Remove the Janet seed (src/jolt/*.janet: reader, value layer, vars/ns, the
tree-walking interpreter, the Janet backend, the optimizing compiler), the
Janet->Scheme cross-compiler (host/chez/{driver,emit,jolt-chez}.janet),
bin/jolt-chez, the jpm build (project.janet) and the Janet test runner
(run-tests.janet), plus the entire Janet test suite. jolt now builds and runs
on Chez alone: bin/joltc off the checked-in seed, bootstrap.ss to rebuild it.
The portable Clojure stays: jolt-core/**, host/chez/**.ss, and the stdlib +
tooling under src/jolt/clojure + src/jolt/jolt (read by the seed build, no
Janet). The gate is 'make test' (self-host, corpus, unit, cli smoke, certify).
Drop the sci and clojure-test-suite submodules (used only by deleted Janet
integration tests); irregex stays.
Filesystem corpus/unit cases that probed project.janet now probe README.md.
jolt-cf1q.6
Add a Janet-free gate so correctness can be judged with only Chez + Clojure:
- host/chez/run-corpus.ss: corpus.edn vs JVM expecteds, lifting the per-case ns
isolation from the old Janet driver; reads corpus.edn via the jolt reader.
- host/chez/run-unit.ss + test/chez/unit.edn: the host-specific unit cases,
evaluated in-process and compared to baked expecteds.
- host/chez/selfcheck.sh: self-host fixpoint (bootstrap.ss rebuild == checked-in seed).
- host/chez/smoke.sh: real bin/joltc CLI smoke.
- host/chez/remint.sh: re-mint the seed to a byte-fixpoint after a source change.
- Makefile: 'make test' runs the lot; 'make remint' rebuilds the seed.
Numbers match the Janet gate: corpus 2679/2757 0 new div, unit 450/450, certify
0 new/0 stale.
jolt-cf1q.6
corpus.edn :expected is now the value reference JVM Clojure produces, set by the
new test/conformance/regen-corpus.clj (one JVM process, per-row thread watchdog).
167 rows moved to the JVM value: ratios (/ 1 2)=>1/2, doubles (double 3)=>3.0,
shared-heap concurrency (the future/pmap/agent cases), clojure.math doubles. The
JVM is the spec; jolt is measured against it.
known-divergences.edn shrinks to the rows whose JVM value is an opaque host object
that can't round-trip to source (Java arrays, transients, atoms, beans, proxies,
chunks all print as #object[..@addr]) plus (fn* foo) and a few racy concurrency
cases (:flaky). The zero-janet gate's allowlist becomes the set of host gaps vs the
JVM spec (no Class/array/BigDecimal, :jolt reader, jolt's own printing).
Math/clojure.math sqrt/pow/floor/trig now return doubles (Chez returns exact for
exact args, e.g. (sqrt 9)=>3); JVM always returns a double.
extract-corpus.janet no longer writes corpus.edn unless asked (the test runner
imported it and was silently overwriting the JVM corpus with the spec sources'
placeholder answers). The prelude parity gate is deleted — the zero-janet spine +
certify.clj are the oracles.
zero-janet 2678 (0 new divergences), certify 0 new / 0 stale, emit-test 330/330.
jolt was all-flonum (one :number type, inherited from Janet whose only number
type is a double). The Chez runtime has a full numeric tower, so the zero-Janet
path now carries it = JVM Clojure semantics:
(/ 1 2) => 1/2 (exact Ratio, was 0.5)
(integer? 3) => true (integer? 3.0) => false (float? 3.0) => true
(ratio? (/ 1 2)) => true (= 3 3.0) => false (== 3 3.0) => true
(+ 1 2) => 3 (exact) (/ 1.0 2) => 0.5 (double)
jolt= was already exactness-aware (values.ss) and == is value-equality, so
=/== match the JVM split. The reader preserves exactness (integer literals exact,
a/b ratios exact rationals, decimals/exponents flonums); backend_scheme emit-const
renders exact ints/ratios and flonums faithfully; the value-position arithmetic,
count, int, compare, bit ops, parseLong, string .length/.indexOf, range,
timestamps, and array bytes return exact integers (= JVM int/long) instead of
coercing to flonum. double/parseDouble/clojure.math floor|ceil|signum stay double.
