Perf round 1: self-call, keyword interning, fast record field reads (#221)
* Make the benchmark harness build optimized binaries on Chez bench/run.sh was Janet-era: it invoked a 'jolt' binary and set JOLT_DIRECT_LINK/JOLT_WHOLE_PROGRAM, none of which exist on Chez, where 'joltc run -m' runs fully unoptimized (direct-link and inline default off). So the suite was measuring jolt's unoptimized path. run.sh now compiles each benchmark to an optimized AOT binary (joltc build --direct-link --opt) and times it against JVM Clojure on the same portable source, auto-detecting the Chez kernel dev files like build-smoke.sh. Adds bench/deps.edn so joltc resolves the namespaces, NO_JVM to skip the reference. mandelbrot.clj dropped its jolt.png require so the JVM reference can run it; the picture demo moved to mandelbrot_png.clj (jolt-only). README scorecard refreshed with current Chez numbers and the two-regime read (compute ~8-10x substrate floor; dispatch/alloc ~120-330x architectural gaps the passes don't touch). Stale 'jolt -m' header lines point at bench/run.sh. * Emit direct self-calls for named-fn self-recursion A self-recursive call to a named fn compiled to (jolt-invoke fib ...) instead of a direct (fib ...): emit-invoke handled a :local callee only when it was NOT a known proc, so a :local that IS in *known-procs* (the letrec-bound self-name) fell through to the :else jolt-invoke branch. Now a :local known proc emits a direct Scheme call — no jolt-invoke, no per-call arg-list consing; case-lambda handles arity. fib 30: 63.3ms -> 4.7ms (faster than JVM Clojure's 7.1ms; was 9x slower). The win is on every self-recursive non-loop fn, including the compiler's own. No semantic change — selfhost holds, make test green, shakesmoke/buildsmoke byte-identical. Re-mint (backend is seed). Corpus rows pin self-recursion across fixed/multi/ variadic arities. * Intern no-ns keywords without per-call allocation (keyword #f name) built a fresh combined-key string (string-append) on every call just to do the intern-table lookup — ~80 bytes of garbage per (:kw x), map literal, keyword arg, etc. A no-ns keyword now interns in a table keyed by the name string directly, so a lookup of an already-interned keyword is one hashtable-ref with no allocation. The ns table keeps the combined key; both share the keyword-t khash (equal-hash of the combined key) so hash values are unchanged. Small time win on its own (the field-read dispatch dominates hot record code — see jolt-unx4) but removes per-call keyword allocation everywhere. Runtime .ss, no re-mint; identity/=/hash unchanged, make test green. * Fast record field reads: single eq? scan, skip the get-arm walk (:field rec) / (get rec :field) lowers to (jolt-get rec kw), which walked the get-arm list to reach the jrec arm, then did jrec-has? + jrec-lookup — TWO linear scans, each comparing keys through the generic jolt=2 equality dispatcher. Field keys are interned keywords, so: - jrec-key=? compares a keyword query by eq? (jolt=2 only for non-keyword keys), - jrec-ref does ONE scan (vs has?+lookup) and runs a deftype's ILookup valAt only when the field is genuinely absent (present-nil still returns nil, not default), - jolt-get-dispatch checks jrec? first, skipping the get-arm walk for the hottest get target. jrec-lookup/jrec-has? (used by =, contains?, etc.) get the fast compare too. binary-trees 135x->18.9x, dispatch 121x->26.4x, mono-dispatch 327x->108x vs JVM. Runtime .ss (collections.ss + records.ss), no re-mint; make test + shakesmoke + buildsmoke green, record get/assoc/keys/=/count semantics unchanged. --------- Co-authored-by: Yogthos <yogthos@gmail.com>
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{:suite "functions / definition" :label "multi-arity" :expected "[1 5]" :actual "(do (defn f ([x] x) ([x y] (+ x y))) [(f 1) (f 2 3)])"}
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{:suite "functions / definition" :label "variadic" :expected "[1 2 3]" :actual "(do (defn f [& xs] xs) (f 1 2 3))"}
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{:suite "functions / definition" :label "variadic with fixed" :expected "[1 [2 3]]" :actual "(do (defn f [a & xs] [a xs]) (f 1 2 3))"}
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{:suite "functions / definition" :label "named fn-literal self-recursion (direct self-call)" :expected "3628800" :actual "((fn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) 10)"}
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{:suite "functions / definition" :label "defn self-recursion" :expected "832040" :actual "(do (defn fib [n] (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))) (fib 30))"}
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{:suite "functions / definition" :label "multi-arity self-recursion" :expected "15" :actual "(do (defn sum ([xs] (sum xs 0)) ([xs a] (if (seq xs) (sum (rest xs) (+ a (first xs))) a))) (sum [1 2 3 4 5]))"}
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{:suite "functions / definition" :label "variadic self-recursion" :expected "10" :actual "(do (defn g [& xs] (if (next xs) (apply g (cons (+ (first xs) (second xs)) (nnext xs))) (first xs))) (g 1 2 3 4))"}
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{:suite "functions / definition" :label "closure captures" :expected "8" :actual "(do (defn adder [n] (fn [x] (+ x n))) ((adder 5) 3))"}
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{:suite "functions / definition" :label "recursion" :expected "120" :actual "(do (defn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) (fact 5))"}
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{:suite "functions / definition" :label "named fn self-ref" :expected "120" :actual "((fn fact [n] (if (< n 2) 1 (* n (fact (dec n))))) 5)"}
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