idxs+val))] - (jolt.host/ref-put! target (nth idxs+val (- n 2)) val) - val)) - -;; --- fn combinators + host-free stubs ---------------------------------------- - -(defn complement - "Takes a fn f and returns a fn that takes the same arguments as f, has the - same effects, if any, and returns the opposite truth value." - [f] - (fn [& args] (not (apply f args)))) - -;; Canonical Clojure fnil: patches only the FIRST 1-3 arguments. -(defn fnil - ([f x] - (fn [a & args] (apply f (if (nil? a) x a) args))) - ([f x y] - (fn [a b & args] (apply f (if (nil? a) x a) (if (nil? b) y b) args))) - ([f x y z] - (fn [a b c & args] - (apply f (if (nil? a) x a) (if (nil? b) y b) (if (nil? c) z c) args)))) - -(defn clojure-version [] "1.11.0-jolt") - -;; bigdec is a host fn (host/chez/bigdec.ss) — a real BigDecimal value type. -(defn numerator [x] (throw (ex-info "numerator requires a ratio (Jolt has no ratios)" {}))) -(defn denominator [x] (throw (ex-info "denominator requires a ratio (Jolt has no ratios)" {}))) - -;; No class hierarchy on this host. -(defn supers [x] #{}) - -;; Like Clojure's munge: rewrite dashes to underscores, preserving the argument's -;; type — a symbol munges to a symbol, anything else to a string. (jolt only -;; rewrites dashes, not the full Compiler CHAR_MAP.) -(defn munge [s] - (let [m (str-replace-all "-" "_" (str s))] - (if (symbol? s) (symbol m) m))) - -(defn test - "Calls the :test fn from v's metadata; :ok if it runs, :no-test if absent." - [v] - (let [t (:test (meta v))] - (if t (do (t) :ok) :no-test))) - -;; --- canonical Clojure ports ------------------------------------------------- -;; key/val/find first — merge-with and memoize below use them. - -;; Strict, as in Clojure: an entry is what (seq m) yields (a host tuple), NOT -;; a plain vector — (key [1 2]) throws. -;; key/val moved above the hierarchies section (underive uses them). - -;; find was previously missing from jolt entirely. Presence (contains?), not -;; value, decides — so (find {:a nil} :a) is [:a nil]. Works on vectors by -;; index. The result must be a REAL entry (key/val are strict), so it is -;; minted as the first entry of a one-entry map — nil values survive (the -;; map builder switches to a phm when nil is involved). -(defn find [m k] - (when (contains? m k) (first {k (get m k)}))) - -;; some? lives in the top leaf block now (forward refs are errors). -(defn true? [x] (= true x)) -(defn false? [x] (= false x)) - -;; Presence-preserving: a key with a nil value is kept ((hash-map) base keeps -;; nil values and canonicalizes collection keys). -(defn select-keys [map keyseq] - (reduce (fn [m k] (if (contains? map k) (assoc m k (get map k)) m)) - (hash-map) keyseq)) - -(defn zipmap [keys vals] - (loop [m (hash-map) ks (seq keys) vs (seq vals)] - (if (and ks vs) - (recur (assoc m (first ks) (first vs)) (next ks) (next vs)) - m))) - -;; conj semantics per entry arg (a map merges, a [k v] pair adds); nil args are -;; no-ops; all-nil (or no args) is nil. -(defn merge [& maps] - (when (some identity maps) - (reduce (fn [acc m] (if (nil? m) acc (conj (or acc (hash-map)) m))) - maps))) - -(defn merge-with [f & maps] - (when (some identity maps) - (let [merge-entry (fn [m e] - (let [k (key e) v (val e)] - ;; presence — not nil-of-value — decides combination - (if (contains? m k) - (assoc m k (f (get m k) v)) - (assoc m k v)))) - merge2 (fn [m1 m2] - (reduce merge-entry (or m1 (hash-map)) (seq m2)))] - (reduce merge2 maps)))) - -(defn get-in - ([m ks] (reduce get m ks)) - ([m ks not-found] - ;; a fresh table is its own identity — a present-but-nil step is - ;; distinguished from a missing one - (let [sentinel (hash-map)] - (loop [m m ks (seq ks)] - (if ks - (let [nxt (get m (first ks) sentinel)] - (if (identical? sentinel nxt) - not-found - (recur nxt (next ks)))) - m))))) - -;; find-based, so nil RESULTS are cached too; args canonicalize as a collection key. -(defn memoize [f] - (let [mem (atom (hash-map))] - (fn [& args] - ;; plain let/if, not if-let: this tier loads before 30-macros defines it - (let [e (find (deref mem) args)] - (if e - (val e) - (let [ret (apply f args)] - (swap! mem assoc args ret) - ret)))))) - -(defn partial - ([f] f) - ([f a] (fn [& args] (apply f a args))) - ([f a b] (fn [& args] (apply f a b args))) - ([f a b c] (fn [& args] (apply f a b c args))) - ([f a b c & more] (fn [& args] (apply f a b c (concat more args))))) - -(defn trampoline - ([f] (let [ret (f)] (if (fn? ret) (trampoline ret) ret))) - ([f & args] (trampoline (fn [] (apply f args))))) - -;; Canonical pairwise max/min: > / < throw on non-numbers, and the NaN -;; behavior is Clojure's by construction. -(defn max - ([x] x) - ([x y] (if (> x y) x y)) - ([x y & more] (reduce max (max x y) more))) - -(defn min - ([x] x) - ([x y] (if (< x y) x y)) - ([x y & more] (reduce min (min x y) more))) - -(defn reverse [coll] (reduce conj (list) coll)) - -;; An empty coll of the same category; sorted colls keep their comparator (the -;; value's own :empty op). Strings and scalars are nil, as in Clojure; a lazy -;; seq empties to (). -(defn empty [coll] - (cond - (nil? coll) nil - (sorted? coll) ((get (jolt.host/ref-get coll :ops) :empty) coll) - (map? coll) {} - (set? coll) #{} - (vector? coll) [] - (coll? coll) () - :else nil)) - -(defn assoc-in [m [k & ks] v] - (if ks - (assoc m k (assoc-in (get m k) ks v)) - (assoc m k v))) - -(defn update-in [m ks f & args] - (let [up (fn up [m ks f args] - (let [[k & ks] ks] - (if ks - (assoc m k (up (get m k) ks f args)) - (assoc m k (apply f (get m k) args)))))] - (up m ks f args))) - -;; jolt keywords have no intern table (any keyword "exists"), so find-keyword -;; always finds — babashka makes the same call. -(defn find-keyword - ([nm] (keyword nm)) - ([ns nm] (keyword ns nm))) - -;; The raw Inst protocol method; jolt insts have one representation, so it is -;; inst-ms itself. -(defn inst-ms* [i] (inst-ms i)) - -;; Canonical comp — here rather than a host primitive so each stage is invoked with -;; jolt call semantics: (comp seq :content) works because the keyword stage -;; goes through IFn dispatch. -(defn comp - ([] identity) - ([f] f) - ([f g] - ;; fixed arities first (Clojure's own shape): the 1-arg path — every - ;; map/filter stage — is two direct calls, no rest-seq, no apply. - (fn - ([] (f (g))) - ([x] (f (g x))) - ([x y] (f (g x y))) - ([x y z] (f (g x y z))) - ([x y z & args] (f (apply g x y z args))))) - ([f g & fs] (reduce comp (comp f g) fs))) - -;; Canonical IFn set: fns, keywords, symbols, maps (sorted incl.), -;; sets, vectors, and vars — NOT lists ((ifn? '(1 2)) is false in Clojure). -(defn ifn? [x] - (or (fn? x) (keyword? x) (symbol? x) (map? x) (set? x) (vector? x) (var? x))) - -;; Auto-promoting (') and unchecked arithmetic. Jolt numbers don't overflow, -;; so all of these are the checked ops; fixed arities mirror Clojure's -;; signatures. unchecked-divide-int goes through quot, so dividing by zero -;; throws as on the JVM. -(def +' +) -(def -' -) -(def *' *) -(def inc' inc) -(def dec' dec) -(defn unchecked-add [x y] (+ x y)) -(defn unchecked-subtract [x y] (- x y)) -(defn unchecked-multiply [x y] (* x y)) -(defn unchecked-negate [x] (- x)) -(defn unchecked-inc [x] (+ x 1)) -(defn unchecked-dec [x] (- x 1)) -(def unchecked-add-int unchecked-add) -(def unchecked-subtract-int unchecked-subtract) -(def unchecked-multiply-int unchecked-multiply) -(def unchecked-negate-int unchecked-negate) -(def unchecked-inc-int unchecked-inc) -(def unchecked-dec-int unchecked-dec) -(defn unchecked-divide-int [x y] (quot x y)) -(defn unchecked-remainder-int [x y] (rem x y)) -(defn unchecked-int [x] (int x)) -(def unchecked-long unchecked-int) - -;; int? is integer? on jolt: one number type, so fixed-precision and -;; arbitrary-precision integers coincide. -(defn int? [x] (integer? x)) - -;; num: Clojure coerces to java.lang.Number; jolt just checks. -(defn num [x] - (if (number? x) x (throw (str "num requires a number, got: " x)))) - -;; == numeric equality: 1-arity is trivially true without inspecting the value -;; (Clojure's shape); 2+ args must be numbers, as Numbers.equiv throws. -(defn == - ([x] true) - ([x y] - (if (and (number? x) (number? y)) - (= x y) - (throw (str "Cannot cast to number: " (if (number? x) y x))))) - ([x y & more] - (if (== x y) - (apply == y more) - false))) - -;; ensure-reduced / halt-when: canonical Clojure. halt-when smuggles the halt -;; value through reduce in a ::halt-keyed map and unwraps it in the completion -;; arity, so the halt REPLACES the whole reduction result. -(defn ensure-reduced [x] (if (reduced? x) x (reduced x))) - -(defn halt-when - ([pred] (halt-when pred nil)) - ([pred retf] - (fn [rf] - (fn - ([] (rf)) - ([result] - (if (and (map? result) (contains? result ::halt)) - (get result ::halt) - (rf result))) - ([result input] - (if (pred input) - (reduced (hash-map ::halt (if retf (retf (rf result) input) input))) - (rf result input))))))) - -;; parse-boolean: exact "true"/"false" only; nil on anything else, throw on a -;; non-string (Clojure 1.11). -(defn parse-boolean [s] - (if (string? s) - (cond (= s "true") true (= s "false") false :else nil) - (throw (str "parse-boolean requires a string, got: " s)))) - -(defn newline [] (print "\n") nil) - -;; seque: jolt is single-threaded eager here — the queue is a no-op and the -;; coll passes through. -(defn seque - ([s] s) - ([n-or-q s] s)) - -(defn array-seq [arr & _] (seq arr)) - -(defn to-array-2d [coll] (to-array (map to-array coll))) - -;; Masking integer coercions (not aliases): byte/short wrap to their width. -;; unchecked-byte/short truncate to a number; unchecked-char returns a char (as on -;; the JVM). int handles chars, so (unchecked-byte \a) works. -(defn unchecked-byte [x] (bit-and (int x) 0xff)) -(defn unchecked-short [x] (bit-and (int x) 0xffff)) -(defn unchecked-char [x] (char (bit-and (int x) 0xffff))) -(defn unchecked-float [x] (double x)) -(defn unchecked-double [x] (double x)) - -;; --- transduce / into / eduction --------------------------------------------- -;; Canonical transduce: build the stacked rf once, reduce (which honors -;; `reduced` and steps lazy seqs incrementally), then run the completion arity. -(defn transduce - ([xform f coll] (transduce xform f (f) coll)) - ([xform f init coll] - (let [xf (xform f)] - (xf (reduce xf init coll))))) - -;; into stays a host primitive: it's perf-wall hot (the into-vec bench pays ~11% -;; through the overlay call layers — same lesson as even?/odd?). - -;; eduction is EAGER on jolt (documented divergence): the composed -;; xforms applied to coll, realized into a vector. -(defn eduction [& args] - (let [coll (last args) - xforms (butlast args)] - (if xforms - (into [] (apply comp xforms) coll) - (into [] coll)))) - -(defn ->Eduction [xform coll] (into [] xform coll)) - -;; --- JVM-shape stubs and trivial shells -------------------------------------- -;; Pure compositions or documented jolt stubs; the host keeps nothing. -(defn enumeration-seq [e] (seq e)) -(defn iterator-seq [i] (seq i)) - -;; jolt is single-threaded: a promise is an atom, deref never blocks -;; ((deref undelivered) is nil rather than a hang). -(defn promise [] (atom nil)) -(defn deliver [p v] (reset! p v) p) - -(defn bean [x] (if (map? x) x {})) - -(defn uri? [x] false) - -;; An EVALUATED set of quoted symbols — a quoted set literal ('#{if ...}) -;; stays an unevaluated reader form on jolt and contains? can't see into it. -(def ^:private special-syms - #{'if 'do 'let* 'fn* 'quote 'var 'def 'loop* 'recur 'throw 'try 'catch - 'finally 'new 'set! '. 'monitor-enter 'monitor-exit}) - -(defn special-symbol? [s] (contains? special-syms s)) - -;; print-method / print-dup are real multimethods in the io tier (50-io.clj). - -;; JVM proxies don't exist on this host: the read-only surface is inert, -;; the constructive surface throws. -(defn proxy-mappings [p] {}) -(defn proxy-call-with-super [f p meth] (f)) -(defn init-proxy [p mappings] p) -(defn update-proxy [p mappings] p) -(defn proxy-super [& args] (throw "proxy-super: JVM proxies are not supported in Jolt")) -(defn construct-proxy [c & args] (throw "construct-proxy: not supported in Jolt")) -(defn get-proxy-class [& interfaces] (throw "get-proxy-class: not supported in Jolt")) diff --git a/jolt-core/clojure/core/21-coll.clj b/jolt-core/clojure/core/21-coll.clj new file mode 100644 index 0000000..f4af5af --- /dev/null +++ b/jolt-core/clojure/core/21-coll.clj @@ -0,0 +1,362 @@ +;; clojure.core — collection tier, part 2 (rand/sort host seams, the +;; clojure.test runner, fn combinators). Continues 20-coll.clj; same constraints +;; (pure, eager, no macros), loaded in the 20 slot before 25-sorted. + +;; --- leaves over the rand / sort host seams ---------------------------------- + +;; Canonical truncation toward zero via int (the kernel fn floored, which is +;; wrong for a negative n). +(defn rand-int [n] (int (rand n))) + +;; Pure-functional Fisher-Yates over vector assoc; returns a vector, as in +;; Clojure. Collections only — a string is seqable but not shuffleable, as on +;; the JVM (Collections/shuffle wants a Collection). +(defn shuffle [coll] + (when-not (coll? coll) + (throw (ex-info (str "shuffle requires a collection, got: " coll) {}))) + (loop [v (vec coll) i (dec (count v))] + (if (pos? i) + (let [j (rand-int (inc i)) + t (nth v i)] + (recur (assoc (assoc v i (nth v j)) j t) (dec i))) + v))) + +;; Canonical sort-by: the default comparator is compare (so nil sorts first, +;; like Clojure — the kernel fn used host ordering, which put nil last); the +;; comparator compares KEYS and may be 3-way or a boolean predicate (the host +;; sort seam normalizes). +(defn sort-by + ([keyfn coll] (sort-by keyfn compare coll)) + ([keyfn comp coll] + (sort (fn [x y] (comp (keyfn x) (keyfn y))) coll))) + +;; parse-uuid: nil unless s is a canonical 8-4-4-4-12 hex UUID string; throws +;; on a non-string (Clojure 1.11). __make-uuid is the host constructor for the +;; tagged value (overlay source can't write :jolt/type map literals — the +;; reader treats them as tagged forms). +(defn parse-uuid [s] + (if (string? s) + (when (re-matches + #"[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}" s) + (__make-uuid s)) + (throw (str "parse-uuid requires a string, got: " s)))) + +;; Version-4 UUID (RFC 4122): zero-padded hex groups 8-4-4-4-12, version +;; nibble 4, variant 8-b — built over rand-int and validated by parse-uuid. +(defn random-uuid [] + (let [hx4 (fn [] (format "%04x" (rand-int 0x10000))) + hx3 (fn [] (format "%03x" (rand-int 0x1000)))] + (parse-uuid (str (hx4) (hx4) "-" (hx4) "-4" (hx3) + "-" (format "%x" (+ 8 (rand-int 4))) (hx3) + "-" (hx4) (hx4) (hx4))))) + +;; The char escape/name tables, as char-keyed maps (Clojure's shape). +(def ^:private char-escape-strings + {\newline "\\n" \tab "\\t" \return "\\r" \formfeed "\\f" + \backspace "\\b" \" "\\\"" \\ "\\\\"}) +(defn char-escape-string [c] (get char-escape-strings c)) + +(def ^:private char-name-strings + {\newline "newline" \tab "tab" \return "return" \formfeed "formfeed" + \backspace "backspace" \space "space"}) +(defn char-name-string [c] (get char-name-strings c)) + +;; Random selection over the host rand primitives. +(defn rand-nth [coll] + (let [v (vec coll)] (nth v (rand-int (count v))))) + +(defn random-sample + ([prob] (filter (fn [_] (< (rand) prob)))) + ([prob coll] (filter (fn [_] (< (rand) prob)) coll))) + +(defn comparator [pred] + (fn [a b] (cond (pred a b) -1 (pred b a) 1 :else 0))) + +;; Lazy: the running accumulators, one at a time (matches Clojure). +(defn reductions + ([f coll] + (lazy-seq + (let [s (seq coll)] + (if s + (reductions f (first s) (rest s)) + (list (f)))))) + ([f init coll] + (cons init + (lazy-seq + (when-let [s (seq coll)] + (reductions f (f init (first s)) (rest s))))))) + +;; Lazy pre-order DFS (matches Clojure): node, then its children's walks spliced +;; via the (now lazy) mapcat. +(defn tree-seq [branch? children root] + (let [walk (fn walk [node] + (lazy-seq + (cons node + (when (branch? node) + (mapcat walk (children node))))))] + (walk root))) + +;; file-seq: the tree of paths under root (root included), directories walked +;; via the host dir primitives. Paths (strings), not File objects. (Lives below +;; tree-seq: forward references are analysis errors.) +(defn file-seq [root] + (if (__file? root) + ;; java.io.File tree: walk via the File method surface so leaves are File + ;; values callers can invoke .isFile/.getName/slurp on. + (tree-seq (fn [f] (.isDirectory f)) (fn [f] (seq (.listFiles f))) root) + (tree-seq __dir? __list-dir root))) + +;; Canonical flatten via tree-seq: the leaves (non-sequential nodes) in order. +;; Flattens lists too (sequential?), matching Clojure/CLJS. +(defn flatten [coll] + (filter (complement sequential?) (rest (tree-seq sequential? seq coll)))) + +;; xml-seq: tree-seq over XML element trees. Elements are maps with :content. +(defn xml-seq [root] + (tree-seq (complement string?) (comp seq :content) root)) + +;; Lazy interleave: round-robin one element from each coll until any exhausts. +(defn interleave + ([] ()) + ([c1] (lazy-seq c1)) + ([c1 c2] + (lazy-seq + (let [s1 (seq c1) s2 (seq c2)] + (when (and s1 s2) + (cons (first s1) + (cons (first s2) + (interleave (rest s1) (rest s2)))))))) + ([c1 c2 & cs] + (lazy-seq + (let [ss (map seq (list* c1 c2 cs))] + (when (every? identity ss) + (concat (map first ss) + (apply interleave (map rest ss)))))))) + +;; No ratio type on Jolt, so rationalize is identity. +(defn rationalize [x] x) + +;; 0-arg: a stateful transducer (tracks [seen? prev] in a volatile, so no sentinel +;; value is needed). 