Only the zero-Janet path carries the tower (the Janet reader loses exactness into
a double before emit). The prelude/all-flonum path is unaffected for compiled code;
the runtime reader is shared, so a couple of all-flonum reader assertions become
value (==) assertions. ~16 numeric corpus cases now give the JVM tower value vs the
Janet-era :expected and are allowlisted as tower divergences (Chez == reference
JVM) pending the corpus flip to JVM (jolt-ecz0). No BigDecimal type (1M).
Re-minted. zero-janet 2682 (floor 2698->2682, the reclassified tower cases), 0 new
divergences; fixpoint 10/10, bootstrap 6/6, spine 35/35, cli 49/49; Janet gate 155
files 0 failed.
Two Chez reader bugs, both JVM-parity gaps:
inc'/+'/foo' (trailing apostrophe) were mis-read as a symbol followed by a
quote macro, because the reader treated ' as a terminator. In Clojure ' is a
NON-terminating macro char (constituent after the first char). Since the seed
is minted on Chez, (def inc' inc) became (def inc 'inc), clobbering inc's var
cell with its own symbol -- so (var-get (var inc)) returned the symbol, not the
fn. Drop ' from the token terminator set; a leading ' still quotes.
^bytes [b] / ^String [x y] return-type hints: the Chez reader lowered ^meta on
a collection to a (with-meta vec meta) form, but emitted a QUALIFIED
clojure.core/with-meta while the Janet reader emits a bare with-meta -- so the
fn/defn macros' unwrap logic (matching the bare head) slipped past it and choked
on a non-vector arglist. Emit bare with-meta to match Janet, and unwrap a
(with-meta <vec> _) arglist in analyze-fn as a backstop.
Re-minted the seed. zero-janet 2699, prelude 2652, Janet gate 155/0, fixpoint
10/10, bootstrap 6/6, all 0 new divergences.
realized? threw 'not supported on' for a jolt-lazyseq record (the overlay
reads :jolt/type); add a jolt-lazyseq? arm to the post-prelude wrapper
reading the record's own realized? flag.
conj! 1-arity (conj! coll) is the transducer-completion arity and returns
coll as-is on the JVM, no transient check — we threw 'not a transient'.
Both gates: zero-janet 2696->2698, prelude 2649->2652, 0 new divergences.
Audit of the janet.*/jolt.interop/STM corpus cases vs Chez equivalents: the Janet
FFI-bridge cases (janet/string, janet/type, janet.math/sqrt, janet.string/ascii-
upper) test functionality already covered by PORTABLE corpus cases (str 29, type 9,
sqrt 3, upper-case 9), so they're safe to delete in Phase 5. Two needed a Chez
equivalent so they pass instead of being lost:
- clojure.lang.LockingTransaction/isRunning -> false (no STM on jolt).
- line-seq: the corpus case used janet/spit setup but was the SOLE line-seq
coverage (0 other cases). Ported janet/spit->spit, and added a native Chez
line-seq (drain a jhost io/reader + split on newline; no trailing empty line)
that delegates a Janet map-reader to the overlay version.
zero-Janet 2694->2696, prelude floor 2648; self-host + Janet gate + JVM cert green.
jolt-cf1q.7 jolt-0obq
hc-list? required cseq-list? (a reader-built list), so a form built at runtime via
concat/map/cons — a lazy cseq with list?=#f — was rejected as "unsupported form".
In Clojure any seq is a valid call form, so accept any cseq. Lights up macros that
build their expansion with concat/list and (eval seq-form).
zero-Janet 2692->2694, 0 new divergences; self-host + Janet gate + JVM cert green.
jolt-cf1q.7
Date/time (inst-time.ss): java.util.Date / java.sql.Timestamp ctors accept ms or
another date value (ms-of) -> a jinst; java.text.SimpleDateFormat (pattern + .format
via the existing format-ms UTC engine; .setTimeZone accepted); java.util.TimeZone/
getTimeZone. instance? answers Date true / Timestamp false for a jinst (a Date is
not a Timestamp on the JVM).
clojure.edn/read over a reader (io.ss + post-prelude): the overlay edn.clj's
drain-reader is janet/type-coupled, so Chez drains the jhost StringReader/
PushbackReader to a string and reads the first EDN form. Unblocks jolt-uicd.
