Chez Phase 3 inc8: prelude fixpoint + fully-Chez-emitted system
Extends the fixpoint beyond the compiler image to the whole emitted system. emit-image.ss now handles macros (defmacro -> bare expander fn + def-var! + mark-macro!) and re-emits the clojure.core prelude (all tiers + stdlib) on Chez via jolt-emit-prelude; driver's emit-image-on-chez takes an emit-fn arg. The prelude converges at pstage3==pstage4 (one stage later than the compiler's stage2==stage3) because macro expanders bake an auto-gensym id at emit time, so a Janet-emitted macro carries a different id than a Chez-emitted one — only once both stages load a Chez-emitted prelude does it stabilize. fixpoint-test now proves: compiler stage2==stage3, prelude pstage3==pstage4, and the fully Chez-emitted system (Chez prelude + Chez image, no Janet artifact in the loop) compiles+runs real cases. 10/10.
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# Chez Phase 3 inc8 (jolt-bzni) — the stage2==stage3 self-hosting fixpoint.
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# Chez Phase 3 inc8 (jolt-bzni) — the self-hosting bootstrap fixpoint.
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#
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# The zero-Janet spine (spine-test / run-corpus-zero-janet) proves the ON-CHEZ
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# analyzer+emitter compile arbitrary Clojure faithfully. This proves the stronger
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# property from self-hosting-bootstrap-research §4: the on-Chez compiler reproduces
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# ITSELF. The compiler image (jolt.ir + jolt.analyzer + jolt.backend-scheme cross-
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# compiled to Scheme def-var! forms) is built three ways:
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# property from self-hosting-bootstrap-research §4: the emitted system reproduces
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# ITSELF. Two artifacts are re-emitted ON CHEZ by the loaded compiler:
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#
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# stage1 = Janet analyzer/emitter cross-compiles the compiler sources
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# (driver/emit-compiler-image — the current bootstrap input)
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# stage2 = the ON-CHEZ compiler loaded from stage1 re-emits the same sources
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# (driver/emit-image-on-chez, host/chez/emit-image.ss)
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# stage3 = the ON-CHEZ compiler loaded from stage2 re-emits them again
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# COMPILER IMAGE (jolt.ir + jolt.analyzer + jolt.backend-scheme)
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# stage1 = Janet analyzer/emitter cross-compiles the sources (the bootstrap input)
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# stage2 = the on-Chez compiler (from stage1) re-emits them
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# stage3 = the on-Chez compiler (from stage2) re-emits them
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# FIXPOINT: stage2 == stage3 (stage1 differs only in gensym numbering — the
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# Janet build allocates more gensyms before reaching the compiler emit).
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#
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# stage1 differs from stage2 only in gensym numbering (the Janet build allocates
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# more gensyms before reaching the compiler emit), so the fixpoint is stage2 vs
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# stage3: both are produced by Chez from a fresh process, so a byte-for-byte match
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# means the compiler has converged — it compiles its own source to itself. We also
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# run real compile+eval cases THROUGH stage2 to prove it's a working compiler, not
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# a degenerate one that just happens to be stable.
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# CORE PRELUDE (clojure.core tiers + clojure.string/walk/template/edn/set/pprint)
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# pstage2 = on-Chez compiler re-emits the prelude with the JANET prelude loaded
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# pstage3 = ... with pstage2 loaded
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# pstage4 = ... with pstage3 loaded
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# FIXPOINT: pstage3 == pstage4. The prelude converges one stage later than the
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# compiler because its MACRO expanders bake an auto-gensym id (foo#) at emit
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# time, so a macro emitted by Janet (pstage2's loaded prelude) carries a
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# different baked id than one emitted by Chez — only once BOTH stages load a
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# Chez-emitted prelude (pstage3 onward) does it stabilize.
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#
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# Finally we load the FULLY Chez-emitted system (Chez prelude + Chez compiler
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# image, NO Janet-emitted artifact in the loop) and run real cases, proving the
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# fixpoint is a working compiler, not a degenerate stable one.
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#
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# janet test/chez/fixpoint-test.janet
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(import ../../host/chez/driver :as d)
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@ -34,10 +41,10 @@
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(os/exit 0))
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(def ctx (d/make-ctx))
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(def prelude-path (jc/ensure-prelude ctx))
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(def jprelude (jc/ensure-prelude ctx))
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# stage1: the Janet cross-compiled image, cached by source fingerprint (same scheme
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# as spine-test / run-corpus-zero-janet).
