host/chez/multimethods.ss implements the multimethod runtime: defmulti/defmethod expand to defmulti-setup/defmethod-setup calls (+ get-method/methods/ remove-method/prefer-method/prefers). A jolt-multifn record carries its dispatch fn and a jolt=-keyed method table; jolt-invoke dispatches it (exact match, then isa?/hierarchy with prefer-method, then :default), reusing the overlay's isa?/derive/make-hierarchy. The multifn's ns comes from a runtime chez-current-ns (default user; the prelude load sets clojure.core for print-method/print-dup). Two emit-side changes were needed: - late-bind (:late-bind-unresolved? ctx flag, default OFF): defmulti expands to a bare-symbol setup call, so the analyzer doesn't intern the name and a forward reference '(area ...)' after '(defmulti area ...)' in one form was 'Unable to resolve symbol'. The strict compiler punts these to the interpreter; the Chez back end has none, so the flag lowers an unresolved symbol to a var-ref against the compile ns (open-world -e semantics). Set only by the Chez make-ctx / jolt-chez; the main compiler keeps strict resolution (host_iface late-bind? defaults nil). - a :var call head now routes through jolt-invoke, since a late-bound var can hold a multifn (or keyword/coll IFn), not just a procedure. Transparent for procedures; the hot self-recursive call is a :local known-proc, stays direct. Class-based dispatch ((class x)/String) deferred (needs deftype/class subsystem). Parity 1506 -> 1530/2497, 0 new divergences. emit-test 302/302. Full janet gate green (the analyzer flag is off there; suite flakiness under parallel load only).
178 lines
8.1 KiB
Text
178 lines
8.1 KiB
Text
# Phase 1 (jolt-cf1q.2) — live-analyzer -> Chez driver.
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#
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# Boots a real jolt ctx, runs the EXISTING Janet-hosted analyzer on actual
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# Clojure source to produce host-neutral IR, feeds that IR to the Scheme emitter
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# (emit.janet), and assembles a runnable Chez program. This is the Option-2
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# backend swap end to end: same front end, Scheme back end, run on Chez.
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#
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# Analysis still happens on Janet here (the analyzer is portable Clojure but not
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# yet bootstrapped onto Chez — that's Phase 2); EXECUTION happens on Chez. The
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# point of this increment is to validate that the real IR the analyzer emits
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# compiles to correct, fast Scheme.
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(import ../../src/jolt/api :as api)
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(import ../../src/jolt/backend :as backend)
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(import ../../src/jolt/reader :as r)
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(import ../../src/jolt/evaluator :as evlr)
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(import ../../src/jolt/types_ctx :as tctx)
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(import ./emit :as emit)
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(defn chez-available?
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"True when a `chez` binary is on PATH — lets the chez tests skip cleanly on
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hosts without it (CI without Chez), like the clojure-test-suite skips when its
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corpus dir is absent."
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[]
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(def r (protect (let [p (os/spawn ["chez" "--version"] :p {:out :pipe :err :pipe})]
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(ev/read (p :out) 1024)
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(ev/read (p :err) 1024)
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(os/proc-wait p))))
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(and (r 0) (zero? (r 1))))
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(defn make-ctx []
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"A compile-mode jolt ctx (the analyzer pipeline is only built under :compile?).
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Late-bind unresolved symbols: the Chez back end has no interpreter to punt to,
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so a forward reference to a runtime-interned var (defmulti/defmethod's setup
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call) lowers to a var-deref instead of failing to compile (jolt-9ls5)."
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(def ctx (api/init {:compile? true}))
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(put (get ctx :env) :late-bind-unresolved? true)
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ctx)
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(defn- parse-all [src]
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(def out @[])
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(var s src)
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(while (> (length (string/trim s)) 0)
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(def parsed (r/parse-next s))
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(set s (in parsed 1))
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(def f (in parsed 0))
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(unless (nil? f) (array/push out f)))
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out)
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(defn compile-program
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"Compile a Clojure program string to a runnable Chez program. Every top-level
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form is analyzed to real IR and emitted to Scheme; all but the LAST form are
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treated as defs (also interned in the ctx so later forms resolve their vars),
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and the last form is the expression whose value the program prints."
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[ctx src]
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(def forms (parse-all src))
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(assert (> (length forms) 0) "compile-program: empty program")
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(def n (length forms))
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(def def-scm @[])
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(for i 0 (- n 1)
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(def f (in forms i))
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# emit the def, then intern it (interpreted) so a later form's reference to
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# this var resolves to a :var node rather than an unresolved symbol.
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(array/push def-scm (emit/emit (backend/analyze-form ctx f)))
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(evlr/eval-form ctx @{} f))
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(def final-scm (emit/emit (backend/analyze-form ctx (in forms (- n 1)))))
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(emit/program def-scm final-scm))
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(defn run-on-chez
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"Compile `src` and run it on Chez; returns [exit-code stdout stderr]."