Native Chez throughout (no vendoring): Chez date arithmetic + string ports. zero-Janet
2688->2692, 0 new divergences; self-host + Janet gate + JVM cert green.
jolt-cf1q.7 jolt-dcmm jolt-7t3l jolt-uicd
deftype binds the type name as a VAR (the make-deftype-ctor closure), but (P. 5)
lowers to (host-new "P"), which only checked class-ctors-tbl -> "No constructor".
Fall back to resolving the class name as a var in the current ns / clojure.core
and invoking it — so (P. args) constructs the same jrec as the ->P factory, and
protocol method dispatch (.m / .-field) over it works.
zero-Janet 2685->2688 (no-constructor 5->2); prelude floor bumped to 2641 (the
delay batch's run). Self-host + Janet gates + JVM cert green.
jolt-cf1q.7
Add a thread-safe delay type (concurrency.ss): make-delay wraps a thunk; deref/
force run it once under a lock and cache (JVM delays are thread-safe + memoized).
delay? and realized?-on-a-delay are native; the overlay's `delay` macro
(-> make-delay) and `force` (-> deref) now work. realized? wrapper (post-prelude)
and the deref chain gain a delay arm. Removed the np-delay? stub from
natives-parity.ss (the real type lives in concurrency.ss).
Seed unchanged (no re-mint). zero-Janet 2673->2685, 0 new divergences; Janet gate
+ JVM cert green.
jolt-cf1q.7
The zero-Janet runner wrapped each case as (= EXPECTED ACTUAL) and checked the
result was true. That nests ACTUAL's top-level (do ...), so a case like
(do (defmacro m ...) (m 1)) can't use the macro it just defined — the analyzer
punted defmacro -> "uncompilable" (35 cases).
Match certify.clj's eval-isolated instead: carry EXPECTED and ACTUAL as separate
sources and evaluate ACTUAL as its own top-level program (jolt-compile-eval unrolls
the top-level do, so a macro defined earlier is usable later), then compare to
EXPECTED with =. Evaluating ACTUAL from SOURCE (not (eval (quote A))) preserves the
reader's map-literal source order, so the eval-order cases still pass.
eval-corpus-zero-janet / program-corpus-zero-janet now use a 3-field TSV
(label/expected/actual); run-corpus-zero-janet's per-case debug path evals both
sides too. Only run-corpus-zero-janet uses these (the prelude gate is untouched).
zero-Janet 2642->2673 (analyzer "uncompilable" 35->4); 1 new allowlisted divergence
(`{:a ~x :b ~y} syntax-quote map construction doesn't preserve source eval order —
pmap is unordered). Janet gate + JVM cert green.
jolt-cf1q.7
host/chez/natives-array.ss: a jolt-array over a mutable Chez vector + object/typed
constructors (object-array/int-array/.../byte-array/make-array/into-array/to-array/
aclone), typed aset-*, byte/short coercions, bytes?/bytes/ints/..., and eager
chunk-buffer/chunk-* (Jolt doesn't chunk). count/nth/seq/get and jolt.host/ref-put!
are extended to see a jolt-array, so the overlay's aget/aset/alength work over it.
Numbers it produces are flonums (jolt's rep) so exactness-aware = holds. char-array
stays in io.ss (a char-SEQ that io/reader/str/slurp consume).
natives-parity.ss adds: __reader-features / -set!, reader-conditional, re-matcher,
delay? (stub — no delay type yet), macroexpand / macroexpand-1 (via the host-contract
macro seams).
A Chez array is a DISTINCT object (= the JVM), not a seq, so comparing a BARE array
to a list diverges from the Janet array-as-seq stub — those cases are allowlisted on
both gates (element ops aget/aset/alength/seq/vec pass). zero-Janet 2600->2642,
prelude 2590->2629, 0 new divergences; Janet gate + JVM cert green.
jolt-cf1q.7
Native Chez shims for clojure.core fns that live in the Janet seed but had none
on the zero-Janet spine (they resolved to nil -> "not a fn"):
- host/chez/natives-parity.ss: hash / hash-combine / hash-ordered-coll /
hash-unordered-coll (24-bit masked like core_extra), transient?, rseq (vectors +
sorted colls), cat (transducer).