1-arg: eager dedupe of consecutive equal elements. +(defn dedupe + ([] + (fn [rf] + (let [pv (volatile! [false nil])] + (fn + ([] (rf)) + ([result] (rf result)) + ([result input] + (let [[seen prior] @pv] + (vreset! pv [true input]) + (if (and seen (= prior input)) result (rf result input)))))))) + ([coll] + (let [step (fn step [s prev] + (make-lazy-seq + (fn* [] + (let [s (seq s)] + (if s + (let [x (first s)] + (if (= x prev) + (coll->cells (step (rest s) prev)) + (coll->cells (cons x (step (rest s) x))))) + nil)))))] + (let [s (seq coll)] + (if s + (make-lazy-seq + (fn* [] (coll->cells (cons (first s) (step (rest s) (first s)))))) + ()))))) + +;; Internal helper for {:keys [...]} destructuring over a seq of k/v pairs — +;; canonical Clojure 1.11 shape (core.clj seq-to-map-for-destructuring): +;; even pairs build a map (later keys win, as createAsIfByAssoc), a SINGLE +;; element is returned as-is (the trailing-map calling convention), and an +;; unpaired key past pairs throws. +(defn seq-to-map-for-destructuring [s] + (if (next s) + (loop [m {} xs (seq s)] + (if xs + (if (next xs) + (recur (assoc m (first xs) (second xs)) (nnext xs)) + (throw (str "No value supplied for key: " (first xs)))) + m)) + (if (seq s) (first s) {}))) + +;; Host-coupled fns that are pure logic over existing core primitives, so they +;; need no new jolt.host surface. + +;; vary-meta: f applied to obj's metadata (+ extra args), reattached. meta and +;; with-meta are the irreducible host primitives; vary-meta is just their compose. +(defn vary-meta [obj f & args] + (with-meta obj (apply f (meta obj) args))) + +;; namespace-munge: Clojure namespace name -> legal Java package name (- -> _). +(defn namespace-munge [s] + (apply str (map (fn [c] (if (= c \-) \_ c)) (seq (str s))))) + +;; reduce-kv over a map (k v) or vector (index v). Both branches go through reduce, +;; so reduced short-circuits — and the vector path indexes correctly. nil folds +;; to init, matching Clojure. +(defn reduce-kv [f init coll] + (cond + (vector? coll) (reduce (fn [acc i] (f acc i (nth coll i))) init (range (count coll))) + (map? coll) (reduce (fn [acc k] (f acc k (get coll k))) init (keys coll)) + (nil? coll) init + :else (throw (str "reduce-kv not supported on: " coll)))) + +;; ex-info accessors. The constructor (ex-info) stays native — it builds the tagged +;; value and wires into throw — but the value exposes :jolt/type/:message/:data/ +;; :cause via get, so the accessors are pure over get. A thrown non-ex-info arrives +;; wrapped as {:jolt/type :jolt/exception :value v}; unwrap that first. +(defn- ex-info-val? [x] (= (get x :jolt/type) :jolt/ex-info)) +(defn- ex-unwrap [e] + (if (= (get e :jolt/type) :jolt/exception) (get e :value) e)) +(defn ex-data [e] + (let [e (ex-unwrap e)] (if (ex-info-val? e) (get e :data) nil))) +(defn ex-message [e] + (let [e (ex-unwrap e)] + (cond (ex-info-val? e) (get e :message) + :else nil))) +(defn ex-cause [e] + (let [e (ex-unwrap e)] (if (ex-info-val? e) (get e :cause) nil))) + +;; inst-ms: epoch milliseconds of an instant; throws on a non-inst (Clojure +;; protocol behavior). +(defn inst-ms [x] + (if (inst? x) (get x :ms) (throw (str "inst-ms requires an inst, got: " x)))) + +;; Clojure 1.11 map transformers. PHM base so transformed keys canonicalize +;; (collisions: last entry in seq order wins, matching the reference). +(defn update-keys [m f] + (reduce-kv (fn [acc k v] (assoc acc (f k) v)) (hash-map) m)) + +(defn update-vals [m f] + (reduce-kv (fn [acc k v] (assoc acc k (f v))) (hash-map) m)) + +;; Vector-returning partition variants (1.11): lazy seqs OF vectors. +(defn partitionv + ([n coll] (map vec (partition n coll))) + ([n step coll] (map vec (partition n step coll))) + ([n step pad coll] (map vec (partition n step pad coll)))) + +;; partition-all is a lazy-tier fn (40-lazy) — declared so partitionv-all +;; compiles; bound by the time anything calls it. +(declare partition-all) + +(defn partitionv-all + ([n coll] (map vec (partition-all n coll))) + ([n step coll] (map vec (partition-all n step coll)))) + +;; First part a vector, rest a seq — matching the reference implementation. +(defn splitv-at [n coll] + [(vec (take n coll)) (drop n coll)]) + +;; with-redefs-fn: temporarily set each var's root to the mapped value, run +;; the thunk, restore the saved roots even on throw. The with-redefs macro +;; (30-macros) builds the {var val} map from names. +(defn with-redefs-fn [binding-map func] + (let [vars (vec (keys binding-map)) + saved (mapv var-get vars)] + (doseq [v vars] (var-set v (get binding-map v))) + (try + (func) + (finally + ;; loop/recur, not dotimes: dotimes is a 30-macros macro and this tier + ;; compiles before it exists (a forward ref would resolve to the macro + ;; fn at runtime and mis-apply it). + (loop [i 0] + (when (< i (count vars)) + (var-set (nth vars i) (nth saved i)) + (recur (inc i)))))))) +;; Jolt has no chunked seqs, so this is always false. +(defn chunked-seq? [x] false) + +;; Atom peripheral operations. atom/swap!/reset!/deref stay native — the compiler +;; depends on them and they're hot. swap-vals!/reset-vals!/compare-and-set! compose +;; the native ops (which already validate and notify watches); get-validator reads a +;; slot; add-watch/remove-watch/set-validator! mutate the atom (or its watches +;; sub-table) through the one host primitive jolt.host/ref-put! — the minimal +;; mutation kernel the overlay can't express over core fns (a nil value removes the +;; key). compare-and-set! compares by value. +(defn swap-vals! [a f & args] + (let [old (deref a)] [old (apply swap! a f args)])) +(defn reset-vals! [a newval] + (let [old (deref a)] (reset! a newval) [old newval])) +(defn compare-and-set! [a oldval newval] + (if (= oldval (deref a)) (do (reset! a newval) true) false)) +(defn get-validator [a] (get a :validator)) +(defn add-watch [a key f] + (jolt.host/ref-put! (get a :watches) key f) a) +(defn remove-watch [a key] + (jolt.host/ref-put! (get a :watches) key nil) a) +(defn set-validator! [a f] + (jolt.host/ref-put! a :validator f) nil) + +;; vreset!/vswap! live in the seq tier (10-seq.clj): its transducers use them. + +;; Future status predicates — pure reads of the future's :cached/:cancelled slots. +;; future? stays native (deref/future-cancel/realized? call it); future-call and +;; future-cancel stay native too (OS threads). +(defn future-done? [x] + (if (future? x) (boolean (get x :cached)) (throw "future-done? requires a future"))) +(defn future-cancelled? [x] + (and (future? x) (boolean (get x :cancelled)))) + +;; ns-name: a namespace object's :name as a symbol. Pure over get + symbol. +(defn ns-name [ns] + (let [nm (get ns :name)] (if nm (symbol (str nm)) nil))) + +;; Java-array element access. Jolt arrays are mutable backing arrays; aget/alength +;; read them (nth/count) and aset writes a slot through ref-put!. Both handle the +;; multi-dimensional form (aget a i j ... / aset a i j ... v) by walking. The array +;; constructors (object-array/make-array/to-array/...) stay native — they build the +;; mutable backing. +(defn aget [arr & idxs] + (reduce (fn [v i] (nth v i)) arr idxs)) +(defn alength [arr] (count arr)) +(defn aset [arr & idxs+val] + (let [n (count idxs+val) + val (nth idxs+val (dec n)) + target (reduce (fn [t k] (nth t k)) arr (take (- n 2) idxs+val))] + (jolt.host/ref-put! target (nth idxs+val (- n 2)) val) + val)) + +;; --- fn combinators + host-free stubs ---------------------------------------- + +(defn complement + "Takes a fn f and returns a fn that takes the same arguments as f, has the + same effects, if any, and returns the opposite truth value." + [f] + (fn [& args] (not (apply f args)))) + +;; Canonical Clojure fnil: patches only the FIRST 1-3 arguments. +(defn fnil + ([f x] + (fn [a & args] (apply f (if (nil? a) x a) args))) + ([f x y] + (fn [a b & args] (apply f (if (nil? a) x a) (if (nil? b) y b) args))) + ([f x y z] + (fn [a b c & args] + (apply f (if (nil? a) x a) (if (nil? b) y b) (if (nil? c) z c) args)))) + +(defn clojure-version [] "1.11.0-jolt") + +;; bigdec is a host fn (host/chez/bigdec.ss) — a real BigDecimal value type. +(defn numerator [x] (throw (ex-info "numerator requires a ratio (Jolt has no ratios)" {}))) +(defn denominator [x] (throw (ex-info "denominator requires a ratio (Jolt has no ratios)" {}))) + +;; No class hierarchy on this host. +(defn supers [x] #{}) + +;; Like Clojure's munge: rewrite dashes to underscores, preserving the argument's +;; type — a symbol munges to a symbol, anything else to a string. (jolt only +;; rewrites dashes, not the full Compiler CHAR_MAP.) +(defn munge [s] + (let [m (str-replace-all "-" "_" (str s))] + (if (symbol? s) (symbol m) m))) + +(defn test + "Calls the :test fn from v's metadata; :ok if it runs, :no-test if absent." + [v] + (let [t (:test (meta v))] + (if t (do (t) :ok) :no-test))) + diff --git a/jolt-core/clojure/core/22-coll.clj b/jolt-core/clojure/core/22-coll.clj new file mode 100644 index 0000000..b8d0c64 --- /dev/null +++ b/jolt-core/clojure/core/22-coll.clj @@ -0,0 +1,314 @@ +;; clojure.core — collection tier, part 3 (canonical Clojure ports: key/val/find, +;; merge-with, memoize, group-by, frequencies, transduce/into/eduction, and the +;; JVM-shape stubs). Continues 21-coll.clj; same constraints. + +;; --- canonical Clojure ports ------------------------------------------------- +;; key/val/find first — merge-with and memoize below use them. + +;; Strict, as in Clojure: an entry is what (seq m) yields (a host tuple), NOT +;; a plain vector — (key [1 2]) throws. +;; key/val moved above the hierarchies section (underive uses them). + +;; find was previously missing from jolt entirely. Presence (contains?), not +;; value, decides — so (find {:a nil} :a) is [:a nil]. Works on vectors by +;; index. The result must be a REAL entry (key/val are strict), so it is +;; minted as the first entry of a one-entry map — nil values survive (the +;; map builder switches to a phm when nil is involved). +(defn find [m k] + (when (contains? m k) (first {k (get m k)}))) + +;; some? lives in the top leaf block now (forward refs are errors). +(defn true? [x] (= true x)) +(defn false? [x] (= false x)) + +;; Presence-preserving: a key with a nil value is kept ((hash-map) base keeps +;; nil values and canonicalizes collection keys). +(defn select-keys [map keyseq] + (reduce (fn [m k] (if (contains? map k) (assoc m k (get map k)) m)) + (hash-map) keyseq)) + +(defn zipmap [keys vals] + (loop [m (hash-map) ks (seq keys) vs (seq vals)] + (if (and ks vs) + (recur (assoc m (first ks) (first vs)) (next ks) (next vs)) + m))) + +;; conj semantics per entry arg (a map merges, a [k v] pair adds); nil args are +;; no-ops; all-nil (or no args) is nil. +(defn merge [& maps] + (when (some identity maps) + (reduce (fn [acc m] (if (nil? m) acc (conj (or acc (hash-map)) m))) + maps))) + +(defn merge-with [f & maps] + (when (some identity maps) + (let [merge-entry (fn [m e] + (let [k (key e) v (val e)] + ;; presence — not nil-of-value — decides combination + (if (contains? m k) + (assoc m k (f (get m k) v)) + (assoc m k v)))) + merge2 (fn [m1 m2] + (reduce merge-entry (or m1 (hash-map)) (seq m2)))] + (reduce merge2 maps)))) + +(defn get-in + ([m ks] (reduce get m ks)) + ([m ks not-found] + ;; a fresh table is its own identity — a present-but-nil step is + ;; distinguished from a missing one + (let [sentinel (hash-map)] + (loop [m m ks (seq ks)] + (if ks + (let [nxt (get m (first ks) sentinel)] + (if (identical? sentinel nxt) + not-found + (recur nxt (next ks)))) + m))))) + +;; find-based, so nil RESULTS are cached too; args canonicalize as a collection key. +(defn memoize [f] + (let [mem (atom (hash-map))] + (fn [& args] + ;; plain let/if, not if-let: this tier loads before 30-macros defines it + (let [e (find (deref mem) args)] + (if e + (val e) + (let [ret (apply f args)] + (swap! mem assoc args ret) + ret)))))) + +(defn partial + ([f] f) + ([f a] (fn [& args] (apply f a args))) + ([f a b] (fn [& args] (apply f a b args))) + ([f a b c] (fn [& args] (apply f a b c args))) + ([f a b c & more] (fn [& args] (apply f a b c (concat more args))))) + +(defn trampoline + ([f] (let [ret (f)] (if (fn? ret) (trampoline ret) ret))) + ([f & args] (trampoline (fn [] (apply f args))))) + +;; Canonical pairwise max/min: > / < throw on non-numbers, and the NaN +;; behavior is Clojure's by construction. +(defn max + ([x] x) + ([x y] (if (> x y) x y)) + ([x y & more] (reduce max (max x y) more))) + +(defn min + ([x] x) + ([x y] (if (< x y) x y)) + ([x y & more] (reduce min (min x y) more))) + +(defn reverse [coll] (reduce conj (list) coll)) + +;; An empty coll of the same category; sorted colls keep their comparator (the +;; value's own :empty op). Strings and scalars are nil, as in Clojure; a lazy +;; seq empties to (). +(defn empty [coll] + (cond + (nil? coll) nil + (sorted? coll) ((get (jolt.host/ref-get coll :ops) :empty) coll) + (map? coll) {} + (set? coll) #{} + (vector? coll) [] + (coll? coll) () + :else nil)) + +(defn assoc-in [m [k & ks] v] + (if ks + (assoc m k (assoc-in (get m k) ks v)) + (assoc m k v))) + +(defn update-in [m ks f & args] + (let [up (fn up [m ks f args] + (let [[k & ks] ks] + (if ks + (assoc m k (up (get m k) ks f args)) + (assoc m k (apply f (get m k) args)))))] + (up m ks f args))) + +;; jolt keywords have no intern table (any keyword "exists"), so find-keyword +;; always finds — babashka makes the same call. +(defn find-keyword + ([nm] (keyword nm)) + ([ns nm] (keyword ns nm))) + +;; The raw Inst protocol method; jolt insts have one representation, so it is +;; inst-ms itself. +(defn inst-ms* [i] (inst-ms i)) + +;; Canonical comp — here rather than a host primitive so each stage is invoked with +;; jolt call semantics: (comp seq :content) works because the keyword stage +;; goes through IFn dispatch. +(defn comp + ([] identity) + ([f] f) + ([f g] + ;; fixed arities first (Clojure's own shape): the 1-arg path — every + ;; map/filter stage — is two direct calls, no rest-seq, no apply. + (fn + ([] (f (g))) + ([x] (f (g x))) + ([x y] (f (g x y))) + ([x y z] (f (g x y z))) + ([x y z & args] (f (apply g x y z args))))) + ([f g & fs] (reduce comp (comp f g) fs))) + +;; Canonical IFn set: fns, keywords, symbols, maps (sorted incl.), +;; sets, vectors, and vars — NOT lists ((ifn? '(1 2)) is false in Clojure). +(defn ifn? [x] + (or (fn? x) (keyword? x) (symbol? x) (map? x) (set? x) (vector? x) (var? x))) + +;; Auto-promoting (') and unchecked arithmetic. Jolt numbers don't overflow, +;; so all of these are the checked ops; fixed arities mirror Clojure's +;; signatures. unchecked-divide-int goes through quot, so dividing by zero +;; throws as on the JVM. +(def +' +) +(def -' -) +(def *' *) +(def inc' inc) +(def dec' dec) +(defn unchecked-add [x y] (+ x y)) +(defn unchecked-subtract [x y] (- x y)) +(defn unchecked-multiply [x y] (* x y)) +(defn unchecked-negate [x] (- x)) +(defn unchecked-inc [x] (+ x 1)) +(defn unchecked-dec [x] (- x 1)) +(def unchecked-add-int unchecked-add) +(def unchecked-subtract-int unchecked-subtract) +(def unchecked-multiply-int unchecked-multiply) +(def unchecked-negate-int unchecked-negate) +(def unchecked-inc-int unchecked-inc) +(def unchecked-dec-int unchecked-dec) +(defn unchecked-divide-int [x y] (quot x