set was a native shim (apply jolt-hash-set (seq->list coll)). It is a pure composition, so the Clojure version (apply hash-set (seq coll)) lowers to the same code. The compiler uses set, but only off the emit path (the backend's bare-native-names def and type inference), so it can live in the kernel tier: compiling that tier never calls set, and by the time those callers run the tier is already bound. This is distinct from boolean, which the backend calls for every :if node on the emit path. Moving boolean even to the kernel tier deadlocks (compiling the tier that defines boolean needs boolean), so boolean stays native. Added a comment in predicates.ss recording that. Re-mint converges in 3 passes and the benchmark suite is unchanged within noise (collections 43.3 vs 43.1, binary-trees 367 vs 367, the rest flat).
28 lines
1.5 KiB
Scheme
28 lines
1.5 KiB
Scheme
;; Collection constructors + rand — host-coupled natives the overlay assumes as
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;; bare clojure.core vars. The persistent-collection constructors already exist
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;; in collections.ss (jolt-hash-map / jolt-hash-set / jolt-vector); this just
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;; binds the public clojure.core names to them. Loaded after def-var! (rt.ss) +
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;; the collections + seq tiers. hash-map/array-map/hash-set/set/rand semantics.
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;; array-map: insertion-ordered, any size (Clojure's PersistentArrayMap, via
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;; createAsIfByAssoc). hash-map: hash order (PersistentHashMap). The map LITERAL
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;; ctor (jolt-hash-map, emitted for {...}) is array-ordered up to 8 entries and
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;; hash beyond, matching RT.map.
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(define (jolt-array-map . kvs) (jolt-array-map-build kvs))
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(define (jolt-hash-map-fn . kvs) (jolt-hash-map-build kvs))
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;; set lives in the kernel overlay tier (clojure/core/00-kernel.clj): it's a pure
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;; composition (apply hash-set (seq coll)) the compiler uses only off the emit path,
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;; so the Clojure version lowers to the same code without a bootstrap cycle.
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;; rand: a flonum in [0, n) (n defaults to 1.0) — jolt is all-flonum, so the
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;; result is a double like every other number.
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(define (jolt-rand . n)
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(let ((r (random 1.0)))
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(if (null? n) r (* r (exact->inexact (car n))))))
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(def-var! "clojure.core" "hash-map" jolt-hash-map-fn)
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(def-var! "clojure.core" "hash-set" jolt-hash-set)
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(def-var! "clojure.core" "array-map" jolt-array-map)
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(def-var! "clojure.core" "rand" jolt-rand)
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(def-var! "clojure.core" "map-entry?" jolt-map-entry?)
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