- jolt-invoke now dispatches a TRANSIENT vec/map/set as a fn (callable on the JVM):
((transient [10 20 30]) 1) -> 20.
- ns.ss: ns-resolve, ns-imports, remove-ns, intern, alias, ns-unalias, refer,
ns-refers, refer-clojure, alter-meta!, reset-meta!, and a real ns-aliases (was a
stub returning {}).
- runtime (require ...)/(use ...) now register :as/:refer into the Chez ns tables
(was a no-op). The Chez analyzer already pre-registers at analyze time, but when
the JANET analyzer compiled the form (prelude path) the Chez tables stayed empty,
so ns-aliases/ns-resolve over an alias diverged — this fixes both paths.
Seed unchanged (overlay doesn't reference these at mint time). zero-Janet corpus
2567->2600, prelude 2557->2590, 0 new divergences on either; Janet gate + JVM cert
green. Filed jolt-vgrp for the pre-existing var-get-of-scalar-native-op quirk.
jolt-cf1q.7
Replace the Janet synchronous agent shim (agent = atom, send applies inline) with
JVM-style async agents: send/send-off enqueue an action and a single worker thread
per agent applies them in order; deref reads the current (maybe not-yet-updated)
state without blocking; await blocks until the queue drains. A validator rejection
or a thrown action puts the agent in an error state (agent-error) and halts the
queue; restart-agent clears it. send and send-off share one serialized worker (a
superset of the JVM's fixed/cached pool split). Native versions re-asserted in
post-prelude over the overlay; await/restart-agent are new.
Corpus: the two "send/send-off applies" cases do (send a f) (deref a) with no
await, so they now read state before the action runs — diverging like the JVM
(the suite was literally "synchronous shim"). Allowlisted on both gates; floors
-2 (zero-Janet 2569->2567, prelude 2559->2557). cli-test covers async agents via
await (ordered 100-send dispatch, error capture) — 49/49. Janet gate + JVM cert
green; 0 new divergences on either corpus.
jolt-byjr
No mature Chez fibers library exists and this is a threaded Chez build, so a go
block is an OS thread and a channel is a mutex+condition blocking queue: <! / >!
are the blocking <!! / >!! and work anywhere (no CPS transform), like the Janet
stackful-fiber model but with real parallelism and a shared heap.
host/chez/async.ss provides chan (unbuffered rendezvous / fixed / dropping /
sliding), <! >! <!! >!! close! alts! timeout put! take! buffer ctors, channel
transducers, and go-spawn, all def-var!'d into clojure.core.async; go/go-loop/
thread are macros (mark-macro!) expanding to go-spawn, mirroring src/jolt/
async.janet. Binding conveyance rides the thread-parameter binding stack from
pt.1. alts! polls with a 1ms backoff (no cross-channel wait-set yet) and is
take-only, matching the Janet impl.
(require '[clojure.core.async ...]) resolves it with no file load — the vars are
resident and require just registers the :as/:refer.
cli-test covers go/buffered-drain/nested-<!/alts!/transducer/timeout/binding-
conveyance (43/43). core.async isn't in the conformance corpus (feature-gated
:async/core-async), so coverage is the Chez cli-test plus the existing Janet
core-async-spec. Seed unchanged (no .clj touched). Prelude corpus 2534->2559,
zero-Janet 2569, 0 new divergences on either; Janet gate + JVM cert green.
jolt-byjr
future/future-call run the body on a native thread (fork-thread) over the SAME
heap — JVM semantics, not Janet's isolated-heap snapshot. deref blocks on a
mutex+condition latch; timed (deref f ms val) uses an absolute deadline.
promise is a real blocking promise (deref parks until deliver), replacing the
Janet non-blocking atom shim. future?/future-done?/future-cancelled?/future-cancel
/realized? are native (the overlay versions read Janet map keys); re-asserted in
post-prelude over the overlay. pmap/pcalls/pvalues (overlay, over future) light
up for free.