y)) +(defn unchecked-remainder-int [x y] (rem x y)) +(defn unchecked-int [x] (int x)) +(def unchecked-long unchecked-int) + +;; int? is integer? on jolt: one number type, so fixed-precision and +;; arbitrary-precision integers coincide. +(defn int? [x] (integer? x)) + +;; num: Clojure coerces to java.lang.Number; jolt just checks. +(defn num [x] + (if (number? x) x (throw (str "num requires a number, got: " x)))) + +;; == numeric equality: 1-arity is trivially true without inspecting the value +;; (Clojure's shape); 2+ args must be numbers, as Numbers.equiv throws. +(defn == + ([x] true) + ([x y] + (if (and (number? x) (number? y)) + (= x y) + (throw (str "Cannot cast to number: " (if (number? x) y x))))) + ([x y & more] + (if (== x y) + (apply == y more) + false))) + +;; ensure-reduced / halt-when: canonical Clojure. halt-when smuggles the halt +;; value through reduce in a ::halt-keyed map and unwraps it in the completion +;; arity, so the halt REPLACES the whole reduction result. +(defn ensure-reduced [x] (if (reduced? x) x (reduced x))) + +(defn halt-when + ([pred] (halt-when pred nil)) + ([pred retf] + (fn [rf] + (fn + ([] (rf)) + ([result] + (if (and (map? result) (contains? result ::halt)) + (get result ::halt) + (rf result))) + ([result input] + (if (pred input) + (reduced (hash-map ::halt (if retf (retf (rf result) input) input))) + (rf result input))))))) + +;; parse-boolean: exact "true"/"false" only; nil on anything else, throw on a +;; non-string (Clojure 1.11). +(defn parse-boolean [s] + (if (string? s) + (cond (= s "true") true (= s "false") false :else nil) + (throw (str "parse-boolean requires a string, got: " s)))) + +(defn newline [] (print "\n") nil) + +;; seque: jolt is single-threaded eager here — the queue is a no-op and the +;; coll passes through. +(defn seque + ([s] s) + ([n-or-q s] s)) + +(defn array-seq [arr & _] (seq arr)) + +(defn to-array-2d [coll] (to-array (map to-array coll))) + +;; Masking integer coercions (not aliases): byte/short wrap to their width. +;; unchecked-byte/short truncate to a number; unchecked-char returns a char (as on +;; the JVM). int handles chars, so (unchecked-byte \a) works. +(defn unchecked-byte [x] (bit-and (int x) 0xff)) +(defn unchecked-short [x] (bit-and (int x) 0xffff)) +(defn unchecked-char [x] (char (bit-and (int x) 0xffff))) +(defn unchecked-float [x] (double x)) +(defn unchecked-double [x] (double x)) + +;; --- transduce / into / eduction --------------------------------------------- +;; Canonical transduce: build the stacked rf once, reduce (which honors +;; `reduced` and steps lazy seqs incrementally), then run the completion arity. +(defn transduce + ([xform f coll] (transduce xform f (f) coll)) + ([xform f init coll] + (let [xf (xform f)] + (xf (reduce xf init coll))))) + +;; into stays a host primitive: it's perf-wall hot (the into-vec bench pays ~11% +;; through the overlay call layers — same lesson as even?/odd?). + +;; eduction is EAGER on jolt (documented divergence): the composed +;; xforms applied to coll, realized into a vector. +(defn eduction [& args] + (let [coll (last args) + xforms (butlast args)] + (if xforms + (into [] (apply comp xforms) coll) + (into [] coll)))) + +(defn ->Eduction [xform coll] (into [] xform coll)) + +;; --- JVM-shape stubs and trivial shells -------------------------------------- +;; Pure compositions or documented jolt stubs; the host keeps nothing. +(defn enumeration-seq [e] (seq e)) +(defn iterator-seq [i] (seq i)) + +;; jolt is single-threaded: a promise is an atom, deref never blocks +;; ((deref undelivered) is nil rather than a hang). +(defn promise [] (atom nil)) +(defn deliver [p v] (reset! p v) p) + +(defn bean [x] (if (map? x) x {})) + +(defn uri? [x] false) + +;; An EVALUATED set of quoted symbols — a quoted set literal ('#{if ...}) +;; stays an unevaluated reader form on jolt and contains? can't see into it. +(def ^:private special-syms + #{'if 'do 'let* 'fn* 'quote 'var 'def 'loop* 'recur 'throw 'try 'catch + 'finally 'new 'set! '. 'monitor-enter 'monitor-exit}) + +(defn special-symbol? [s] (contains? special-syms s)) + +;; print-method / print-dup are real multimethods in the io tier (50-io.clj). + +;; JVM proxies don't exist on this host: the read-only surface is inert, +;; the constructive surface throws. +(defn proxy-mappings [p] {}) +(defn proxy-call-with-super [f p meth] (f)) +(defn init-proxy [p mappings] p) +(defn update-proxy [p mappings] p) +(defn proxy-super [& args] (throw "proxy-super: JVM proxies are not supported in Jolt")) +(defn construct-proxy [c & args] (throw "construct-proxy: not supported in Jolt")) +(defn get-proxy-class [& interfaces] (throw "get-proxy-class: not supported in Jolt")) diff --git a/jolt-core/clojure/core/40-lazy.clj b/jolt-core/clojure/core/40-lazy.clj index 5d62c22..3a2ef16 100644 --- a/jolt-core/clojure/core/40-lazy.clj +++ b/jolt-core/clojure/core/40-lazy.clj @@ -76,13 +76,11 @@ (mapi 0 coll)))) ;; --- cycle --- +;; Lazy, like the JVM: never counts coll, so it terminates on a lazy/infinite +;; argument instead of forcing it. (defn cycle [coll] - (if-let [vals (seq coll)] - (let [n (count vals)] - (letfn [(cstep [i] - (lazy-seq - (cons (nth vals (mod i n)) (cstep (inc i)))))] - (cstep 0))) + (if (seq coll) + (lazy-seq (concat coll (cycle coll))) ())) ;; --- repeatedly --- ((f) throws on a non-fn; (take n …) throws on a non-number diff --git a/jolt-core/jolt/analyzer.clj b/jolt-core/jolt/analyzer.clj index 9ed9f13..5dd2e38 100644 --- a/jolt-core/jolt/analyzer.clj +++ b/jolt-core/jolt/analyzer.clj @@ -32,6 +32,10 @@ (declare analyze) +;; Special forms analyze-special has a dispatch arm for — the subset of the host +;; contract's reserved words (jolt.host/form-special?) the analyzer lowers itself. +;; The two differ deliberately (e.g. interop heads like `new`/`.` are reserved but +;; analyzed in analyze-list), so keep them in sync by intent, not by equality. (def ^:private handled #{"quote" "if" "do" "def" "fn*" "let*" "loop*" "recur" "throw" "try" "syntax-quote" "var" "letfn" "set!" "defmacro"}) @@ -251,6 +255,65 @@ {:op :let :letrec true :bindings binds :body (analyze-seq ctx (drop 2 items) env*)})) +;; A `.-field` head: `(.-field target)` is field access (the dash signals field +;; access to the host-call dispatcher). Defined above analyze-special so its set! +;; arm and analyze-list both reach it without a forward reference. +(defn- field-head? [nm] + (and (> (count nm) 2) (= ".-" (subs nm 0 2)))) + +(defn- analyze-def [ctx items env] + (let [name-sym (nth items 1)] + ;; ^{:map} metadata reads as (def (with-meta name m) v): the metadata is a + ;; runtime expression, so the interpreter evaluates the whole def. + (when-not (form-sym? name-sym) + (uncompilable "def name with map metadata")) + (if (< (count items) 3) + ;; (def name) with no init (declare): intern + reserve the cell so a forward + ;; reference resolves; the back end keys on :no-init. + (let [nm (form-sym-name name-sym) cur (compile-ns ctx)] + (host-intern! ctx cur nm) + {:op :def :ns cur :name nm :no-init true}) + ;; (def name docstring value): docstring is form 2, value form 3 — matching + ;; the interpreter, else the docstring is taken as the value. + (let [nm (form-sym-name name-sym) + cur (compile-ns ctx) + has-doc (and (> (count items) 3) (string? (nth items 2))) + val-form (nth items (if has-doc 3 2)) + base0 (or (form-sym-meta name-sym) {}) + ;; resolve a ^Type hint to its canonical class name at def time, as the + ;; JVM compiler does (^String -> java.lang.String); unknown hints pass. + tag (get base0 :tag) + tag-name (cond (form-sym? tag) (form-sym-name tag) + (string? tag) tag + :else nil) + base-meta (if tag-name + (let [c (resolve-class-hint tag-name)] + (if c (assoc base0 :tag c) base0)) + base0) + node-meta (if has-doc (assoc base-meta :doc (nth items 2)) base-meta)] + (host-intern! ctx cur nm) + (def-node cur nm (analyze ctx val-form env) node-meta))))) + +;; (set! (.-field obj) v) mutates a deftype instance field in place; (set! *var* v) +;; sets the var's innermost thread binding, else its root. A local target (jolt +;; binds fields immutably) or any other shape is uncompilable. +(defn- analyze-set! [ctx items env] + (let [target (nth items 1) + val-node (analyze ctx (nth items 2) env) + ti (when (form-list? target) (vec (form-elements target))) + thead (when (and ti (pos? (count ti)) (form-sym? (first ti))) + (form-sym-name (first ti)))] + (cond + (and thead (field-head? thead)) + {:op :set-field :obj (analyze ctx (nth ti 1) env) + :field (subs thead 2) :val val-node} + (form-sym? target) + (do (when (local? env (form-sym-name target)) (uncompilable "set! of a local")) + (let [r (resolve-global ctx target)] + (when-not (= :var (:kind r)) (uncompilable "set! of a non-var")) + {:op :set-var :the-var (the-var (:ns r) (:name r)) :val val-node})) + :else (uncompilable "set! of an unsupported target")))) + (defn- analyze-special [ctx op items env] (case op "quote" (quote-node (second items)) @@ -265,42 +328,7 @@ (const nil)))) "do" (analyze-seq ctx (rest items) env) "throw" (throw-node (analyze ctx (nth items 1) env)) - "def" (let [name-sym (nth items 1)] - ;; ^{:map} metadata reads as (def (with-meta name m) v) — the - ;; metadata is a runtime expression, so the interpreter evaluates - ;; the whole def (it unwraps the name and merges the meta). - (when-not (form-sym? name-sym) - (uncompilable "def name with map metadata")) - (if (< (count items) 3) - ;; (def name) with no init (declare): intern + reserve the cell so a - ;; forward reference resolves. The back end keys on :no-init — Chez - ;; def-var!s an unbound placeholder; the interpreter interns a - ;; genuinely-unbound var. - (let [nm (form-sym-name name-sym) cur (compile-ns ctx)] - (host-intern! ctx cur nm) - {:op :def :ns cur :name nm :no-init true}) - (let [nm (form-sym-name name-sym) - cur (compile-ns ctx) - ;; (def name docstring value): docstring is form 2, value form 3. - ;; Matches the interpreter; otherwise the docstring is taken as - ;; the value and the real init dropped. - has-doc (and (> (count items) 3) (string? (nth items 2))) - val-form (nth items (if has-doc 3 2)) - base0 (or (form-sym-meta name-sym) {}) - ;; resolve a ^Type hint to its canonical class name at def - ;; time, as the JVM compiler does: ^String -> - ;; java.lang.String. A record/unknown hint is left untouched. - tag (get base0 :tag) - tag-name (cond (form-sym? tag) (form-sym-name tag) - (string? tag) tag - :else nil) - base-meta (if tag-name - (let [c (resolve-class-hint tag-name)] - (if c (assoc base0 :tag c) base0)) - base0) - node-meta (if has-doc (assoc base-meta :doc (nth items 2)) base-meta)] - (host-intern! ctx cur nm) - (def-node cur nm (analyze ctx val-form env) node-meta)))) + "def" (analyze-def ctx items env) "let*" (let [bvec (vec (form-vec-items (nth items 1))) r (analyze-bindings ctx bvec env)] (let-node (first r) (analyze-seq ctx (drop 2 items) (second r)))) @@ -345,24 +373,7 @@ (host-intern! ctx cur nm) {:op :defmacro :ns cur :name nm :fn (analyze ctx fn-form env)}) - "set!" (let [target (nth items 1) - val-node (analyze ctx (nth items 2) env) - ti (when (form-list? target) (vec (form-elements target))) - thead (when (and ti (pos? (count ti)) (form-sym? (first ti))) - (form-sym-name (first ti)))] - (cond - ;; (set! (.-field obj) v): mutate a deftype instance field in place. - ;; A deftype method's (set! mutable-field v) lowers to this shape. - (and thead (field-head? thead)) - {:op :set-field :obj (analyze ctx (nth ti 1) env) - :field (subs thead 2) :val val-node} - ;; (set! *var* v): set the var's innermost binding, else its root. - (form-sym? target) - (do (when (local? env (form-sym-name target)) (uncompilable "set! of a local")) - (let [r (resolve-global ctx target)] - (when-not (= :var (:kind r)) (uncompilable "set! of a non-var")) - {:op :set-var :the-var (the-var (:ns r) (:name r)) :val val-node})) - :else (uncompilable "set! of an unsupported target"))) + "set!" (analyze-set! ctx items env) (uncompilable (str "special form " op)))) ;; Host interop method call. `(.method target arg*)` — a head that @@ -433,11 +444,6 @@ (invoke (analyze ctx member env) [(analyze ctx (nth items 1) env)]) :else (uncompilable "special form . (non-symbol member)")))) -;; A `.-field` head: `(.-field target)` is field access. Lowers to a :host-call -;; with the "-field" method (the dash signals field access to the dispatcher). -(defn- field-head? [nm] - (and (> (count nm) 2) (= ".-" (subs nm 0 2)))) - (defn- analyze-field [ctx hname items env] (when (< (count items) 2) (throw (str "Malformed (.-field target) form"))) diff --git a/jolt-core/jolt/backend_scheme.clj b/jolt-core/jolt/backend_scheme.clj index 7f18010..d09e5f0 100644 --- a/jolt-core/jolt/backend_scheme.clj +++ b/jolt-core/jolt/backend_scheme.clj @@ -210,10 +210,12 @@ (str/join " " (mapcat (fn [p] [(emit-quoted (nth p 0)) (emit-quoted (nth p 1))]) pairs)) ")")) (defn- emit-quoted-map-value [m] - ;; a jolt map VALUE (def/symbol metadata is a value, not a reader form) - (str "(jolt-hash-map " - (str/join " " (mapcat (fn [k] [(emit-quoted k) (emit-quoted (get m k))]) (keys m))) - ")")) + ;; A jolt map VALUE (def/symbol metadata is a value, not a reader form). (keys m) + ;; iterates in host-hash order, which is not stable across Chez versions, so emit + ;; the pairs sorted by their emitted Scheme text — keeps the seed byte-fixed + ;; regardless of the host hash (jolt-8479). + (let [pairs (sort (map (fn [k] (str (emit-quoted k) " " (emit-quoted (get m k)))) (keys m)))] + (str "(jolt-hash-map " (str/join " " pairs) ")"))) ;; emit-quoted reconstructs both raw reader forms (from :quote) AND plain jolt ;; values (def/symbol :meta). Reader forms are walked via the jolt.host form-* ;; contract; the native-predicate branches below catch genuine jolt collection @@ -230,14 +232,16 @@ (str "(jolt-symbol/meta " (if sns (chez-str-lit sns) "#f") " " (chez-str-lit nm) " " (emit-quoted m) ")") (str "(jolt-symbol " (if sns (chez-str-lit sns) "#f") " " (chez-str-lit nm) ")"))) - (form-set? form) (str "(jolt-hash-set " (str/join " " (map emit-quoted (form-set-items form))) ")") + ;; sort items by emitted text: a set has no source order, and host-hash order + ;; is not stable across Chez versions (jolt-8479). + (form-set? form) (str "(jolt-hash-set " (str/join " " (sort (map emit-quoted (form-set-items form)))) ")") (form-list? form) (str "(jolt-list " (str/join " " (map emit-quoted (form-elements form))) ")") (form-vec? form) (str "(jolt-vector " (str/join " " (map emit-quoted (form-vec-items form))) ")") (form-map? form) (emit-quoted-map (form-map-pairs form)) ;; plain jolt VALUES (metadata maps and anything nested in them) (map? form) (emit-quoted-map-value form) (vector? form) (str "(jolt-vector " (str/join " " (map emit-quoted form)) ")") - (set? form) (str "(jolt-hash-set " (str/join " " (map emit-quoted form)) ")") + (set? form) (str "(jolt-hash-set " (str/join " " (sort (map emit-quoted form))) ")") (seq? form) (str "(jolt-list " (str/join " " (map emit-quoted form)) ")") :else (throw (ex-info (str "emit-quoted: unsupported quoted form " (pr-str form)) {})))) diff --git a/jolt-core/jolt/deps.clj b/jolt-core/jolt/deps.clj index 5d80de2..e3dd000 100644 --- a/jolt-core/jolt/deps.clj +++ b/jolt-core/jolt/deps.clj @@ -83,22 +83,26 @@ declarations from every dep's deps.edn. `base-dir` resolves :local/root and is replaced by a dep's own root as the walk descends." [deps base-dir] + ;; queue grows by appending children at the tail; an index cursor walks it so + ;; each dequeue is O(1) (was (subvec (vec queue) 1) per pop -> O(n^2)). (loop [queue (mapv (fn [[c s]] [c s base-dir]) (seq deps)) + i 0 seen #{} roots [] natives []] - (if (empty? queue) + (if (>= i (count queue)) {:roots (distinct roots) :natives natives} - (let [[coord spec bd] (first queue) - queue (subvec (vec queue) 1)] + (let [[coord spec bd] (nth queue i) + i (inc i)] (if (contains? seen coord) - (recur queue seen roots natives) + (recur queue i seen roots natives) (let [root (coord-root coord spec bd)] (if (nil? root) - (recur queue (conj seen coord) roots natives) + (recur queue i (conj seen coord) roots natives) (let [edn (read-edn (str root "/deps.edn")) child (mapv (fn [[c s]] [c s root]) (seq (:deps edn)))] (recur (into queue child) + i (conj seen coord) (into roots (dep-source-roots root)) (into natives (:jolt/native edn))))))))))) diff --git a/jolt-core/jolt/ir.clj b/jolt-core/jolt/ir.clj