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# stage1: the Janet cross-compiled compiler image, cached by source fingerprint
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# (same scheme as spine-test / run-corpus-zero-janet).
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(defn- image-fingerprint []
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(string/slice (string (hash (string/join
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(map slurp ["jolt-core/jolt/ir.clj" "jolt-core/jolt/analyzer.clj"
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@ -45,65 +52,75 @@
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"host/chez/compile-eval.ss"])))) 0))
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(def tmp (or (os/getenv "TMPDIR") "/tmp"))
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(def stage1 (string tmp "/jolt-compiler-image-" (image-fingerprint) ".ss"))
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(def t0 (os/clock))
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(d/ensure-compiler-image ctx stage1)
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(printf "stage1 (Janet cross-compile): %d bytes (%.1fs)" (length (slurp stage1)) (- (os/clock) t0))
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(printf "stage1 compiler image (Janet cross-compile): %d bytes" (length (slurp stage1)))
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(flush)
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# stage2 = on-Chez compiler (from stage1) re-emits the compiler. Fresh temp path so
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# it always regenerates.
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(def stage2 (string tmp "/jolt-fixpoint-stage2-" (os/getpid) ".ss"))
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(def stage3 (string tmp "/jolt-fixpoint-stage3-" (os/getpid) ".ss"))
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(def t1 (os/clock))
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(def [c2 e2] (d/emit-image-on-chez prelude-path stage1 stage2))
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(ok "stage2 emits cleanly on Chez" (and (= c2 0) (os/stat stage2))
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(defn- bytes= [a b] (= (string (slurp a)) (string (slurp b))))
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(defn- first-diff [a b]
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(def s (string (slurp a))) (def t (string (slurp b)))
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(def n (min (length s) (length t)))
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(var i 0) (while (and (< i n) (= (s i) (t i))) (++ i))
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(string "sizes " (length s) " vs " (length t) ", first diff at " i))
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# ---- compiler-image fixpoint: stage2 == stage3 -------------------------------
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(def s2 (string tmp "/jolt-fixpoint-img2-" (os/getpid) ".ss"))
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(def s3 (string tmp "/jolt-fixpoint-img3-" (os/getpid) ".ss"))
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(def [c2 e2] (d/emit-image-on-chez jprelude stage1 s2))
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(ok "compiler image stage2 emits cleanly on Chez" (and (= c2 0) (os/stat s2))
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(string "exit " c2 " " (string/slice e2 0 (min 300 (length e2)))))
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(when (os/stat stage2)
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(printf "stage2 (on-Chez, from stage1): %d bytes (%.1fs)" (length (slurp stage2)) (- (os/clock) t1)))
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(flush)
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# stage3 = on-Chez compiler (from stage2) re-emits the compiler.
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(def t2 (os/clock))
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(def [c3 e3] (d/emit-image-on-chez prelude-path stage2 stage3))
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(ok "stage3 emits cleanly on Chez" (and (= c3 0) (os/stat stage3))
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(def [c3 e3] (d/emit-image-on-chez jprelude s2 s3))
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(ok "compiler image stage3 emits cleanly on Chez" (and (= c3 0) (os/stat s3))
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(string "exit " c3 " " (string/slice e3 0 (min 300 (length e3)))))
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(when (os/stat stage3)
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(printf "stage3 (on-Chez, from stage2): %d bytes (%.1fs)" (length (slurp stage3)) (- (os/clock) t2)))
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(flush)
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(when (and (os/stat s2) (os/stat s3))
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(ok "compiler image: stage2 == stage3 (byte-for-byte fixpoint)" (bytes= s2 s3)
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(first-diff s2 s3))
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(ok "compiler image is substantial (> 80KB)" (> (length (slurp s2)) 80000)))
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# THE FIXPOINT: stage2 and stage3 must be byte-for-byte identical.
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(when (and (os/stat stage2) (os/stat stage3))
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# slurp returns a buffer; Janet = on buffers is identity, so compare as strings.