Thread-safety this forces:
- atoms get a per-atom mutex; swap!/swap-vals! are a JVM-style CAS loop (f runs
outside the lock, so a watch/validator can deref the same atom); reset!/
compare-and-set! are atomic.
- the dynamic binding stack becomes a Chez thread-parameter, so each future/thread
has its own; Chez inherits it at fork, giving binding conveyance (the shim also
installs an explicit snapshot).
- Thread/sleep really sleeps now (a worker sleeping doesn't block the parent).
Re-minted the seed: future-call now resolves at compile time, so pmap compiles to
a var-deref instead of the host-static-call fallback that crashed. image.ss
unchanged.
Corpus: the 2 snapshot cases now match the JVM (shared) not Janet (isolated) —
allowlisted on both Chez gates; the two racy future-cancel cases allowlisted;
"promise undelivered" (blocks on JVM/Chez, profile :bucket :timeout) skipped like
:throws. Zero-Janet corpus 2544 -> 2569, 0 new divergences, floor raised. Full
Janet gate + JVM cert green.
jolt-byjr
The compiler image is already resident at runtime on the Chez spine, so eval
and load-string are just wiring: make them clojure.core functions instead of
analyzer special forms.
- eval / load-string are now functions, not special forms. Dropped "eval" from
the host-contract special-symbol lists so it resolves as an ordinary var, and
def-var! both in compile-eval.ss. eval takes an already-read form (e.g. from
quote/list) and compiles+evals it in the current ns; load-string reads every
form from a source string and evals each, returning the last.
- Runtime defmacro: jolt-compile-eval-form intercepts a (defmacro ...) form
before analysis, defs the expander fn + mark-macro!s the var, exactly as
emit-image.ss does at build time. The two helpers (macro-form? / defmacro->fn)
move to compile-eval.ss and emit-image.ss reuses them.
- Top-level (do ...) is now unrolled form-by-form, like Clojure, so a defmacro
or def in an earlier subform is visible (macro flag set / var interned) before
a later subform is analyzed. This is what makes multi-form -e with a macro work.
Seed is byte-identical (no source references eval), so no re-mint; bootstrap-test
still passes. Zero-Janet corpus 2534 -> 2544 (eval/load-string cases now run),
0 new divergences; floor raised. Prelude corpus, JVM cert, full Janet gate green.
jolt-r8ku
The corpus certifier (test/conformance) flagged four cases where jolt's
hand-written :expected matched a real defect rather than Clojure. Fixed in the
jolt-core overlay, corrected the spec :expected, re-certified against JVM Clojure:
- ex-message: returns nil for a non-throwable (dropped the lenient string branch);
still returns the message for ex-info. (jolt-l8e8)
- munge: preserves the argument's type — a symbol munges to a symbol, not a string.
(jolt-hc35)
- print: (print nil) emits "nil", not "" (top-level nil guard; str yields "").
(jolt-pqio)
- bounded-count: uses the counted? fast path (full count), else counts up to n via
seq — was (min n (count coll)), wrong for counted colls. Added an uncounted-coll
spec case. (jolt-2507)
Removed the 4 :bug entries from known-divergences.edn (now certified), regenerated
corpus + profile, re-minted the Chez bootstrap seed (clojure.core changed). Gates:
Janet 155/0, JVM certify clean, both Chez corpus gates 2534 (floors raised),
bootstrap 6/6, fixpoint intact.
The runtime counterpart to bootstrap.ss. host/chez/cli.ss loads the checked-in
seed + the zero-Janet spine and compiles+evals a -e expression entirely on Chez;
bin/joltc execs it. With the seed checked in, a clone runs jolt with only Chez
installed — no Janet at build or run time. Multi-form -e wraps in (do ...) to
match Clojure. test/chez/cli-test.janet 9/9.
Makes the inc8 fixpoint the actual build. host/chez/bootstrap.ss loads a seed
(prelude, image) pair and rebuilds the clojure.core prelude + compiler image from
source via the on-Chez compiler — read/analyze/emit all on Chez, zero Janet.