index 6079445..f7bf29b 100644 --- a/jolt-core/jolt/ir.clj +++ b/jolt-core/jolt/ir.clj @@ -20,9 +20,6 @@ ;; end emits the embedded var cell so `binding`'s thread-binding frame can key on it. (defn the-var [ns name] {:op :the-var :ns ns :name name}) -;; A runtime primitive (cons, +, get, apply, …) the back end maps to the host RT. -(defn rt [name] {:op :rt :name name}) - ;; A name that resolves only via the host's own environment (e.g. + or int?) — ;; the back end emits a host-appropriate reference. (defn host-ref [name] {:op :host :name name}) @@ -69,8 +66,6 @@ (defn quote-node [form] {:op :quote :form form}) (defn throw-node [expr] {:op :throw :expr expr}) -(defn op [node] (:op node)) - ;; --------------------------------------------------------------------------- ;; Structural recursion over IR child nodes. ;; @@ -127,5 +122,39 @@ n (if (get node :catch-body) (assoc n :catch-body (f (get node :catch-body))) n) n (if (get node :finally) (assoc n :finally (f (get node :finally))) n)] n) - ;; :const :local :var :host :host-static :the-var :rt :quote — no child nodes + ;; :const :local :var :host :host-static :the-var :quote — no child nodes :else node))) + +;; The read-only companion to map-ir-children: fold f over node's child IR nodes, +;; left to right, threading acc — same single-sourced child layout, so a read-only +;; analysis (size/closedness/purity) built on it is TOTAL over the op set (an +;; unknown op, or a leaf, folds over no children and returns acc unchanged). Skips +;; the same non-node positions map-ir-children does (binding NAMES, fn :params/ +;; :rest, :op/:ns/:name/:val). f is (acc child) -> acc. +(defn reduce-ir-children [f acc node] + (let [op (get node :op)] + (cond + (= op :if) (f (f (f acc (get node :test)) (get node :then)) (get node :else)) + (= op :do) (f (reduce f acc (get node :statements)) (get node :ret)) + (= op :throw) (f acc (get node :expr)) + (= op :set-var) (f acc (get node :val)) + (= op :set-field) (f (f acc (get node :obj)) (get node :val)) + (= op :defmacro) (f acc (get node :fn)) + (= op :invoke) (reduce f (f acc (get node :fn)) (get node :args)) + (= op :vector) (reduce f acc (get node :items)) + (= op :set) (reduce f acc (get node :items)) + (= op :map) (reduce (fn [a pr] (f (f a (nth pr 0)) (nth pr 1))) acc (get node :pairs)) + (= op :let) (f (reduce (fn [a b] (f a (nth b 1))) acc (get node :bindings)) (get node :body)) + (= op :loop) (f (reduce (fn [a b] (f a (nth b 1))) acc (get node :bindings)) (get node :body)) + (= op :recur) (reduce f acc (get node :args)) + (= op :fn) (reduce (fn [a ar] (f a (get ar :body))) acc (get node :arities)) + (= op :def) (if (get node :init) (f acc (get node :init)) acc) + (= op :host-call) (reduce f (f acc (get node :target)) (get node :args)) + (= op :host-new) (reduce f acc (get node :args)) + (= op :try) + (let [a (f acc (get node :body)) + a (if (get node :catch-body) (f a (get node :catch-body)) a) + a (if (get node :finally) (f a (get node :finally)) a)] + a) + ;; leaves and any op with no child nodes + :else acc))) diff --git a/jolt-core/jolt/passes.clj b/jolt-core/jolt/passes.clj index bdd05d7..562fa18 100644 --- a/jolt-core/jolt/passes.clj +++ b/jolt-core/jolt/passes.clj @@ -23,6 +23,10 @@ reset-escapes! collected-escapes set-check-mode! take-diags!]])) +;; Cap on inline -> flatten -> scalar-replace -> const-fold iterations. Each pass +;; sets `dirty` when it rewrote something; the loop stops at a clean pass or here. +(def ^:private inline-fixpoint-cap 8) + (defn run-passes "All passes, in order. The back end applies this to every analyzed form. When inlining is enabled for the unit (user code under direct-linking), @@ -41,7 +45,7 @@ opt (loop [i 0 n (const-fold node)] (reset! dirty false) (let [n2 (const-fold (scalar-replace (flatten-lets (inline-node n ctx))))] - (if (and @dirty (< i 8)) + (if (and @dirty (< i inline-fixpoint-cap)) (recur (inc i) n2) n2)))] ;; a final const-fold after inference propagates any predicate folded to a diff --git a/jolt-core/jolt/passes/fold.clj b/jolt-core/jolt/passes/fold.clj index e3030d0..7ae9523 100644 --- a/jolt-core/jolt/passes/fold.clj +++ b/jolt-core/jolt/passes/fold.clj @@ -46,7 +46,9 @@ folded (when (and ff (pos? (count args)) (every? const-num? args)) (try {:op :const :val (apply ff (mapv (fn [a] (get a :val)) args))} - (catch Exception e nil)))] + ;; :default (not Exception) — match the rest of jolt-core and + ;; also catch a raw host condition from a folding primitive. + (catch :default e nil)))] (or folded n)) (= op :if) diff --git a/jolt-core/jolt/passes/inline.clj b/jolt-core/jolt/passes/inline.clj index e41d65d..dbebc97 100644 --- a/jolt-core/jolt/passes/inline.clj +++ b/jolt-core/jolt/passes/inline.clj @@ -4,7 +4,7 @@ share the alpha-rename invariant (every spliced binder is made globally fresh) and the `dirty` fixpoint flag. Portable Clojure (compiler-tier)." (:require [jolt.host :refer [inline-ir]] - [jolt.ir :refer [map-ir-children]] + [jolt.ir :refer [map-ir-children reduce-ir-children]] [jolt.passes.fold :refer [scalar-const?]])) ;; --------------------------------------------------------------------------- @@ -54,27 +54,12 @@ (defn- body-size "Node count of an inline-eligible body. A disallowed op contributes a number larger than any budget, so the caller's (<= size budget) test fails and we - never try to inline (or alpha-rename) such a body." + never try to inline (or alpha-rename) such a body. Only reached for safe ops, + so the shared child fold covers it exactly (leaves fold to 1)." [node] - (let [op (get node :op)] - (cond - (not (safe-op? op)) 100000 - (= op :if) (+ 1 (body-size (get node :test)) - (body-size (get node :then)) - (body-size (get node :else))) - (= op :do) (+ 1 (reduce + 0 (mapv body-size (get node :statements))) - (body-size (get node :ret))) - (= op :throw) (+ 1 (body-size (get node :expr))) - (= op :invoke) (+ 1 (body-size (get node :fn)) - (reduce + 0 (mapv body-size (get node :args)))) - (= op :let) (+ 1 (reduce + 0 (mapv (fn [b] (body-size (nth b 1))) (get node :bindings))) - (body-size (get node :body))) - (= op :vector) (+ 1 (reduce + 0 (mapv body-size (get node :items)))) - (= op :set) (+ 1 (reduce + 0 (mapv body-size (get node :items)))) - (= op :map) (+ 1 (reduce + 0 (mapv (fn [pr] (+ (body-size (nth pr 0)) - (body-size (nth pr 1)))) - (get node :pairs)))) - :else 1))) + (if (not (safe-op? (get node :op))) + 100000 + (reduce-ir-children (fn [acc c] (+ acc (body-size c))) 1 node))) (defn- subst "Substitute locals in node per env (a map name -> replacement IR node), and @@ -129,24 +114,8 @@ (let [op (get node :op)] (cond (= op :local) (contains? scope (get node :name)) - (= op :const) true - (= op :var) true - (= op :host) true - (= op :the-var) true - (= op :quote) true - (= op :if) (and (body-closed? (get node :test) scope) - (body-closed? (get node :then) scope) - (body-closed? (get node :else) scope)) - (= op :do) (and (every? (fn [s] (body-closed? s scope)) (get node :statements)) - (body-closed? (get node :ret) scope)) - (= op :throw) (body-closed? (get node :expr) scope) - (= op :invoke) (and (body-closed? (get node :fn) scope) - (every? (fn [a] (body-closed? a scope)) (get node :args))) - (= op :vector) (every? (fn [x] (body-closed? x scope)) (get node :items)) - (= op :set) (every? (fn [x] (body-closed? x scope)) (get node :items)) - (= op :map) (every? (fn [pr] (and (body-closed? (nth pr 0) scope) - (body-closed? (nth pr 1) scope))) - (get node :pairs)) + ;; :let threads scope sequentially (each binding extends it), so it can't go + ;; through the uniform fold. (= op :let) (let [res (reduce (fn [acc b] (let [sc (nth acc 0) ok (nth acc 1)] @@ -156,6 +125,9 @@ [scope true] (get node :bindings))] (and (nth res 1) (body-closed? (get node :body) (nth res 0)))) + ;; leaves (:const/:var/:host/:the-var/:quote) fold to true; the rest AND + ;; their children. Unsafe ops never reach here (body-size rejects them). + (safe-op? op) (reduce-ir-children (fn [ok c] (and ok (body-closed? c scope))) true node) :else false))) (defn- try-inline @@ -267,20 +239,13 @@ [node] (let [op (get node :op)] (cond - (= op :const) true - (= op :local) true - (= op :var) true - (= op :host) true - (= op :the-var) true - (= op :quote) true - (= op :if) (and (pure? (get node :test)) (pure? (get node :then)) (pure? (get node :else))) - (= op :do) (and (every? pure? (get node :statements)) (pure? (get node :ret))) - (= op :let) (and (every? (fn [b] (pure? (nth b 1))) (get node :bindings)) (pure? (get node :body))) - (= op :vector) (every? pure? (get node :items)) - (= op :set) (every? pure? (get node :items)) - (= op :map) (every? (fn [pr] (and (pure? (nth pr 0)) (pure? (nth pr 1)))) (get node :pairs)) + ;; :invoke is pure only for a known-pure fn / record ctor, and only its ARGS + ;; are folded (not the :fn position) — so it can't go through the uniform fold. (= op :invoke) (and (or (pure-fn? (get node :fn)) (ctor-shape node)) (every? pure? (get node :args))) + ;; leaves (:const/:local/:var/:host/:the-var/:quote) fold to true; :if/:do/ + ;; :let/:vector/:set/:map AND their children's purity. + (safe-op? op) (reduce-ir-children (fn [ok c] (and ok (pure? c))) true node) :else false))) (defn- const-key-map? [node] @@ -340,7 +305,12 @@ "Does local nm escape in node — i.e. is it used anywhere other than as the subject of a constant-keyword lookup? Precise over straight-line expression ops; conservatively true for loop/fn/try/recur/def (and any rebinding of nm), - so scalar replacement only fires where the whole use region is simple." + so scalar replacement only fires where the whole use region is simple. + + Stays an explicit per-op walk (not the shared reduce-ir-children fold): its + default is conservatively TRUE, and the lookup-subject and rebinding cases + inspect node shape beyond child purity — folding an unhandled op over its + children would under-report escape and is unsound for scalar replacement." [node nm] (let [op (get node :op) k (lookup-key node nm)] diff --git a/jolt-core/jolt/passes/types.clj b/jolt-core/jolt/passes/types.clj index 5f3fc52..b29b06e 100644 --- a/jolt-core/jolt/passes/types.clj +++ b/jolt-core/jolt/passes/types.clj @@ -5,223 +5,78 @@ checker. Also the inter-procedural driver API the back end calls to propagate param types across a unit / the whole program. Weakly coupled to the IR-rewriting passes — shares only the const-shape predicate (jolt.passes.fold)." - (:require [jolt.passes.fold :refer [scalar-const?]])) + (:require [jolt.passes.fold :refer [scalar-const?]] + [jolt.passes.types.lattice :refer + [velem selem sfields vec-type? set-type? struct-type? mk-vec mk-set + mk-struct union-cap scalar-t? union-type? umembers union-of merge-fields + join-t join type-depth cap struct-safe? field-type shape-order type-shape + mark-struct truthy-type? num-ret-fns vector-ret-fns]])) -;; --------------------------------------------------------------------------- -;; Collection-type inference, intra-procedural. A forward, -;; soft-typing-style pass (simplified HM: monovariant, never-fails, lattice top -;; = :any) that types expressions from literals/arithmetic and flows the type -;; through let bindings and if-joins. Where a keyword-lookup subject is PROVEN a -;; plain struct map it sets :hint :struct (the same channel a manual hint uses, -;; so the back end drops the guard); where the type is :any it leaves the -;; dynamic guard in place. Sound by construction: a concrete type is assigned -;; only when proven, so a wrong bare get is impossible. +;; --- engine state ------------------------------------------------------------ +;; The walk threads an immutable `env` (mk-env) instead of reading scattered +;; module atoms: it carries the read-only config (rtenv/vtypes/record-shapes/ +;; protocol-methods/map-shapes?) plus the per-run flags (checking?/strict?) and +;; per-run accumulator/guard CELLS (diags/calls/checking-set/diag-memo). A fresh +;; env per run makes the pass re-entrant — a nested probe (isolated-diag-count) +;; runs under a sub-env with its own diags cell, no save/restore. ;; -;; Recursive STRUCTURAL types (RFC 0005). A type mirrors the data tree: -;; compound: {:struct {field -> T}} (raw-get-safe map, field types) -;; {:vec T} (vector of T) -;; {:set T} (set of T) -;; scalar: :num :str :kw :truthy (all provably non-nil/non-false) -;; :phm (persistent hash map; NOT raw-get-safe) -;; :any (top), nil (bottom, identity for join). -;; Compound types are small jolt maps, so they compare by value on both the -;; Clojure and the host (orchestrator) side. struct/vec/set use distinct keys so -;; a type is recognised by which key it carries. -;; (get t :KEY) is nil for a keyword type and the child for a compound, so a -;; compound is detected by some? — no map?/contains? needed. -(defn- velem [t] (get t :vec)) -(defn- selem [t] (get t :set)) -(defn- sfields [t] (get t :struct)) -(defn- vec-type? [t] (some? (velem t))) -(defn- set-type? [t] (some? (selem t))) -(defn- struct-type? [t] (some? (sfields t))) -(defn- mk-vec [t] {:vec (if t t :any)}) -(defn- mk-set [t] {:set (if t t :any)}) -(defn- mk-struct [fs] {:struct fs}) +;; Only state whose lifecycle spans separate API calls stays module-level: the +;; config the orchestrator installs (set-*! before a sweep), the escapes and +;; user-sig registries (collected/registered across the forms of a sweep), and a +;; bridge holding the last checking run's diagnostics for take-diags!. +(def ^:private config-box + (atom {:rtenv {} ;; "ns/name" -> inferred return type + :vtypes {} ;; "ns/name" -> var VALUE type (fn=:truthy, def=init type) + :record-shapes {} ;; "ns/->Name" -> {:fields :tags :type} + :protocol-methods {} ;; "ns/method" -> [proto method] + :map-shapes? false})) ;; shape generic const-key maps (opt-in, JOLT_SHAPE) +;; var-keys used as a VALUE (not a call head) — accumulated across a whole sweep, +;; reset by reset-escapes! and read by collected-escapes. +(def ^:private escapes-box (atom #{})) +;; User-function error domains, opt-in. As the checker walks defs it registers +;; each non-redefinable single-fixed-arity user fn's {:params :body} here, keyed +;; "ns/name"; a later call site (strict mode) re-checks the body with one param +;; bound to its concrete argument type. Accumulates ACROSS forms — a def must +;; precede its call (the closed-world ordering RFC 0005 assumes). +(def ^:private user-sig-box (atom {})) ;; "ns/name" -> {:params [..] :body ir} +;; Diagnostics from the last checking run-inference, for take-diags! to drain. +(def ^:private last-diags-box (atom [])) +;; Whether run-inference also checks, and strictly. Set by set-check-mode!. +(def ^:private check-mode-box (atom {:on false :strict false})) -;; Bounded union types (RFC 0006). A union {:union #{T...}} records -;; that a value is provably one of a small, fixed set of SCALAR types — what -;; differing if-branches used to collapse to :any. It exists so the success -;; checker can reject a use where EVERY member is in the op's error domain -;; ((inc (if c "a" :k))) while still accepting one where any member is valid -;; ((inc (if c 1 "x"))). Scalars only, capped cardinality: the member space is -;; the five scalar tags, so the lattice stays finite and the inter-procedural -;; fixpoint terminates. A union is opaque to every STRUCTURAL predicate -;; (struct-type?/vec-type?/set-type? key on :struct/:vec/:set, which a union -;; lacks), so specialization treats it exactly like :any — codegen is -;; unchanged; only the checker reads inside it. -(def ^:private union-cap 4) -(defn- scalar-t? [t] (or (= t :num) (= t :str) (= t :kw) (= t :truthy) (= t :phm))) -(defn- union-type? [t] (some? (get t :union))) -(defn- umembers [t] (get t :union)) -(defn- union-of - "Normalize a seq of member types into a lattice value: flatten nested unions, - keep only scalars (any non-scalar member collapses the whole thing to :any, - the conservative top), then return the lone member if one, {:union #{...