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(def s2 (string (slurp stage2))) (def s3 (string (slurp stage3)))
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(ok "stage2 == stage3 (byte-for-byte fixpoint)" (= s2 s3)
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(if (= s2 s3) ""
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(string "sizes " (length s2) " vs " (length s3)
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"; first diff at "
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(let [n (min (length s2) (length s3))]
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(var i 0) (while (and (< i n) (= (s2 i) (s3 i))) (++ i)) i))))
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# A degenerate emitter (emits nothing) would also be "stable" — guard against it.
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(ok "stage2 image is substantial (> 80KB)" (> (length s2) 80000)
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(string "only " (length s2) " bytes")))
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# ---- prelude fixpoint: pstage3 == pstage4 ------------------------------------
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(def p2 (string tmp "/jolt-fixpoint-prelude2-" (os/getpid) ".ss"))
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(def p3 (string tmp "/jolt-fixpoint-prelude3-" (os/getpid) ".ss"))
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(def p4 (string tmp "/jolt-fixpoint-prelude4-" (os/getpid) ".ss"))
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(def [pc2 pe2] (d/emit-image-on-chez jprelude stage1 p2 "jolt-emit-prelude"))
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(ok "prelude pstage2 emits cleanly on Chez (from Janet prelude)" (and (= pc2 0) (os/stat p2))
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(string "exit " pc2 " " (string/slice pe2 0 (min 300 (length pe2)))))
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(when (os/stat p2)
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(def [pc3 pe3] (d/emit-image-on-chez p2 stage1 p3 "jolt-emit-prelude"))
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(ok "prelude pstage3 emits cleanly on Chez (from pstage2)" (and (= pc3 0) (os/stat p3))
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(string "exit " pc3 " " (string/slice pe3 0 (min 300 (length pe3)))))
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(when (os/stat p3)
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(def [pc4 pe4] (d/emit-image-on-chez p3 stage1 p4 "jolt-emit-prelude"))
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(ok "prelude pstage4 emits cleanly on Chez (from pstage3)" (and (= pc4 0) (os/stat p4))
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(string "exit " pc4 " " (string/slice pe4 0 (min 300 (length pe4)))))
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(when (os/stat p4)
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(ok "prelude: pstage3 == pstage4 (byte-for-byte fixpoint)" (bytes= p3 p4)
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(first-diff p3 p4))
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(ok "prelude is substantial (> 250KB)" (> (length (slurp p3)) 250000)))))
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# stage2 must be a WORKING compiler: drive real compile+eval through it.
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# ---- the fully Chez-emitted system is a working compiler ----------------------
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# Chez-emitted prelude (pstage3) + Chez-emitted compiler image (s2): no Janet
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# artifact in the loop. Drive real compile+eval through it.
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(def verify-cases
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[["(let [x 1 y 2] (+ x y))" "3"]
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["(when (> 5 3) (-> 10 (- 1) (* 2)))" "18"]
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["(defn f [a b] (* a b)) (f 6 7)" "42"]
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["(map inc [1 2 3])" "(2 3 4)"]
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["(reduce + 0 (range 5))" "10"]
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["(filter even? (range 10))" "(0 2 4 6 8)"]])
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(when (os/stat stage2)
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["(let [{:keys [a b]} {:a 7 :b 8}] (+ a b))" "15"]
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["(filter even? (range 10))" "(0 2 4 6 8)"]
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["(require '[clojure.string :as s]) (s/upper-case \"hi\")" "HI"]
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["(cond (= 1 2) :a (= 1 1) :b :else :c)" ":b"]])
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(when (and (os/stat p3) (os/stat s2))
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(var vpass 0)
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(each [src want] verify-cases
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(def [code out _] (d/eval-zero-janet prelude-path stage2 (string "(do " src ")")))
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(def [code out _] (d/eval-zero-janet p3 s2 (string "(do " src ")")))
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(when (and (= code 0) (= out want)) (++ vpass)))
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(ok "stage2 is a working compiler (real cases compile+run)"
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(ok "fully Chez-emitted system (Chez prelude + Chez image) compiles+runs real cases"
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(= vpass (length verify-cases))
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(string vpass "/" (length verify-cases) " cases passed")))
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# cleanup temp stages
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(each p [stage2 stage3] (when (os/stat p) (os/rm p)))
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(each p [s2 s3 p2 p3 p4] (when (os/stat p) (os/rm p)))
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(printf "\nfixpoint-test: %d/%d checks passed" (- total fails) total)
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(os/exit (if (zero? fails) 0 1))
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