The seed (host/chez/seed/{prelude,image}.ss) is the checked-in bootstrap
compiler, minted once via the fixpoint (driver/mint-chez-seed* iterates
bootstrap.ss from the Janet-emitted pair to a joint byte-fixpoint). It's a joint
fixpoint: rebuilding from an up-to-date seed reproduces it exactly. So a fresh
checkout + Chez (no Janet) yields a working jolt.
test/chez/bootstrap-test.janet spawns only chez, asserts the rebuilt artifacts
match the seed byte-for-byte and compile+run real cases. Drift (seed sources
changed) fails the test with a re-mint pointer; host/chez/seed/README documents
re-minting.
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.
The zero-Janet spine proves the on-Chez analyzer/emitter compile arbitrary
Clojure faithfully. This proves the stronger property: the on-Chez compiler
reproduces itself. emit-image.ss re-emits the compiler sources (jolt.ir +
jolt.analyzer + jolt.backend-scheme) ON CHEZ via the loaded image; feeding it
stage1 (the Janet cross-compile) yields stage2, feeding stage2 yields stage3.
stage2 and stage3 are byte-for-byte identical, and stage2 is a working compiler
(real cases compile+run through it). stage1 differs from stage2 only in gensym
numbering, so the fixpoint is stage2==stage3.
driver: emit-image-on-chez / program-emit-image spawn a fresh chez per stage
(clean gensym state). test/chez/fixpoint-test.janet gates it (skips without chez).
(require '[clojure.string :refer [blank?]]) then an unqualified blank? now
resolves. chez-register-spec! registers :refer names (in addition to :as) into a
refer table; hc-resolve-cell's unqualified branch consults it before clojure.core.
Zero-Janet corpus parity 2293 -> 2295 = the Janet-hosted oracle's exact pass
count. The self-hosted Chez compiler (read -> analyze -> emit -> eval, no Janet)
now compiles every corpus case the Janet-hosted compiler does, with 0
divergences. Remaining failures are shared runtime breadth (host interop,
futures, runtime eval) deferred to Phase 4 / jolt-r8ku. Floor 2295.
The batched zero-Janet runner wrote one case per TSV line, so a multi-line
source (e.g. a ;comment\n inside a map literal) split the line and the case was
truncated -> a false "apply non-procedure" crash. Escape \n/\t/\\ when writing
the cases file and unescape in the runner before eval.
Zero-Janet corpus parity 2288 -> 2293 (the 5 comment-in-map cases), 0
divergences — now within 2 of the Janet-hosted oracle (2295). Floor 2293.
Reader gaps the Chez-hosted analyzer hit where the Janet reader didn't:
- ##Inf / ##-Inf / ##NaN symbolic literals (## dispatch -> flonum).
- #(...) anonymous fn shorthand -> (fn* [p__N#] body), with % / %N / %& and the
max-positional arity rule; scans + rewrites list/vector/set/map bodies.
- #?(...) reader conditional: feature set {:jolt :default}, first matching clause
wins. #?@ splicing not yet supported (one niche case allowlisted).
- (ns name (:require [a :as x])) — the require pre-scan now also reads aliases
from an ns form's :require/:use clauses, not just bare (require ...).
Zero-Janet corpus parity 2240 -> 2288, 0 divergences (2 now-reachable cases
allowlisted: str of Infinity inside a collection — same as the prelude gate —
and #?@ splice). spine-test 35/35; prelude parity 2295 unchanged, 0 new
divergences.
(require '[clojure.string :as s]) then s/foo crashed "Unknown class s": the
Chez analyzer resolved a qualified symbol's ns literally, and there was no
alias table (ns.ss jolt-ns-aliases was a stub, require a no-op). Add an alias
table + chez-register-spec! (parses [ns :as a]) in ns.ss; hc-resolve-cell now
resolves a qualified ns through it; compile-eval pre-registers a form's
require/use :as aliases before analysis (analysis precedes the runtime require,
so the runtime require staying a no-op is fine). The batched gate runner clears
the alias table between cases.
Zero-Janet corpus parity 2159 -> 2240, 0 divergences. spine-test 35/35.
Point the Chez-HOSTED analyzer at the full parity corpus (read -> analyze ->
emit -> eval, all on Chez, no Janet) and close the divergences so the
self-hosted compiler is faithful: 0 divergences, 2159/2494 pass.