}} - for 2..cap distinct scalars, or :any past the cap." - [ts] - (let [flat (reduce (fn [acc t] - (if (union-type? t) - (reduce conj acc (umembers t)) - (conj acc t))) - #{} ts)] - (cond - (not (every? scalar-t? flat)) :any - (= 0 (count flat)) :any - (= 1 (count flat)) (first flat) - (> (count flat) union-cap) :any - :else {:union flat}))) +;; build a per-run env: a snapshot of the installed config plus this run's flags +;; and fresh accumulator/guard cells. escapes/user-sigs reference the sweep-level +;; module cells (their lifecycle spans calls); diags/calls/checking-set/diag-memo +;; are this run's own. +(defn- mk-env [checking? strict?] + (let [c @config-box] + {:rtenv (get c :rtenv) :vtypes (get c :vtypes) + :record-shapes (get c :record-shapes) :protocol-methods (get c :protocol-methods) + :map-shapes? (get c :map-shapes?) + :checking? checking? :strict? strict? + :diags (atom []) :calls (atom []) :checking-set (atom #{}) :diag-memo (atom {}) + :escapes escapes-box :user-sigs user-sig-box})) -(declare join-t) -(defn- merge-fields - "Per-field join of two field maps (a key in only one side joins with :any)." - [fa fb] - (let [m1 (reduce (fn [m k] (assoc m k (join-t (get fa k :any) (get fb k :any)))) {} (keys fa))] - (reduce (fn [m k] (if (get m k) m (assoc m k (join-t (get fa k :any) (get fb k :any))))) m1 (keys fb)))) -(defn- join-t [a b] - (cond - (= a b) a - (nil? a) b - (nil? b) a - (and (struct-type? a) (struct-type? b)) - (let [merged (mk-struct (merge-fields (sfields a) (sfields b)))] - ;; joining two values of the SAME complete shape preserves it — the - ;; merged struct has the same key set. Different shapes - ;; (or an incomplete side) drop it, as the layout is no longer proven. - (if (and (get a :shape) (= (get a :shape) (get b :shape))) - (assoc merged :shape (get a :shape)) - merged)) - (and (vec-type? a) (vec-type? b)) (mk-vec (join-t (velem a) (velem b))) - (and (set-type? a) (set-type? b)) (mk-set (join-t (selem a) (selem b))) - ;; differing kinds: form a scalar union when both sides reduce to scalars - ;; (or scalar unions); anything compound on either side stays :any - :else (let [ma (cond (union-type? a) (umembers a) (scalar-t? a) #{a} :else nil) - mb (cond (union-type? b) (umembers b) (scalar-t? b) #{b} :else nil)] - (if (and ma mb) (union-of (reduce conj ma mb)) :any)))) -(defn- join [a b] (join-t a b)) -;; depth cap (RFC 0005): truncate a type below depth d to :any, so recursive data -;; can't make an infinite type and the inter-procedural fixpoint stays finite. -(def ^:private type-depth 4) -(defn- cap [t d] - (cond - (<= d 0) (if (or (struct-type? t) (vec-type? t) (set-type? t)) :any t) - (struct-type? t) - ;; capping truncates VALUES below depth d, but the KEY SET is unchanged, so - ;; a complete :shape survives — keep it so nested/container field reads can - ;; still bare-index. cap recurses into fields, so a nested - ;; shaped value (a vec3 inside a hit-info) keeps its own :shape too. - (let [capped (mk-struct (reduce (fn [m k] (assoc m k (cap (get (sfields t) k) (dec d)))) - {} (keys (sfields t)))) - ;; the record :type tag (and :shape) are independent of field-value - ;; depth, so they survive truncation — a record read from a deep - ;; container keeps its identity, so devirtualization, record? folding, - ;; and the record fast path still fire on it. - capped (if (get t :shape) (assoc capped :shape (get t :shape)) capped) - capped (if (get t :type) (assoc capped :type (get t :type)) capped)] - capped) - (vec-type? t) (mk-vec (cap (velem t) (dec d))) - (set-type? t) (mk-set (cap (selem t) (dec d))) - :else t)) -;; raw-get-safe (a struct / record): a struct type. The field type of key -;; k, if known, else :any. -(defn- struct-safe? [t] (struct-type? t)) -(defn- field-type [t k] (if (struct-type? t) (get (sfields t) k :any) :any)) -;; Shape (hidden class). A struct type built from a map LITERAL carries -;; its complete layout — :shape, the canonical (str-sorted) key vector. The back -;; end represents such a map as a shape tuple and reads a field by bare index. -;; A struct type from a JOIN or from field-access inference has no :shape -;; (incomplete: the full key set isn't proven), so it keeps the dynamic path — -;; never a bare index. No shape is hardcoded; any constant key set is one. -(defn- shape-order - "Canonical key order for a shape: keys sorted by their string form, so two - literals with the same keys in any order intern to the same shape." - [ks] (vec (sort (fn [a b] (compare (str a) (str b))) ks))) -(defn- type-shape [t] (get t :shape)) -;; tag a node (any expression, not just a :local) so the back end can specialize -;; a lookup whose SUBJECT is that node — this is what makes nested access work: -;; (:direction ray) is tagged struct, so (:r (:direction ray)) drops its guard. -;; tag a lookup subject as a struct, carrying the complete shape when known -;; (so the back end bare-indexes). -(defn- mark-struct [node t] - (let [n (assoc node :hint :struct)] - (if (get t :shape) (assoc n :shape (get t :shape)) n))) -;; a value provably neither nil nor false — the back end only builds a struct -;; (vs a phm) when every value is non-nil/non-false, so a map literal is a struct -;; only when all its values have such a type. Collections are non-nil. -(defn- truthy-type? [t] - (or (= t :num) (= t :str) (= t :kw) (= t :truthy) (= t :phm) - (struct-type? t) (vec-type? t) (set-type? t))) - -;; core fns whose result is a number (so it is non-nil/non-false and, for the -;; success-type checker, provably numeric). -(def ^:private num-ret-fns - #{"+" "-" "*" "/" "inc" "dec" "mod" "rem" "quot" "min" "max" "abs" - "bit-and" "bit-or" "bit-xor" "count"}) -(def ^:private vector-ret-fns #{"vec" "vector" "mapv" "filterv" "subvec"}) - -;; Inter-procedural state. The orchestrator (backend -;; infer-unit!) drives a whole-unit fixpoint: before typing a fn body it installs -;; the current return-type estimates of all unit fns here, and after typing it -;; reads back the call sites this body made (callee + inferred arg types) to -;; propagate into callee param types. Both are plain module state, like `dirty`. -(def ^:private rtenv-box (atom {})) ;; "ns/name" -> inferred return type -(def ^:private calls-box (atom [])) ;; collected [ "ns/name" [arg-types...] ] -(def ^:private escapes-box (atom #{})) ;; var-keys used as a VALUE (not a call head) -(def ^:private diag-box (atom [])) ;; success-type-check diagnostics (RFC 0006) -;; a var reference's VALUE type — a fn var is :truthy (non-nil), a def -;; var carries its inferred init type (e.g. a color table -> {:vec :struct-map}). -;; The orchestrator populates this from sealed (opt-mode) cell roots + def inits. -(def ^:private vtype-box (atom {})) ;; "ns/name" -> value type - -;; User-function error domains, opt-in. As the checker walks defs it -;; registers each non-redefinable single-fixed-arity user fn's {:params :body} -;; here, keyed "ns/name". At a later call site (strict mode only) the body is -;; re-checked with ONE parameter bound to its concrete argument type — if that -;; alone produces a diagnostic the all-:any body did not, that argument is -;; provably wrong and the CALL is reported. Module state, like rtenv-box: a def -;; must precede its call (the same closed-world ordering RFC 0005 assumes). -(def ^:private user-sig-box (atom {})) ;; "ns/name" -> {:params [..] :body ir} -;; a record constructor's return shape. "ns/->Name" -> [field-kw ...] -;; in DECLARED order (the runtime lays records out in declared field order, so -;; the back end bare-indexes by that order). A call (->Point a b) types as a -;; struct of this shape, so field reads on the result bare-index — declared -;; shapes are clean fuel: a lookup, not fragile inference. -(def ^:private record-shapes-box (atom {})) -;; protocol-method registry "ns/method" -> [proto method], for -;; devirtualizing a protocol call whose receiver is a known record type. -(def ^:private protocol-methods-box (atom {})) - -;; build a record's struct TYPE from its registry entry, resolving each -;; field's declared type hint. A field tagged with a record type (its ctor-key) -;; recurses, so a Vec3 stored in a Ray field reads back as Vec3 — not :any — -;; which is what lets nested-record code prove its reads. Depth-bounded so a -;; self/cyclic-referencing record type can't loop. +;; build a record's struct TYPE from its registry entry, resolving each field's +;; declared type hint against `shapes` ("ns/->Name" -> entry). A field tagged with +;; a record type (its ctor-key) recurses, so a Vec3 stored in a Ray field reads +;; back as Vec3 — not :any — which is what lets nested-record code prove its reads. +;; Depth-bounded so a self/cyclic-referencing record type can't loop. (declare record-type-from-entry) -(defn- field-type-from-tag [tag depth] +(defn- field-type-from-tag [tag depth shapes] (cond (or (nil? tag) (<= depth 0)) :any (= tag "num") :num - :else (let [e (get @record-shapes-box tag)] - (if e (record-type-from-entry e depth) :any)))) -(defn- record-type-from-entry [rs depth] + :else (let [e (get shapes tag)] + (if e (record-type-from-entry e depth shapes) :any)))) +(defn- record-type-from-entry [rs depth shapes] (let [fields (get rs :fields) tags (get rs :tags) fmap (reduce (fn [m i] (assoc m (nth fields i) - (field-type-from-tag (when tags (nth tags i)) (dec depth)))) + (field-type-from-tag (when tags (nth tags i)) (dec depth) shapes))) {} (range (count fields)))] (assoc (mk-struct fmap) :shape (vec fields) :type (get rs :type)))) -;; whether to shape generic const-key MAP literals (opt-in, JOLT_SHAPE). -;; Records are shaped regardless; maps only when this is on. -(def ^:private map-shapes-box (atom false)) -(def ^:private checking-box (atom #{})) ;; keys mid-recheck — cycle guard -(def ^:private strict-box (atom false)) ;; report against user-fn domains? -;; When true, `infer` emits success-type diagnostics as it types (jolt audit). -;; The checker IS the inference walk now — one O(n) pass that both types and -;; checks, instead of a separate check-walk that re-inferred every subtree -;; (quadratic in nesting). Off during the optimization fixpoint so it doesn't -;; emit intermediate diagnostics; on only inside check-form. -(def ^:private checking? (atom false)) ;; fns that RETURN an element of their (first) collection arg, so a lookup on the ;; result of (rand-nth coll-of-structs) etc. types as the element. @@ -232,18 +87,19 @@ (defn- var-key [fnode] (str (get fnode :ns) "/" (get fnode :name))) -(defn- call-ret-type [fnode] - (let [op (get fnode :op)] +(defn- call-ret-type [fnode env] + (let [op (get fnode :op) + shapes (get env :record-shapes)] (cond ;; a user fn whose return type the fixpoint has estimated - (= op :var) (let [rs (get @record-shapes-box (var-key fnode))] + (= op :var) (let [rs (get shapes (var-key fnode))] (if rs ;; record ctor -> struct of declared shape; :shape ;; is the DECLARED field order the back end indexes by, :type ;; the record tag (devirt), and field types come from the ;; declared hints so nested records stay typed - (record-type-from-entry rs type-depth) - (let [r (get @rtenv-box (var-key fnode))] + (record-type-from-entry rs type-depth shapes) + (let [r (get (get env :rtenv) (var-key fnode))] (if r r (let [nm (and (= "clojure.core" (get fnode :ns)) (get fnode :name))] (cond (nil? nm) :any (contains? num-ret-fns nm) :num @@ -302,7 +158,7 @@ types (seeds: param-index -> type), other params :any, captured locals from tenv. Returns [ret-type node'] — ret is the lub of arity tail types, used to type the HOF result (e.g. reduce's accumulator, mapv's element)." - [node seeds tenv] + [node seeds tenv env] (let [res (mapv (fn [a] (let [params (get a :params) pe (reduce (fn [e i] @@ -310,7 +166,7 @@ (let [s (get seeds i)] (if s s :any)))) tenv (range (count params))) pe (if (get a :rest) (assoc pe (get a :rest) :any) pe) - br (infer (get a :body) pe)] + br (infer (get a :body) pe env)] [(nth br 0) (assoc a :body (nth br 1))])) (get node :arities)) rets (mapv (fn [r] (nth r 0)) res) @@ -320,8 +176,8 @@ (defn- infer "Returns [type node'] — the inferred type of node and node with struct-safe :local references annotated :hint :struct. tenv maps in-scope local names to - inferred types." - [node tenv] + inferred types; env carries the inference config and this run's accumulators." + [node tenv env] (let [op (get node :op)] (cond (= op :const) @@ -343,8 +199,8 @@ (= op :map) (let [pairs (get node :pairs) res (mapv (fn [pr] - (let [kr (infer (nth pr 0) tenv) - vr (infer (nth pr 1) tenv)] + (let [kr (infer (nth pr 0) tenv env) + vr (infer (nth pr 1) tenv env)] [(nth kr 1) (nth vr 1) (nth vr 0) (get (nth pr 0) :val)])) pairs) struct? (and (> (count res) 0) @@ -354,38 +210,38 @@ (cap (mk-struct (reduce (fn [m r] (assoc m (nth r 3) (nth r 2))) {} res)) type-depth)) ;; a literal is a COMPLETE shape: carry its sorted key vector so the ;; back end can lay it out and bare-index lookups - shp (when (and @map-shapes-box base (struct-type? base)) (shape-order (keys (sfields base)))) + shp (when (and (get env :map-shapes?) base (struct-type? base)) (shape-order (keys (sfields base)))) t (if base (if shp (assoc base :shape shp) base) :any) node' (assoc node :pairs (mapv (fn [r] [(nth r 0) (nth r 1)]) res))] [t (if shp (assoc node' :shape shp) node')]) (= op :vector) - (let [irs (mapv (fn [x] (infer x tenv)) (get node :items)) + (let [irs (mapv (fn [x] (infer x tenv env)) (get node :items)) ets (mapv (fn [r] (nth r 0)) irs) el (if (empty? ets) :any (reduce join (first ets) (rest ets)))] [(cap (mk-vec el) type-depth) (assoc node :items (mapv (fn [r] (nth r 1)) irs))]) (= op :set) - (let [irs (mapv (fn [x] (infer x tenv)) (get node :items)) + (let [irs (mapv (fn [x] (infer x tenv env)) (get node :items)) ets (mapv (fn [r] (nth r 0)) irs) el (if (empty? ets) :any (reduce join (first ets) (rest ets)))] [(cap (mk-set el) type-depth) (assoc node :items (mapv (fn [r] (nth r 1)) irs))]) (= op :if) - (let [tr (infer (get node :test) tenv) - thn (infer (get node :then) tenv) - els (infer (get node :else) tenv)] + (let [tr (infer (get node :test) tenv env) + thn (infer (get node :then) tenv env) + els (infer (get node :else) tenv env)] [(join (nth thn 0) (nth els 0)) (assoc node :test (nth tr 1) :then (nth thn 1) :else (nth els 1))]) (= op :do) - (let [stmts (mapv (fn [s] (nth (infer s tenv) 1)) (get node :statements)) - r (infer (get node :ret) tenv)] + (let [stmts (mapv (fn [s] (nth (infer s tenv env) 1)) (get node :statements)) + r (infer (get node :ret) tenv env)] [(nth r 0) (assoc node :statements stmts :ret (nth r 1))]) (= op :throw) - [:any (assoc node :expr (nth (infer (get node :expr) tenv) 1))] + [:any (assoc node :expr (nth (infer (get node :expr) tenv env) 1))] ;; a :var reached HERE is in value position (an arg, a let init, ...), not ;; a call head — so the fn it names escapes and its params can't be inferred. - ;; Its VALUE type comes from vtype-box (a fn is :truthy, a def carries its + ;; Its VALUE type comes from vtypes (a fn is :truthy, a def carries its ;; inferred type); unknown -> :any. - (= op :var) (do (swap! escapes-box conj (var-key node)) - [(let [vt (get @vtype-box (var-key node))] (if vt vt :any)) node]) + (= op :var) (do (swap! (get env :escapes) conj (var-key node)) + [(let [vt (get (get env :vtypes) (var-key node))] (if vt vt :any)) node]) (= op :invoke) (let [fnode (get node :fn) iscall-var (= :var (get fnode :op)) @@ -399,32 +255,32 @@ ;; after inference) collapsing any `if` it gates. Falls through to the ;; normal call path when the answer isn't provable or the arg is impure. (and iscall-var (contains? fold-preds cn) (= n 1)) - (let [ar (infer (nth args 0) tenv) + (let [ar (infer (nth args 0) tenv env) v (pred-on cn (nth ar 0))] (if (and (not (nil? v)) (pure-node? (nth ar 1))) [:any {:op :const :val v}] - [(call-ret-type fnode) (assoc node :args [(nth ar 1)])])) + [(call-ret-type fnode env) (assoc node :args [(nth ar 1)])])) ;; (:k m) / (:k m default): the result is m's field type, and if m is a ;; struct the subject is tagged so the back end drops the guard — this ;; types nested access end to end (RFC 0005). (and (= :const (get fnode :op)) (keyword? (get fnode :val)) (>= n 1) (<= n 2)) - (let [mr (infer (nth args 0) tenv) + (let [mr (infer (nth args 0) tenv env) mt (nth mr 0) msub (if (struct-safe? mt) (mark-struct (nth mr 1) mt) (nth mr 1)) ft (field-type mt (get fnode :val)) - dr (when (= n 2) (infer (nth args 1) tenv))] + dr (when (= n 2) (infer (nth args 1) tenv env))] [(if dr (join ft (nth dr 0)) ft) (assoc node :args (if dr [msub (nth dr 1)] [msub]))]) ;; (get m :k [default]): same, when the key is a constant keyword. (and (or (and (= :var (get fnode :op)) (= "clojure.core" (get fnode :ns)) (= "get" (get fnode :name))) (and (= :host (get fnode :op)) (= "get" (get fnode :name)))) (>= n 2) (= :const (get (nth args 1) :op)) (keyword? (get (nth args 1) :val))) - (let [mr (infer (nth args 0) tenv) + (let [mr (infer (nth args 0) tenv