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[ctx src &opt scheme-out]
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(def prog (compile-program ctx src))
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(def path (or scheme-out "/tmp/chez-jolt-prog.ss"))
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(spit path prog)
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(def proc (os/spawn ["chez" "--script" path] :p {:out :pipe :err :pipe}))
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(def out (ev/read (proc :out) 0x100000))
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(def err (ev/read (proc :err) 0x100000))
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(def code (os/proc-wait proc))
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[code (string/trim (if out (string out) "")) (string/trim (if err (string err) ""))])
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# --- clojure.core prelude assembly (jolt-9ziu) --------------------------------
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# The -e-capable jolt-chez path: emit EVERY non-macro clojure.core form across
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# the dependency-ordered tiers as a def-var! in prelude mode, concatenated into
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# a Scheme prelude loaded before the user expression. var-deref then resolves any
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# core fn at runtime from the prelude's own def-var! cells. Macros are skipped
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# (analyze-time only — the Janet analyzer expands them before emit, so they have
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# no runtime value). Each form is wrapped in a tolerant load guard so a form that
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# fails to LOAD (currently only the Phase-2 multimethod defmulti/defmethod
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# print-method forms) doesn't break the rest of the prelude; it logs to stderr
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# and becomes a lazy gap rather than a hard prelude failure.
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(def core-tier-files
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["00-syntax" "00-kernel" "10-seq" "20-coll" "25-sorted" "30-macros" "40-lazy" "50-io"])
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(defn- sym-name [x]
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(when (and (struct? x) (= :symbol (get x :jolt/type))) (get x :name)))
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(defn- macro-form? [f]
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(and (indexed? f) (> (length f) 0)
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(let [h (sym-name (in f 0))] (and h (or (= h "defmacro") (= h "definline"))))))
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(defn- form-label [f]
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(if (and (indexed? f) (> (length f) 1))
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(let [h (or (sym-name (in f 0)) "?") n (sym-name (in f 1))] (if n (string h " " n) h))
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"?"))
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(defn emit-core-prelude
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"Assemble the clojure.core prelude as a Scheme string. `ctx` must be a
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compile-mode ctx; its current ns is set to clojure.core for the duration.
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Returns [scheme emitted total skipped-load-guards-unknown]; `scheme` is the
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joined, guard-wrapped def-var! forms (no rt.ss load — add that at program
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assembly via emit/program or program-with-prelude)."
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[ctx &opt core-dir]
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(default core-dir "jolt-core/clojure/core/")
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(emit/set-prelude-mode! true)
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(def prev-ns (tctx/ctx-current-ns ctx))
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(tctx/ctx-set-current-ns ctx "clojure.core")
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(def out @[])
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(var total 0) (var emitted 0)
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(each tf core-tier-files
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(def src (slurp (string core-dir tf ".clj")))
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(each f (parse-all src)
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(unless (macro-form? f)
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(++ total)
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(def res (protect (emit/emit (backend/analyze-form ctx f))))
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(when (res 0)
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(++ emitted)
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# Tolerant load guard: a form that fails to LOAD (currently only the 8
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# Phase-2 multimethod print-method forms in 50-io) is swallowed so it
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# doesn't break the rest of the prelude — it becomes a lazy gap (the var
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# cell stays nil; calling it surfaces in the parity gate's crash bucket).
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# Silent to keep a real -e's stderr clean; the known set is documented.
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(array/push out
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(string "(guard (e (#t #f))\n " (res 1) ")"))))))
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(tctx/ctx-set-current-ns ctx prev-ns)
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(emit/set-prelude-mode! false)
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[(string/join out "\n") emitted total])
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(defn program-with-prelude
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"Assemble a runnable Chez program that loads rt.ss, loads the assembled core
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prelude from `prelude-path` (a file written once), then prints `final-scm`."
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[prelude-path final-scm]
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(string
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"(import (chezscheme))\n"
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"(load \"host/chez/rt.ss\")\n"
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# the prelude's defmultis (print-method/print-dup) must land in clojure.core,
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# not the default user ns (jolt-9ls5); set the multimethod current-ns around
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# the prelude load, then restore it to user for the program form.
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"(set-chez-ns! \"clojure.core\")\n"
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"(load " (string/format "%j" prelude-path) ")\n"
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# native-wins overrides for overlay predicates that read :jolt/type (char?,
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# atom?) — must load AFTER the prelude's own def-var! to take effect.
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"(load \"host/chez/post-prelude.ss\")\n"
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"(set-chez-ns! \"user\")\n"
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"(printf \"~a\\n\" (jolt-final-str " final-scm "))\n"))
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(defn eval-e-with-prelude
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"Run a single user expression `src` on Chez with the full clojure.core prelude
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(loaded from `prelude-path`). Emits `src` in prelude mode so any core ref
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resolves via var-deref. Returns [code stdout stderr], or [:emit-err msg \"\"]
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if the user form itself can't be emitted."
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[ctx src prelude-path &opt scheme-out]
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(emit/set-prelude-mode! true)
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(def form (in (r/parse-next src) 0))
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(def res (protect (emit/emit (backend/analyze-form ctx form))))
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(emit/set-prelude-mode! false)
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(if (not (res 0))
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[:emit-err (string (res 1)) ""]
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(let [prog (program-with-prelude prelude-path (res 1))
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# PID-unique default so concurrent processes (a foreground -e while the
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# parity gate runs) never read each other's half-written program file.
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path (or scheme-out (string "/tmp/jolt-chez-e-" (os/getpid) ".ss"))]
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(spit path prog)
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(def proc (os/spawn ["chez" "--script" path] :p {:out :pipe :err :pipe}))
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(def out (ev/read (proc :out) 0x100000))
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(def err (ev/read (proc :err) 0x100000))
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(def code (os/proc-wait proc))
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[code (string/trim (if out (string out) "")) (string/trim (if err (string err) ""))])))
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