Keystone: the on-Chez emitter ran with prelude-mode off, so every call to a
non-native clojure.core fn tripped the "unsupported stdlib fn" out-of-subset
guard. The zero-Janet spine always has the full prelude loaded, so turn
prelude mode on in compile-eval.ss (22% -> 84% pass on a sample).
Faithfulness fixes (each was the Chez host/reader diverging from the Janet
analyzer; fixed in the keeper, not the seed):
- emit-const read a char's codepoint via (get v :ch) — the Janet rep; on Chez a
char is native. Route through a new form-char-code host-contract fn (41 cases).
- next over a lazy seq returned the empty-list terminator (truthy), not nil, so
butlast and other (if (next s) ...) loops ran one step too far — broke
some->/some->>/cond->>.
- reader: radix literals (2r1010/16rFF/36rZ), #^ deprecated metadata, ^meta on
collections (lowers to a runtime with-meta form like the Janet reader),
map-literal source order (values eval left-to-right), and nested syntax-quote
over a literal collapses at read time.
- keyword "a/b" splits into ns/name like the seed (destructure {:keys [x/y]}).
- form-syntax-quote-lower implemented on Chez (was a throwing stub).
7 divergences allowlisted: the same print-method-multimethod / host-class set
the prelude gate defers. 328 crashes remain = shared runtime breadth (host
interop, missing core fns, eval/load-string) deferred to Phase 4 / jolt-r8ku,
not compiler faithfulness.
Gate + speedup: test/chez/run-corpus-zero-janet.janet (floor 2159). Its batched
runner (driver/eval-corpus-zero-janet) runs every case in ONE chez process —
load the runtime once, guard + reset the user namespace per case — instead of a
fresh process per case: 1379s -> 1.6s.
spine-test 35/35; Janet gate 151/0; prelude parity 2295/2494 unchanged, 0 new
divergences.
The on-Chez analyzer (inc6a) skipped macros, so let/when/->/defn didn't
expand from source. Each core/stdlib defmacro now emits into the prelude as
(def-var! ns name <expander fn>) + (mark-macro! ns name); form-macro?/
form-expand-1 on Chez look up the macro flag (rt.ss var-macro-table) and
apply the expander to the unevaluated arg forms, and the analyzer re-analyzes
the result. The expander's syntax-quote template was lowered to construction
code at cross-compile time, so it builds the expansion via __sqcat/__sqvec/
__sqmap/__sqset/__sq1 (new host/chez/syntax-quote.ss) as Chez reader forms.
Emit the bare (fn ...), not (def NAME (fn ...)): analyzing a def would
host-intern! NAME as a non-macro stub in the build ctx, and that stub makes a
later (require '[stdlib-ns]) skip loading the real macro — with-pprint-dispatch
then resolved as a fn and returned its unexpanded template. Wrapping the
lambda in def-var! manually never interns NAME. Fuller build-ctx isolation
(so stdlib cases pass instead of crash) tracked in jolt-lpvi.
__sqset builds a real set VALUE, not the reader's tagged-set form — a runtime
`#{~@xs} must be a set, not a map. form-set? additionally recognizes a pset so
a macro template's #{...} expansion still re-analyzes as a set literal.
spine-test 35/35 (20 macro cases: when/when-not/let/->/->>/and/or/cond/if-not/
defn run zero-Janet from source). Prelude parity 2280->2295, 0 new divergences.
Full Janet gate green.
Cross-compile jolt.ir + jolt.analyzer + jolt.backend-scheme to Scheme def-var!
forms via the existing Janet emit pipeline (driver/emit-compiler-image) and run
them ON CHEZ over a Scheme jolt.host impl. A macro-free Clojure expression now
compiles and runs with no Janet in the loop: read (reader.ss) -> analyze
(jolt.analyzer on Chez) -> IR -> emit (jolt.backend-scheme on Chez) -> eval.
host/chez/host-contract.ss is the jolt.host contract on Chez (the portable seam
the cross-compiled analyzer/emitter call): form-* over the Chez reader's forms,
resolve-global/compile-ns/host-intern!/late-bind? over the var-cell registry. ctx
is an opaque record carrying the compile ns. Native-op names are declare-var!'d
into clojure.core so +, *, <, ... classify as :var and the emitter's native-op
path lowers them. form-macro? is a #f stub and macro expansion / syntax-quote /
record hints are stubs for inc6b (runtime macros, jolt-r8ku).
host/chez/compile-eval.ss is the spine entry (read-string -> analyze -> emit ->
eval). driver gains emit-compiler-image / ensure-compiler-image (image caching)
and program-zero-janet / eval-zero-janet.