env) mt (nth mr 0) msub (if (struct-safe? mt) (mark-struct (nth mr 1) mt) (nth mr 1)) - kr (infer (nth args 1) tenv) + kr (infer (nth args 1) tenv env) ft (field-type mt (get (nth args 1) :val)) - dr (when (= n 3) (infer (nth args 2) tenv))] + dr (when (= n 3) (infer (nth args 2) tenv env))] [(if dr (join ft (nth dr 0)) ft) (assoc node :args (if dr [msub (nth kr 1) (nth dr 1)] [msub (nth kr 1)]))]) ;; reduce over a typed vector with a fn-literal: seed the @@ -433,11 +289,11 @@ ;; it makes — see those types. (and (= cn "reduce") (>= n 2) (= :fn (get (nth args 0) :op))) (let [three (>= n 3) - coll-r (infer (nth args (if three 2 1)) tenv) - init-r (when three (infer (nth args 1) tenv)) + coll-r (infer (nth args (if three 2 1)) tenv env) + init-r (when three (infer (nth args 1) tenv env)) et (let [ct (nth coll-r 0)] (if (vec-type? ct) (velem ct) :any)) init-t (if init-r (nth init-r 0) :any) - fn-r (infer-fn-seeded (nth args 0) {0 init-t 1 et} tenv)] + fn-r (infer-fn-seeded (nth args 0) {0 init-t 1 et} tenv env)] [(join init-t (nth fn-r 0)) (assoc node :args (if three [(nth fn-r 1) (nth init-r 1) (nth coll-r 1)] @@ -445,16 +301,16 @@ ;; map/mapv/filter/... over a typed vector with a fn-literal: seed the ;; fn's element param; mapv/filterv produce a typed vector. (and cn (get hof-table cn) (>= n 2) (= :fn (get (nth args 0) :op))) - (let [coll-r (infer (nth args 1) tenv) + (let [coll-r (infer (nth args 1) tenv env) et (let [ct (nth coll-r 0)] (if (vec-type? ct) (velem ct) :any)) - fn-r (infer-fn-seeded (nth args 0) {(get (get hof-table cn) :epos) et} tenv) + fn-r (infer-fn-seeded (nth args 0) {(get (get hof-table cn) :epos) et} tenv env) rt (cond (= cn "mapv") (mk-vec (nth fn-r 0)) (= cn "filterv") (mk-vec et) :else :any)] [rt (assoc node :args [(nth fn-r 1) (nth coll-r 1)])]) ;; conj/into: track the element type of a vector being grown. (and (or (= cn "conj") (= cn "into")) (>= n 1)) - (let [ares (mapv (fn [a] (infer a tenv)) args) + (let [ares (mapv (fn [a] (infer a tenv env)) args) base (nth (nth ares 0) 0) rest-ts (mapv (fn [r] (nth r 0)) (rest ares)) rt (cond @@ -462,40 +318,40 @@ (mk-vec (reduce join (velem base) rest-ts)) (and (= cn "into") (vec-type? base) (= 2 n) (vec-type? (nth rest-ts 0))) (mk-vec (join (velem base) (velem (nth rest-ts 0)))) - :else (call-ret-type fnode))] + :else (call-ret-type fnode env))] [rt (assoc node :args (mapv (fn [r] (nth r 1)) ares))]) ;; everything else: type args, collect the call (var callee), use the ;; declared/estimated return type. range produces a numeric vector. :else - (let [fr (when (not iscall-var) (infer fnode tenv)) + (let [fr (when (not iscall-var) (infer fnode tenv env)) fnode' (if iscall-var fnode (nth fr 1)) - ;; the callee's value type: a var's from vtype-box (a fn is + ;; the callee's value type: a var's from vtypes (a fn is ;; :truthy, a def carries its inferred type), else the inferred ;; type of the callee expression - callee-t (if iscall-var (get @vtype-box (var-key fnode)) (nth fr 0)) - ares (mapv (fn [a] (infer a tenv)) args)] + callee-t (if iscall-var (get (get env :vtypes) (var-key fnode)) (nth fr 0)) + ares (mapv (fn [a] (infer a tenv env)) args)] (when iscall-var - (swap! calls-box conj [(var-key fnode) (mapv (fn [r] (nth r 0)) ares)])) + (swap! (get env :calls) conj [(var-key fnode) (mapv (fn [r] (nth r 0)) ares)])) ;; success-type check at this call, reusing the arg types just ;; computed (jolt audit): core error domains always, user-fn domains ;; in strict mode. The arg subtrees are inferred exactly once. - (when @checking? + (when (get env :checking?) (let [ats (mapv (fn [r] (nth r 0)) ares) pos (get node :pos)] - (when cn (check-invoke cn args ats pos)) + (when cn (check-invoke cn args ats pos env)) ;; calling a provably non-function (when (not-callable? callee-t) - (swap! diag-box conj + (swap! (get env :diags) conj {:op :call :type (type-name callee-t) :pos pos :msg (str "cannot call " (type-name callee-t) " as a function")})) - (when (and @strict-box iscall-var) - (let [k (var-key fnode) usig (get @user-sig-box k)] - (when usig (check-user-call k usig ats pos)))))) + (when (and (get env :strict?) iscall-var) + (let [k (var-key fnode) usig (get @(get env :user-sigs) k)] + (when usig (check-user-call k usig ats pos env)))))) ;; devirtualization: a protocol-method call whose receiver ;; (arg 0) is a known record type resolves to a direct method call. ;; Annotate the node with [type-tag proto method]; the back end looks ;; up the impl at emit time and calls it directly, skipping the ;; registry dispatch (~19x cheaper than protocol-dispatch). - (let [pm (and iscall-var (get @protocol-methods-box (var-key fnode))) + (let [pm (and iscall-var (get (get env :protocol-methods) (var-key fnode))) rtype (when (and pm (pos? n)) (get (nth (nth ares 0) 0) :type)) base (assoc node :fn fnode' :args (mapv (fn [r] (nth r 1)) ares))] [(cond @@ -503,27 +359,27 @@ ;; element-returning fn over a typed vector -> the element type (and cn (contains? elem-fns cn) (> n 0)) (let [a0 (nth (nth ares 0) 0)] (if (vec-type? a0) (velem a0) :any)) - :else (call-ret-type fnode)) + :else (call-ret-type fnode env)) (if rtype (assoc base :devirt-type rtype :devirt-proto (nth pm 0) :devirt-method (nth pm 1)) base)])))) (= op :let) (let [res (reduce (fn [acc b] (let [te (nth acc 0) binds (nth acc 1) - ir (infer (nth b 1) te)] + ir (infer (nth b 1) te env)] [(assoc te (nth b 0) (nth ir 0)) (conj binds [(nth b 0) (nth ir 1)])])) [tenv []] (get node :bindings)) - br (infer (get node :body) (nth res 0))] + br (infer (get node :body) (nth res 0) env)] [(nth br 0) (assoc node :bindings (nth res 1) :body (nth br 1))]) (= op :loop) ;; conservative + sound: loop bindings join across recur, which we don't ;; track here, so they stay :any. Still descend to annotate any ;; known-type lookups inside the body. [:any (assoc node - :bindings (mapv (fn [b] [(nth b 0) (nth (infer (nth b 1) tenv) 1)]) (get node :bindings)) - :body (nth (infer (get node :body) tenv) 1))] + :bindings (mapv (fn [b] [(nth b 0) (nth (infer (nth b 1) tenv env) 1)]) (get node :bindings)) + :body (nth (infer (get node :body) tenv env) 1))] (= op :recur) - [:any (assoc node :args (mapv (fn [a] (nth (infer a tenv) 1)) (get node :args)))] + [:any (assoc node :args (mapv (fn [a] (nth (infer a tenv env) 1)) (get node :args)))] (= op :fn) ;; a closure inherits the enclosing tenv so CAPTURED locals keep their ;; types (e.g. a reduce closure that calls (f captured-struct ...)). Its own @@ -534,27 +390,28 @@ ;; read its fields without the runtime tag guard. [:any (assoc node :arities (mapv (fn [a] - (let [phm (reduce (fn [m pr] (assoc m (nth pr 0) (nth pr 1))) + (let [shapes (get env :record-shapes) + phm (reduce (fn [m pr] (assoc m (nth pr 0) (nth pr 1))) {} (get a :phints)) pe (reduce (fn [e p] (assoc e p - (let [ent (get @record-shapes-box (get phm p))] - (if ent (record-type-from-entry ent type-depth) :any)))) + (let [ent (get shapes (get phm p))] + (if ent (record-type-from-entry ent type-depth shapes) :any)))) tenv (get a :params)) pe (if (get a :rest) (assoc pe (get a :rest) :any) pe)] - (assoc a :body (nth (infer (get a :body) pe) 1)))) + (assoc a :body (nth (infer (get a :body) pe env) 1)))) (get node :arities)))] (= op :def) - (do (when @checking? (register-user-fn! node)) - [:any (assoc node :init (nth (infer (get node :init) tenv) 1))]) + (do (when (get env :checking?) (register-user-fn! node env)) + [:any (assoc node :init (nth (infer (get node :init) tenv env) 1))]) (= op :try) [:any (assoc node - :body (nth (infer (get node :body) tenv) 1) - :catch-body (when (get node :catch-body) (nth (infer (get node :catch-body) tenv) 1)) - :finally (when (get node :finally) (nth (infer (get node :finally) tenv) 1)))] + :body (nth (infer (get node :body) tenv env) 1) + :catch-body (when (get node :catch-body) (nth (infer (get node :catch-body) tenv env) 1)) + :finally (when (get node :finally) (nth (infer (get node :finally) tenv env) 1)))] :else [:any node]))) -(defn- infer-top [node] (nth (infer node {}) 1)) +(defn- infer-top [node env] (nth (infer node {} env) 1)) ;; --------------------------------------------------------------------------- ;; Success-type checking (RFC 0006). Reuse the inference above as a loose type @@ -614,15 +471,16 @@ (defn- check-invoke "If node is a core-op call whose argument type is provably in the error domain, - conj a diagnostic. arg-types is the vector of inferred argument types; pos is - the call form's source offset, carried into each diagnostic." - [cn args arg-types pos] + conj a diagnostic into env's diags cell. arg-types is the vector of inferred + argument types; pos is the call form's source offset, carried into each + diagnostic." + [cn args arg-types pos env] (cond (contains? num-ops cn) (reduce (fn [_ i] (let [t (nth arg-types i)] (when (not-number? t) - (swap! diag-box conj + (swap! (get env :diags) conj {:op cn :argpos i :type (type-name t) :pos pos :msg (str "`" cn "` requires a number, but argument " (inc i) " is " (type-name t))}))) @@ -631,7 +489,7 @@ (and (contains? seq-ops cn) (> (count args) 0)) (let [t (nth arg-types 0)] (when (not-seqable? t) - (swap! diag-box conj + (swap! (get env :diags) conj {:op cn :argpos 0 :type (type-name t) :pos pos :msg (str "`" cn "` requires " (if (= cn "count") "a countable collection" "a seqable") @@ -645,22 +503,20 @@ (reduce (fn [e p] (assoc e p :any)) {} params)) (defn- isolated-diag-count - "Count of diagnostics typing body under tenv produces, with the shared - diag-box saved and restored so this probe never leaks into the real report. - Runs the same checking inference as check-form (checking? is already on)." - [body tenv] - (let [saved @diag-box] - (reset! diag-box []) - (infer body tenv) - (let [n (count @diag-box)] - (reset! diag-box saved) - n))) + "Count of diagnostics typing body under tenv produces. Runs under a SUB-ENV + with its own diags cell, so this probe never leaks into the real report (the + shared calls/escapes/guard cells are intentionally still threaded — they are + not read here). Runs the same checking inference as check-form." + [body tenv env] + (let [sub (assoc env :diags (atom []))] + (infer body tenv sub) + (count @(get sub :diags)))) (defn- register-user-fn! "Record a (def name (fn [params] body)) — single fixed arity, not redefinable — for later user-fn call checking. Redefinable/dynamic and multi/variadic fns are skipped (their body is not a stable requirement)." - [node] + [node env] (let [init (get node :init) m (get node :meta) redefable (and m (or (get m :redef) (get m :dynamic)))] @@ -669,7 +525,7 @@ (when (= 1 (count arities)) (let [ar (first arities)] (when (not (get ar :rest)) - (swap! user-sig-box assoc + (swap! (get env :user-sigs) assoc (str (get node :ns) "/" (get node :name)) {:name (get node :name) :params (get ar :params) :body (get ar :body)})))))))) @@ -682,55 +538,69 @@ its arg type (others :any); a diagnostic the all-:any body did not already have means the argument alone is provably wrong. Monotonic — binding a concrete type can only ADD error-domain hits — so no false positive. - Cycle-guarded so mutually recursive fns terminate." - [key sig arg-types pos] - (when (not (contains? @checking-box key)) - (let [prev @checking-box] - (reset! checking-box (conj prev key)) - (let [params (:params sig) - body (:body sig) - npar (count params) - nargs (count arg-types)] - (if (not= npar nargs) - ;; arity is provably wrong regardless of types — report and stop (the - ;; per-arg type re-check would bind params positionally, meaningless - ;; under a mismatch) - (swap! diag-box conj - {:op :user-call :type :arity :pos pos - :msg (str "wrong number of args (" nargs ") passed to `" - (:name sig) "` (expected " npar ")")}) - (let [base (isolated-diag-count body (all-any-env params))] - (reduce - (fn [_ i] - (let [at (nth arg-types i)] - (when (and (not= at :any) (not= at :truthy)) - (let [pe (assoc (all-any-env params) (nth params i) at)] - (when (> (isolated-diag-count body pe) base) - (swap! diag-box conj - {:op :user-call :argpos i :type (type-name at) :pos pos - :msg (str "argument " (inc i) " to `" (:name sig) - "` is " (type-name at) - ", which its body provably rejects")}))))) - nil) - nil (range npar))))) - (reset! checking-box prev)))) + Cycle-guarded (env's checking-set) so mutually recursive fns terminate." + [key sig arg-types pos env] + (let [cset (get env :checking-set)] + (when (not (contains? @cset key)) + (let [prev @cset] + (reset! cset (conj prev key)) + (let [params (:params sig) + body (:body sig) + npar (count params) + nargs (count arg-types) + memo (get env :diag-memo)] + (if (not= npar nargs) + ;; arity is provably wrong regardless of types — report and stop (the + ;; per-arg type re-check would bind params positionally, meaningless + ;; under a mismatch) + (swap! (get env :diags) conj + {:op :user-call :type :arity :pos pos + :msg (str "wrong number of args (" nargs ") passed to `" + (:name sig) "` (expected " npar ")")}) + ;; all-any-env is built once (was rebuilt per param), and each probe is + ;; memoized by [key i argtype] so the same fn re-checked across call + ;; sites in this form re-infers its body at most once per (param, type). + (let [base-env (all-any-env params) + base (let [bk [:base key]] + (if (contains? @memo bk) + (get @memo bk) + (let [b (isolated-diag-count body base-env env)] + (swap! memo assoc bk b) b)))] + (reduce + (fn [_ i] + (let [at (nth arg-types i)] + (when (and (not= at :any) (not= at :truthy)) + (let [mk [:arg key i at] + rejects (if (contains? @memo mk) + (get @memo mk) + (let [r (> (isolated-diag-count body (assoc base-env (nth params i) at) env) base)] + (swap! memo assoc mk r) r))] + (when rejects + (swap! (get env :diags) conj + {:op :user-call :argpos i :type (type-name at) :pos pos + :msg (str "argument " (inc i) " to `" (:name sig) + "` is " (type-name at) + ", which its body provably rejects")}))))) + nil) + nil (range npar))))) + (reset! cset prev))))) ;; --- Inter-procedural driver API consumed by the back end ------------------- (defn set-rtenv! "Install the current return-type estimates (a map \"ns/name\" -> type) used to type call results during the fixpoint." - [m] (reset! rtenv-box m)) + [m] (swap! config-box assoc :rtenv (or m {}))) ;; install record-ctor shapes ("ns/->Name" -> [field-kw ...]) and the ;; map-shaping flag (opt-in JOLT_SHAPE), both read by infer. -(defn set-record-shapes! [m] (reset! record-shapes-box (or m {}))) -(defn set-protocol-methods! [m] (reset! protocol-methods-box (or m {}))) -(defn set-map-shapes! [b] (reset! map-shapes-box (boolean b))) +(defn set-record-shapes! [m] (swap! config-box assoc :record-shapes (or m {}))) +(defn set-protocol-methods! [m] (swap! config-box assoc :protocol-methods (or m {}))) +(defn set-map-shapes! [b] (swap! config-box assoc :map-shapes? (boolean b))) (defn set-vtypes! "Install var VALUE types (a map \"ns/name\" -> type): fn vars are :truthy (non-nil), def vars carry their inferred init type." - [m] (reset! vtype-box m)) + [m] (swap! config-box assoc :vtypes (or m {}))) (defn join-types "Public structural join (lub), used by the orchestrator's fixpoint so param/ @@ -752,17 +622,12 @@ def must precede its call — the same ordering RFC 0005 already assumes." ([node] (check-form node false)) ([node strict?] - (reset! strict-box (if strict? true false)) - (reset! checking-box #{}) - (reset! diag-box []) - ;; the check IS the inference: one walk that types and emits diagnostics - ;; (jolt audit). checking? gates emission so the optimization fixpoint, which - ;; also calls infer, stays silent. - (reset! checking? true) - (infer node {}) - (reset! checking? false) - (reset! strict-box false) - (vec @diag-box))) + ;; the check IS the inference: one walk that types and emits diagnostics into + ;; this run's env. The optimization fixpoint runs with checking? false so it + ;; stays silent. + (let [env (mk-env true strict?)] + (infer node {} env) + (vec @(get env :diags))))) (defn infer-body "Type `body` under tenv (local-name -> type). Returns [ret-type node' calls], @@ -770,9 +635,9 @@ propagating into callee param types). Also accumulates escapes (read with collected-escapes after a full sweep)." [body tenv] - (reset! calls-box []) - (let [r (infer body tenv)] - [(nth r 0) (nth r 1) @calls-box])) + (let [env (mk-env false false) + r (infer body tenv env)] + [(nth r 0) (nth r 1) @(get env :calls)])) (defn reinfer-def "Re-run inference on a stashed :def's fn arity bodies with param types seeded @@ -780,7 +645,9 @@ end emits the result directly (no further passes), so the param-typed lookups keep their specialization. Used by the inter-procedural recompile." [def-node ptmap] - (let [fnode (get def-node :init)] + (let [fnode (get def-node :init) + env (mk-env false false) + shapes (get env :record-shapes)] (if (= :fn (get fnode :op)) (assoc def-node :init (assoc fnode :arities @@ -792,12 +659,12 @@ ;; as precise), so this only fills the gaps. (let [pt (reduce (fn [m pr] (let [nm (nth pr 0) - e (get @record-shapes-box (nth pr 1))] + e (get shapes (nth pr 1))] (if (and e (not (contains? m nm))) - (assoc m nm (record-type-from-entry e type-depth)) + (assoc m nm (record-type-from-entry e type-depth shapes)) m))) ptmap (get a :phints))] - (assoc a :body (nth (infer (get a :body) pt) 1)))) + (assoc a :body (nth (infer (get a :body) pt env) 1)))) (get fnode :arities)))) def-node))) @@ -812,11 +679,12 @@ fixpoint, so a field read off it (e.g. (:origin ^Ray r)) never tells a shared callee its arg is a Vec3." [params phints] - (let [m (reduce (fn [acc pr] (assoc acc (nth pr 0) (nth pr 1))) {} phints)] + (let [shapes (get @config-box :record-shapes) + m (reduce (fn [acc pr] (assoc acc (nth pr 0) (nth pr 1))) {} phints)] (mapv (fn [nm] (let [ck (get m nm) - e (and ck (get @record-shapes-box ck))] - (when e (record-type-from-entry e type-depth)))) + e (and ck (get shapes ck))] + (when e (record-type-from-entry e type-depth shapes)))) params))) ;; Piggyback checking (jolt audit). In direct-link mode infer-top already runs @@ -826,27 +694,22 @@ ;; run-passes and reads take-diags! after. It checks the POST-optimization IR, ;; which matches what the optimized program actually evaluates (scalar-replace ;; only drops provably-pure code, an accepted opt-mode divergence). -(def ^:private check-mode-box (atom {:on false :strict false})) (defn set-check-mode! "Enable/disable checking during the next run-passes inference (direct-link)." [on strict?] (reset! check-mode-box {:on (if on true false) :strict (if strict? true false)})) (defn take-diags! "Diagnostics accumulated by the last checking run-passes; clears the buffer." - [] (let [d (vec @diag-box)] (reset! diag-box []) d)) + [] (let [d @last-diags-box] (reset! last-diags-box []) d)) (defn run-inference "Type-infer the optimized node (the inference walk specializes struct-safe lookups). When check mode is on (set-check-mode!), the same walk also emits - success-type diagnostics into the buffer take-diags! drains afterward. Pulled + success-type diagnostics, stashed for take-diags! to drain afterward. Pulled out of run-passes so the checking state stays private to this namespace." [opt] (if (get @check-mode-box :on) - (do (reset! diag-box []) - (reset! checking-box #{}) - (reset! strict-box (get @check-mode-box :strict)) - (reset! checking? true) - (let [r (infer-top opt)] - (reset! checking? false) - (reset! strict-box false) - r)) - (infer-top opt))) + (let [env (mk-env true (get @check-mode-box :strict)) + r (infer-top opt env)] + (reset! last-diags-box @(get env :diags)) + r) + (infer-top opt (mk-env false false)))) diff --git a/jolt-core/jolt/passes/types/lattice.clj b/jolt-core/jolt/passes/types/lattice.clj new file mode 100644 index 0000000..4efcb13 --- /dev/null +++ b/jolt-core/jolt/passes/types/lattice.clj @@ -0,0 +1,156 @@ +(ns jolt.passes.types.lattice + "Structural type lattice for jolt.passes.types: scalar/struct/vec/set/union + types, join, depth-cap, shape, and the numeric/vector return-fn name sets. Pure + (no inference state) — the inference + checker in jolt.passes.types build on it.") + +;; --------------------------------------------------------------------------- +;; Collection-type inference, intra-procedural. A forward, +;; soft-typing-style pass (simplified HM: monovariant, never-fails, lattice top +;; = :any) that types expressions from literals/arithmetic and flows the type +;; through let bindings and if-joins. Where a keyword-lookup subject is PROVEN a +;; plain struct map it sets :hint :struct (the same channel a manual hint uses, +;; so the back end drops the guard); where the type is :any it leaves the +;; dynamic guard in place. Sound by construction: a concrete type is assigned +;; only when proven, so a wrong bare get is impossible. +;; +;; Recursive STRUCTURAL types (RFC 0005). A type mirrors the data tree: +;; compound: {:struct {field -> T}} (raw-get-safe map, field types) +;; {:vec T} (vector of T) +;; {:set T} (set of T) +;; scalar: :num :str :kw :truthy (all provably non-nil/non-false) +;; :phm (persistent hash map; NOT raw-get-safe) +;; :any (top), nil (bottom, identity for join). +;; Compound types are small jolt maps, so they compare by value on both the +;; Clojure and the host (orchestrator) side. struct/vec/set use distinct keys so +;; a type is recognised by which key it carries. +;; (get t :KEY) is nil for a keyword type and the child for a compound, so a +;; compound is detected by some? — no map?/contains? needed. +(defn velem [t] (get t :vec)) +(defn selem [t] (get t :set)) +(defn sfields [t] (get t :struct)) +(defn vec-type? [t] (some? (velem t))) +(defn set-type? [t] (some? (selem t))) +(defn struct-type? [t] (some? (sfields t))) +(defn mk-vec [t] {:vec (if t t :any)}) +(defn mk-set [t] {:set (if t t :any)}) +(defn mk-struct [fs] {:struct fs}) + +;; Bounded union types (RFC 0006). A union {:union #{T...}} records +;; that a value is provably one of a small, fixed set of SCALAR types — what +;; differing if-branches used to collapse to :any. It exists so the success +;; checker can reject a use where EVERY member is in the op's error domain +;; ((inc (if c "a" :k))) while still accepting one where any member is valid +;; ((inc (if c 1 "x"))). Scalars only, capped cardinality: the member space is +;; the five scalar tags, so the lattice stays finite and the inter-procedural +;; fixpoint terminates. A union is opaque to every STRUCTURAL predicate +;; (struct-type?/vec-type?/set-type? key on :struct/:vec/:set, which a union +;; lacks), so specialization treats it exactly like :any — codegen is +;; unchanged; only the checker reads inside it. +(def union-cap 4) +(defn scalar-t? [t] (or (= t :num) (= t :str) (= t :kw) (= t :truthy) (= t :phm))) +(defn union-type? [t] (some? (get t :union))) +(defn umembers [t] (get t :union)) +(defn union-of + "Normalize a seq of member types into a lattice value: flatten nested unions, + keep only scalars (any non-scalar member collapses the whole thing to :any, + the conservative top), then return the lone member if one, {:union #{...}} + for 2..cap distinct scalars, or :any past the cap." + [ts] + (let [flat (reduce (fn [acc t] + (if (union-type? t) + (reduce conj acc (umembers t)) + (conj acc t))) + #{} ts)] + (cond + (not (every? scalar-t? flat)) :any + (= 0 (count flat)) :any + (= 1 (count flat)) (first flat) + (> (count flat) union-cap) :any + :else {:union flat}))) + +(declare join-t) +(defn merge-fields + "Per-field join of two field maps (a key in only one side joins with :any)." + [fa fb] + (let [m1 (reduce (fn [m k] (assoc m k (join-t (get fa k :any) (get fb k :any)))) {} (keys fa))] + (reduce (fn [m k] (if (get m k) m (assoc m k (join-t (get fa k :any) (get fb k :any))))) m1 (keys fb)))) +(defn join-t [a b] + (cond + (= a b) a + (nil? a) b + (nil? b) a + (and (struct-type? a) (struct-type? b)) + (let [merged (mk-struct (merge-fields (sfields a) (sfields b)))] + ;; joining two values of the SAME complete shape preserves it — the + ;; merged struct has the same key set. Different shapes + ;; (or an incomplete side) drop it, as the layout is no longer proven. + (if (and (get a :shape) (= (get a :shape) (get b :shape))) + (assoc merged :shape (get a :shape)) + merged)) + (and (vec-type? a) (vec-type? b)) (mk-vec (join-t (velem a) (velem b))) + (and (set-type? a) (set-type? b)) (mk-set (join-t (selem a) (selem b))) + ;; differing kinds: form a scalar union when both sides reduce to scalars + ;; (or scalar unions); anything compound on either side stays :any + :else (let [ma (cond (union-type? a) (umembers a) (scalar-t? a) #{a} :else nil) + mb (cond (union-type? b) (umembers b) (scalar-t? b) #{b} :else nil)] + (if (and ma mb) (union-of (reduce conj ma mb)) :any)))) +(defn join [a b] (join-t a b)) +;; depth cap (RFC 0005): truncate a type below depth d to :any, so recursive data +;; can't make an infinite type and the inter-procedural fixpoint stays finite. +(def type-depth 4) +(defn cap [t d] + (cond + (<= d 0) (if (or (struct-type? t) (vec-type? t) (set-type? t)) :any t) + (struct-type? t) + ;; capping truncates VALUES below depth d, but the KEY SET is unchanged, so + ;; a complete :shape survives — keep it so nested/container field reads can + ;; still bare-index. cap recurses into fields, so a nested + ;; shaped value (a vec3 inside a hit-info) keeps its own :shape too. + (let [capped (mk-struct (reduce (fn [m k] (assoc m k (cap (get (sfields t) k) (dec d)))) + {} (keys (sfields t)))) + ;; the record :type tag (and :shape) are independent of field-value + ;; depth, so they survive truncation — a record read from a deep + ;; container keeps its identity, so devirtualization, record? folding, + ;; and the record fast path still fire on it. + capped (if (get t :shape) (assoc capped :shape (get t :shape)) capped) + capped (if (get t :type) (assoc capped :type (get t :type)) capped)] + capped) + (vec-type? t) (mk-vec (cap (velem t) (dec d))) + (set-type? t) (mk-set (cap (selem t) (dec d))) + :else t)) +;; raw-get-safe (a struct / record): a struct type. The field type of key +;; k, if known, else :any. +(defn struct-safe? [t] (struct-type? t)) +(defn field-type [t k] (if (struct-type? t) (get (sfields t) k :any) :any)) +;; Shape (hidden class). A struct type built from a map LITERAL carries +;; its complete layout — :shape, the canonical (str-sorted) key vector. The back +;; end represents such a map as a shape tuple and reads a field by bare index. +;; A struct type from a JOIN or from field-access inference has no :shape +;; (incomplete: the full key set isn't proven), so it keeps the dynamic path — +;; never a bare index. No shape is hardcoded; any constant key set is one. +(defn shape-order + "Canonical key order for a shape: keys sorted by their string form, so two + literals with the same keys in any order intern to the same shape." + [ks] (vec (sort (fn [a b] (compare (str a) (str b))) ks))) +(defn type-shape [t] (get t :shape)) +;; tag a node (any expression, not just a :local) so the back end can specialize +;; a lookup whose SUBJECT is that node — this is what makes nested access work: +;; (:direction ray) is tagged struct, so (:r (:direction ray)) drops its guard. +;; tag a lookup subject as a struct, carrying the complete shape when known +;; (so the back end bare-indexes). +(defn mark-struct [node t] + (let [n (assoc node :hint :struct)] + (if (get t :shape) (assoc n :shape (get t :shape)) n))) +;; a value provably neither nil nor false — the back end only builds a struct +;; (vs a phm) when every value is non-nil/non-false, so a map literal is a struct +;; only when all its values have such a type. Collections are non-nil. +(defn truthy-type? [t] + (or (= t :num) (= t :str) (= t :kw) (= t :truthy) (= t :phm) + (struct-type? t) (vec-type? t) (set-type? t))) + +;; core fns whose result is a number (so it is non-nil/non-false and, for the +;; success-type checker, provably numeric). +(def num-ret-fns + #{"+" "-" "*" "/" "inc" "dec" "mod" "rem" "quot" "min" "max" "abs" + "bit-and" "bit-or" "bit-xor" "count"}) +(def vector-ret-fns #{"vec" "vector" "mapv" "filterv" "subvec"}) diff --git a/jolt-core/jolt/reader.clj b/jolt-core/jolt/reader.clj deleted file mode 100644 index 34298dd..0000000 --- a/jolt-core/jolt/reader.clj +++ /dev/null @@ -1,463 +0,0 @@ -(ns jolt.reader - "Reads Clojure source text into reader forms. - - The lexing and parsing is portable Clojure; form construction and - string->number parsing delegate to the jolt.host contract (form-make-symbol/ - char, form-char-from-name, form-scan-number). A Clojure source file can't write - a {:jolt/type :symbol} literal — it would parse as a tagged reader form — and - the concrete form representation belongs to the host. The analyzer uses the same - split. Once cross-compiled this runs on Chez to drive compile-from-source. - - Positions are character indices; for ASCII source they coincide with byte - indices, and form values are identical either way — the parity gate compares - values, not positions." - (:require [clojure.string :as str] - [jolt.host :refer [form-make-symbol form-make-char form-char-from-name - form-scan-number form-make-list form-make-vector - form-make-map form-sym-merge-meta form-make-set - form-make-tagged form-gensym-name - form-sym? form-sym-name form-sym-ns form-char? - form-list? form-vec? form-set? form-map? - form-elements form-vec-items form-set-items - form-map-pairs]])) - -;; Source access by CHARACTER codepoint -;; (identical to byte access for ASCII). cp = codepoint at i; len = character count. -(defn- cp [s i] (int (nth s i))) -(defn- len [s] (count s)) - -(defn- whitespace? [c] (or (= c 32) (= c 9) (= c 10) (= c 13) (= c 44))) ; space tab nl cr , -(defn- digit? [c] (and (>= c 48) (<= c 57))) -(defn- hex-digit? [c] - (or (digit? c) (and (>= c 65) (<= c 70)) (and (>= c 97) (<= c 102)))) -(defn- symbol-start? [c] - (or (and (>= c 65) (<= c 90)) (and (>= c 97) (<= c 122)) - (= c 42) (= c 43) (= c 33) (= c 95) (= c 45) (= c 63) (= c 46) - (= c 60) (= c 62) (= c 61) (= c 38) (= c 124) (= c 36) (= c 37) (= c 47))) -(defn- symbol-char? [c] - (or (symbol-start? c) (digit? c) (= c 35) (= c 39) (= c 58))) ; + # ' : - -(defn- skip-whitespace [s pos] - (if (and (< pos (len s)) (whitespace? (cp s pos))) - (recur s (inc pos)) - pos)) - -(defn- read-until-newline [s pos] - (if (or (>= pos (len s)) (= (cp s pos) 10)) pos (recur s (inc pos)))) - -;; --- symbols ----------------------------------------------------------------- -(defn- read-symbol-name [s pos end] - (if (and (< end (len s)) (symbol-char? (cp s end))) (recur s pos (inc end)) end)) - -(defn- read-symbol* [s pos] - (let [end (read-symbol-name s pos pos)] - (when (= end pos) - (throw (ex-info (str "Unrecognized character: " (char (cp s pos))) {}))) - (let [nm (subs s pos end)] - (cond - (= nm "nil") [nil end] - (= nm "true") [true end] - (= nm "false") [false end] - :else [(form-make-symbol nm) end])))) - -;; --- keywords ---------------------------------------------------------------- -(defn- read-keyword-name [s pos end] - (if (and (< end (len s)) (symbol-char? (cp s end))) (recur s pos (inc end)) end)) - -(defn- read-keyword* [s pos] - ;; pos is at the first colon; ::foo is treated as :foo (no auto-resolution). - (let [start (if (and (< (inc pos) (len s)) (= (cp s (inc pos)) 58)) (+ pos 2) (inc pos)) - end (read-keyword-name s start start)] - [(keyword (subs s start end)) end])) - -;; --- strings ----------------------------------------------------------------- -(defn- escape-char [c] - (cond (= c 110) "\n" (= c 116) "\t" (= c 114) "\r" (= c 92) "\\" (= c 34) "\"" - :else (str (char c)))) - -(defn- read-string* [s pos] - ;; pos at opening double-quote - (loop [p (inc pos) acc []] - (when (>= p (len s)) (throw (ex-info "Unterminated string" {}))) - (let [c (cp s p)] - (cond - (= c 92) (let [np (inc p)] - (when (>= np (len s)) (throw (ex-info "Unterminated escape" {}))) - (recur (+ p 2) (conj acc (escape-char (cp s np))))) - (= c 34) [(apply str acc) (inc p)] - :else (recur (inc p) (conj acc (str (char c)))))))) - -;; --- numbers ----------------------------------------------------------------- -(defn- read-digits [s pos end] - (if (and (< end (len s)) (digit? (cp s end))) (recur s pos (inc end)) end)) -(defn- read-hex-digits [s pos end] - (if (and (< end (len s)) (hex-digit? (cp s end))) (recur s pos (inc end)) end)) - -;; Value of an alphanumeric digit for radix parsing (0-9, a-z/A-Z = 10-35). -(defn- radix-digit-val [c] - (cond - (and (>= c 48) (<= c 57)) (- c 48) - (and (>= c 97) (<= c 122)) (+ 10 (- c 97)) - (and (>= c 65) (<= c 90)) (+ 10 (- c 65)) - :else nil)) -(defn- read-alnum [s pos end] - (if (and (< end (len s)) (radix-digit-val (cp s end))) (recur s pos (inc end)) end)) - -(defn- read-exponent [s end] - ;; if s[end] is e/E (optionally signed) followed by digits, return index past it - (if (and (< end (len s)) (let [c (cp s end)] (or (= c 101) (= c 69)))) - (let [p (if (and (< (inc end) (len s)) (let [c (cp s (inc end))] (or (= c 43) (= c 45)))) - (+ end 2) (inc end)) - de (read-digits s p p)] - (if (> de p) de end)) - end)) - -;; Jolt has no bignum/ratio: N (bigint) / M (bigdec) suffixes read as the plain -;; number, a ratio a/b reads as the double quotient, radixed ints by base. -(defn- read-number* [s pos] - (let [length (len s) - ;; optional leading sign: - negates; + is a positive no-op (Clojure reads - ;; +5 as 5). read-form only dispatches +digit/-digit, so the sign is real. - neg (and (< pos length) (= (cp s pos) 45)) - plus (and (< pos length) (= (cp s pos) 43)) - start (if (or neg plus) (inc pos) pos) - hex? (and (< (inc start) length) (= (cp s start) 48) - (let [c1 (cp s (inc start))] (or (= c1 120) (= c1 88))))] ; 0x / 0X - (if hex? - (let [hs (+ start 2) he (read-hex-digits s hs hs)] - (when (= he hs) (throw (ex-info "Expected hex digits" {}))) - (let [he2 (if (and (< he length) (= (cp s he) 78)) (inc he) he) ; trailing N - val (form-scan-number (str "0x" (subs s hs he)))] - [(if neg (- val) val) he2])) - (let [iend (read-digits s start start)] - (when (= iend start) (throw (ex-info "Expected number" {}))) - (cond - ;; radix integer r - (and (< iend length) (let [c (cp s iend)] (or (= c 114) (= c 82)))) - (let [base (form-scan-number (subs s start iend)) - ds (inc iend) de (read-alnum s ds ds)] - (when (= de ds) (throw (ex-info "Expected radix digits" {}))) - (let [acc (reduce (fn [a i] (+ (* a base) (radix-digit-val (cp s i)))) 0 (range ds de))] - [(if neg (- acc) acc) de])) - ;; ratio / (only when a digit follows the slash) - (and (< (inc iend) length) (= (cp s iend) 47) (digit? (cp s (inc iend)))) - (let [ds (inc iend) de (read-digits s ds ds) - numr (form-scan-number (subs s start iend)) - den (form-scan-number (subs s ds de))] - [(if neg (- (/ numr den)) (/ numr den)) de]) - ;; fractional and/or exponent, optional trailing N/M - :else - (let [frac-end (if (and (< iend length) (= (cp s iend) 46)) - (let [fs (inc iend) fe (read-digits s fs fs)] - (when (= fe fs) (throw (ex-info "Expected digit after ." {}))) - fe) - iend) - exp-end (read-exponent s frac-end) - val (form-scan-number (subs s start exp-end)) - fin (if (and (< exp-end length) (let [c (cp s exp-end)] (or (= c 78) (= c 77)))) - (inc exp-end) exp-end)] - [(if neg (- val) val) fin])))))) - -;; --- characters -------------------------------------------------------------- -(defn- read-char-name-end [s pos] - (if (and (< pos (len s)) (symbol-char? (cp s pos))) (recur s (inc pos)) pos)) - -(defn- read-char* [s pos] - (when (>= (inc pos) (len s)) (throw (ex-info "unexpected end of input after \\" {}))) - (let [end (read-char-name-end s (inc pos))] - (if (= end (inc pos)) - ;; a non-symbol char right after \ is a one-character literal of itself - [(form-make-char (cp s (inc pos))) (+ pos 2)] - [(form-char-from-name (subs s (inc pos) end)) end]))) - -;; --- dispatcher -------------------------------------------------------------- -;; read-form returns a CONTROL triple [kind payload pos]: -;; :form payload=the form a real datum -;; :skip payload=nil a comment (;) or #_ discard — produced nothing -;; :splice payload=items-vector #?@ — contributes 0+ items to the enclosing coll -;; Out-of-band control (rather than :jolt/skip / :jolt/splice sentinel -;; FORMS) keeps it collision-free and host-neutral — no tagged-struct to build or -;; recognize. Collection readers dispatch on kind; read-next-form skips :skip. -(declare read-form) - -(defn- number-start? [s pos c] - (or (digit? c) - (and (= c 45) (< (inc pos) (len s)) (digit? (cp s (inc pos)))) - (and (= c 43) (< (inc pos) (len s)) (digit? (cp s (inc pos)))))) - -;; Read items until `close`, dispatching control kinds. Returns [items-vec end]. -(defn- read-delimited [s start-pos close errmsg] - (loop [pos start-pos items []] - (let [pos (skip-whitespace s pos)] - (when (>= pos (len s)) (throw (ex-info errmsg {}))) - (if (= (cp s pos) close) - [items (inc pos)] - (let [[kind payload np] (read-form s pos)] - (case kind - :skip (recur np items) - :splice (recur np (into items payload)) - :form (recur np (conj items payload)))))))) - -(defn- read-list* [s pos] - (let [[items end] (read-delimited s (inc pos) 41 "Unterminated list")] ; ) - [:form (form-make-list items) end])) - -(defn- read-vector* [s pos] - (let [[items end] (read-delimited s (inc pos) 93 "Unterminated vector")] ; ] - [:form (form-make-vector items) end])) - -;; Map: pair up keys and values, skipping comments/#_ in either slot while keeping -;; the pending key (dropping both desyncs the pairing). A key/value is always a -;; single :form (or :skip) — splice in a map slot is not supported. -(defn- read-map* [s pos] - (loop [pos (inc pos) kvs []] - (let [pos (skip-whitespace s pos)] - (when (>= pos (len s)) (throw (ex-info "Unterminated map" {}))) - (if (= (cp s pos) 125) ; } - [:form (form-make-map kvs) (inc pos)] - (let [[kk kp knp] (read-form s pos)] - (if (= kk :skip) - (recur knp kvs) - ;; key in hand; read the value slot, skipping trivia but keeping the key - (let [[v vnp] - (loop [vp (skip-whitespace s knp)] - (when (>= vp (len s)) (throw (ex-info "Unterminated map" {}))) - (let [[vk vp2 vnp2] (read-form s vp)] - (if (= vk :skip) (recur (skip-whitespace s vnp2)) [vp2 vnp2])))] - (recur vnp (conj (conj kvs kp) v))))))))) - -;; Read the next REAL form (skip :skip), returning [form pos]. Used wherever a -;; single datum is needed (quote/meta/top level). -(defn- read-next-form [s pos] - (let [[kind payload np] (read-form s pos)] - (case kind - :skip (recur s np) - :form [payload np] - :splice (throw (ex-info "splice (#?@) not inside a collection" {}))))) - -;; syntax-quote of a self-evaluating literal collapses to the literal at read time -;; (so nested backticks over literals are inert). NOT symbols (they qualify) or -;; collections (they template). -(defn- self-evaluating-literal? [form] - (or (nil? form) (true? form) (false? form) (number? form) - (string? form) (keyword? form) (form-char? form))) - -(defn- read-quote* [s newpos token-sym] - (let [[form finalpos] (read-next-form s newpos)] - (if (and (= "syntax-quote" (form-sym-name token-sym)) (self-evaluating-literal? form)) - [:form form finalpos] - [:form (form-make-list [token-sym form]) finalpos]))) - -;; Normalize a metadata reader form: keyword -> {kw true}; symbol/string -> {:tag …} -;; (a symbol tag keeps its ns qualifier); else nil (a map-literal meta). -(defn- meta-form->map [meta-form] - (cond - (keyword? meta-form) {meta-form true} - (form-sym? meta-form) {:tag (if (form-sym-ns meta-form) - (str (form-sym-ns meta-form) "/" (form-sym-name meta-form)) - (form-sym-name meta-form))} - (string? meta-form) {:tag meta-form} - :else nil)) - -(defn- read-meta* [s pos] - ;; pos at ^ - (let [[meta-form np] (read-next-form s (inc pos)) - [form np2] (read-next-form s np) - m (meta-form->map meta-form)] - (if (and m (form-sym? form)) - ;; attach to the symbol itself (^Type x / ^:dynamic) — stays a bare symbol - [:form (form-sym-merge-meta form m) np2] - ;; non-symbol target -> a runtime with-meta form (normalized map, or the - ;; raw map-literal meta when m is nil) - [:form (form-make-list [(form-make-symbol "with-meta") form (if m m meta-form)]) np2]))) - -;; --- dispatch (#) ------------------------------------------------------------ -;; Reader-conditional feature set (spec 02-reader). jolt's portable default; the -;; JOLT_FEATURES env override is a host concern wired later. :default always honored. -(def reader-features (atom #{:jolt :default})) -(defn set-reader-features! [features] (reset! reader-features (conj (set features) :default))) - -(defn- read-set* [s pos] - ;; pos at #, next char { - (let [[items end] (read-delimited s (+ pos 2) 125 "Unterminated set")] ; } - [:form (form-make-set items) end])) - -(defn- read-var-quote* [s pos] - ;; pos at #, next char ' - (let [[form np] (read-next-form s (+ pos 2))] - [:form (form-make-list [(form-make-symbol "var") form]) np])) - -(defn- read-regex* [s pos] - ;; pos at #, next char "; read raw to the unescaped closing " (backslashes kept) - (loop [i (+ pos 2)] - (when (>= i (len s)) (throw (ex-info "Unterminated regex literal" {}))) - (let [c (cp s i)] - (cond - (= c 92) (recur (+ i 2)) ; backslash escapes next char - (= c 34) [:form (form-make-tagged :regex (subs s (+ pos 2) i)) (inc i)] - :else (recur (inc i)))))) - -;; #?(…) / #?@(…): pick the first clause whose feature key is active (clause order, -;; like Clojure). #? -> :skip when the result is nil (e.g. a :cljs branch); #?@ -> -;; :splice the resolved items into the enclosing collection. -(defn- rc-resolve [clauses] - ;; clauses: a jolt vector of [feature-kw form feature-kw form ...] - (loop [i 0] - (if (>= i (count clauses)) - [false nil] - (if (contains? @reader-features (nth clauses i)) - [true (nth clauses (inc i))] - (recur (+ i 2)))))) - -(defn- read-reader-conditional* [s pos] - ;; pos at #, next char ? (optionally ?@) - (let [splice? (and (< (+ pos 2) (len s)) (= (cp s (+ pos 2)) 64)) ; @ - form-start (if splice? (+ pos 3) (+ pos 2)) - [form np] (read-next-form s form-start)] - (if (form-list? form) - (let [clauses (form-elements form) - [matched result] (rc-resolve clauses)] - (if splice? - (let [items (cond (not matched) [] - (form-list? result) (vec (form-elements result)) - (form-vec? result) (vec (form-vec-items result)) - :else [result])] - [:splice items np]) - (if (or (not matched) (nil? result)) [:skip nil np] [:form result np]))) - (throw (ex-info "reader conditional body must be a list" {}))))) - -;; Symbolic values ##Inf ##-Inf ##NaN. -(defn- read-symbolic* [s pos] - (let [end (read-symbol-name s (+ pos 2) (+ pos 2)) - nm (subs s (+ pos 2) end)] - (cond - (= nm "Inf") [:form ##Inf end] - (= nm "-Inf") [:form ##-Inf end] - (= nm "NaN") [:form ##NaN end] - :else (throw (ex-info (str "Invalid symbolic value: ##" nm) {}))))) - -(defn- read-tagged* [s pos] - ;; unknown dispatch -> a tagged literal (#inst, #uuid, #foo). The tag includes - ;; the leading # (read-symbol-name starts at #). - (let [end (read-symbol-name s pos pos) - tag (subs s pos end) - [form np] (read-next-form s end)] - [:form (form-make-tagged (keyword tag) form) np])) - -(declare read-anon-fn*) - -(defn- read-dispatch* [s pos] - ;; pos at # - (when (>= (inc pos) (len s)) (throw (ex-info "Unexpected end after #" {}))) - (let [c (cp s (inc pos))] - (cond - (= c 123) (read-set* s pos) ; #{ - (= c 40) (read-anon-fn* s pos) ; #( - (= c 63) (read-reader-conditional* s pos) ; #? - (= c 95) (let [[_ _ np] (read-form s (+ pos 2))] [:skip nil np]) ; #_ discard - (= c 39) (read-var-quote* s pos) ; #' - (= c 94) (read-meta* s (inc pos)) ; #^ (deprecated, = ^) - (= c 34) (read-regex* s pos) ; #" - (= c 35) (read-symbolic* s pos) ; ## - :else (read-tagged* s pos)))) - -;; #(...) anonymous fn. Positional %-arg index: % and %1 => 1, %N => N, %& => the -;; rest param (:rest); anything else is not positional (nil). Fixed arity = max -;; index used (Clojure: #(do %2 %&) => [p1 p2 & rest], unused lower slots still -;; get a placeholder param). -(defn- pct-index [nm] - (cond - (= nm "%") 1 - (= nm "%&") :rest - (and (> (count nm) 1) (= "%" (subs nm 0 1))) - (let [n (form-scan-number (subs nm 1))] - (if (and n (integer? n) (>= n 1)) n nil)) - :else nil)) - -;; Pass 1: collect every %-index used anywhere in the form tree. -(defn- collect-pcts [form acc] - (cond - (form-sym? form) (let [i (pct-index (form-sym-name form))] (if i (conj acc i) acc)) - (form-list? form) (reduce (fn [a x] (collect-pcts x a)) acc (form-elements form)) - (form-vec? form) (reduce (fn [a x] (collect-pcts x a)) acc (form-vec-items form)) - (form-set? form) (reduce (fn [a x] (collect-pcts x a)) acc (form-set-items form)) - (form-map? form) (reduce (fn [a p] (collect-pcts (nth p 1) (collect-pcts (nth p 0) a))) - acc (form-map-pairs form)) - :else acc)) - -;; Pass 2: replace each %-symbol with its slot's gensym (rebuilding collections). -(defn- replace-pct [form slot-syms rest-sym] - (cond - (form-sym? form) (let [idx (pct-index (form-sym-name form))] - (cond (= idx :rest) rest-sym - idx (get slot-syms idx) - :else form)) - (form-list? form) (form-make-list (mapv #(replace-pct % slot-syms rest-sym) (form-elements form))) - (form-vec? form) (form-make-vector (mapv #(replace-pct % slot-syms rest-sym) (form-vec-items form))) - (form-set? form) (form-make-set (mapv #(replace-pct % slot-syms rest-sym) (form-set-items form))) - (form-map? form) (form-make-map - (vec (mapcat (fn [p] [(replace-pct (nth p 0) slot-syms rest-sym) - (replace-pct (nth p 1) slot-syms rest-sym)]) - (form-map-pairs form)))) - :else form)) - -(defn- gensym-param [] (form-make-symbol (str (form-gensym-name) "#"))) - -(defn- read-anon-fn* [s pos] - ;; pos at #, next char ( - (let [[form np] (read-next-form s (inc pos)) - pcts (collect-pcts form []) - max-n (reduce (fn [m i] (if (and (number? i) (> i m)) i m)) 0 pcts) - has-rest (boolean (some #(= :rest %) pcts)) - slot-syms (into {} (map (fn [i] [i (gensym-param)]) (range 1 (inc max-n)))) - rest-sym (when has-rest (gensym-param)) - replaced (replace-pct form slot-syms rest-sym) - arg-names (let [base (mapv #(get slot-syms %) (range 1 (inc max-n)))] - (if has-rest (conj base (form-make-symbol "&") rest-sym) base))] - [:form (form-make-list [(form-make-symbol "fn*") (form-make-vector arg-names) replaced]) np])) - -(defn read-form [s pos] - (let [pos (skip-whitespace s pos)] - (if (>= pos (len s)) - [:form nil pos] - (let [c (cp s pos)] - (cond - (= c 59) [:skip nil (read-until-newline s pos)] ; ; comment - (= c 34) (let [r (read-string* s pos)] [:form (nth r 0) (nth r 1)]) - (= c 58) (let [r (read-keyword* s pos)] [:form (nth r 0) (nth r 1)]) - (= c 92) (let [r (read-char* s pos)] [:form (nth r 0) (nth r 1)]) - (= c 40) (read-list* s pos) ; ( - (= c 91) (read-vector* s pos) ; [ - (= c 123) (read-map* s pos) ; { - (= c 39) (read-quote* s (inc pos) (form-make-symbol "quote")) ; ' - (= c 96) (read-quote* s (inc pos) (form-make-symbol "syntax-quote")) ; ` - (= c 126) (if (and (< (inc pos) (len s)) (= (cp s (inc pos)) 64)) ; ~ / ~@ - (read-quote* s (+ pos 2) (form-make-symbol "unquote-splicing")) - (read-quote* s (inc pos) (form-make-symbol "unquote"))) - (= c 64) (read-quote* s (inc pos) (form-make-symbol "clojure.core/deref")) ; @ - (= c 94) (read-meta* s pos) ; ^ - (= c 41) (throw (ex-info "Unmatched delimiter: )" {})) - (= c 93) (throw (ex-info "Unmatched delimiter: ]" {})) - (= c 125) (throw (ex-info "Unmatched delimiter: }" {})) - (= c 35) (read-dispatch* s pos) ; # - (number-start? s pos c) (let [r (read-number* s pos)] [:form (nth r 0) (nth r 1)]) - (symbol-start? c) (let [r (read-symbol* s pos)] [:form (nth r 0) (nth r 1)]) - :else (throw (ex-info (str "read-form: unexpected char '" (char c) "' (" c ")") {}))))))) - -(defn read-one - "Read the first form of `s` (skipping leading trivia). Returns the form." - [s] - (first (read-next-form s 0))) - -(defn read-all - "Read every top-level form of `s`, returning them in a vector (trivia skipped)." - [s] - (loop [pos 0 acc []] - (let [p (skip-whitespace s pos)] - (if (>= p (len s)) - acc - (let [[kind payload np] (read-form s p)] - (case kind - :skip (recur np acc) - :splice (recur np (into acc payload)) - :form (recur np (conj acc payload)))))))) diff --git a/stdlib/clojure/edn.clj b/stdlib/clojure/edn.clj index c81285c..b67268e 100644 --- a/stdlib/clojure/edn.clj +++ b/stdlib/clojure/edn.clj @@ -55,12 +55,10 @@ PushbackReader, io/reader results) expose char-wise .read; a raw file handle is read whole." [reader] - (if (= :core/file (janet/type reader)) - (janet.file/read reader :all) - (loop [acc (transient []) c (.read reader)] - (if (== -1 c) - (apply str (map char (persistent! acc))) - (recur (conj! acc c) (.read reader)))))) + (loop [acc (transient []) c (.read reader)] + (if (== -1 c) + (apply str (map char (persistent! acc))) + (recur (conj! acc c) (.read reader))))) (defn read "Reads one EDN object from reader (a PushbackReader or any jolt reader). diff --git a/stdlib/clojure/string.clj b/stdlib/clojure/string.clj index 7cda7dc..e37eb9f 100644 --- a/stdlib/clojure/string.clj +++ b/stdlib/clojure/string.clj @@ -96,15 +96,6 @@ [s] (str-trimr s)) -(defn trim-newline - - [s] - (var result s) - (while (or (= (subs result (dec (count result))) "\n") - (= (subs result (dec (count result))) "\r")) - (set result (subs result 0 (dec (count result))))) - result) - (defn escape [s cmap]