Two bugs fixed in the keeper, not reproduced:
- the Chez reader stores an unqualified symbol's ns as #f, but the analyzer tests
(nil? ns); hc-sym-ns normalizes #f/'() -> jolt-nil. Without it every handled
special (if/do/fn*) misanalyzed as a plain invoke.
- char (int->char) was missing from clojure.core on Chez; the emitter's
chez-str-lit needs it for keyword/string consts. Added jolt-char to converters.ss.
Gate: test/chez/spine-test.janet 15/15 (Chez-hosted analyzer value == Janet-hosted
oracle through the same emitter/RT; only the analysis host differs). Full Janet
gate green (150 files). driver.janet is in the prelude fingerprint so the cache key
moved; prelude content is unchanged. jolt-chez fingerprint/ensure-prelude made
public for the test harness.
driver.janet now compiles IR via the portable Clojure emitter (jolt.backend-
scheme) instead of emit.janet, at every entry point (compile-program, emit-core-
prelude, eval-e-with-prelude). The emitter is loaded into the ctx and called like
the analyzer. emit.janet stays only as the emit/program string-wrapper until
program assembly ports to Clojure with compile-from-source; its emit fn is no
longer called anywhere (emit-test's truthy-elision helper now uses the new
d/scheme-emit too). This takes the IR->Scheme emitter off Janet.
A form-by-form diff of the two emitters over the whole prelude found one gap:
emit-const missed char literals because a :jolt/type-tagged struct is not a plain
jolt map? — switched to the form-char? host contract. Diff then 0.
jolt-chez prelude fingerprint now includes backend_scheme.clj + host_iface.janet.
Gate: full prelude corpus 2280/2494, NEW divergence 0, same buckets as the Phase-2
emit.janet floor (36 emit-fail, 170 crash) — the Clojure emitter is byte-for-
behavior identical. emit-test 331/331 (now via the Clojure emitter), emit-parity
58/58. jolt-duot.
Close the remaining Phase-2 stdlib parity gaps.
clojure.set: pure Clojure over core, so just added to the prelude stdlib tier
(driver.janet stdlib-ns-files + jolt-chez fingerprint), same as clojure.edn.
clojure.math: not a .clj on the seed (native math/ bindings via jolt-h79), so
Chez gets its own host/chez/math.ss def-var!ing each fn over Chez native flonum
math. The analyzer already knows the ns (api.janet install-clojure-math!), so
refs lower to var-deref. Also adds the missing 'long' coercion to converters.ss
(int's sibling; several math cases wrap in long).
clojure.pprint: dropped the 2-arity's (binding [*out* writer] ...). *out* isn't
a bindable var in jolt — printing routes through the host (dyn :out) seam, so
the binding never redirected anything; it only made the defn uncompilable, which
the seed tolerated via interpreter fallback. Chez has no fallback, so the whole
pprint defn died. Dropping it is behavior-preserving (writer was always ignored)
and lets pprint compile cleanly. Both corpus cases pass.
Corpus parity 2259 -> 2280, crashes 191 -> 170, 0 new divergences. Floor raised.
New unit test test/chez/_stdlib.janet (27/27). Full Janet gate green (147 files).
Chez-side recursive-descent Clojure reader (host/chez/reader.ss) producing the
same jolt forms the Janet reader yields, behind the read-string / __parse-next /
__read-tagged seams the seed registers in eval_runtime.janet. That lights up the
whole *in* read family — read, read+string, with-in-str (read) — plus read-string
and read-string metadata, none of which needed an analyzer change (read-string is
a clojure.core seam, jolt-nil on the prelude until now).
Reader output is pinned to the Janet reader's shapes: numbers coerce to flonum
(the all-double model emit-const uses, else a read int isn't = a source int),
sets read as the {:jolt/type :jolt/set :value [...]} FORM, #tag/#inst/#uuid/#regex
as tagged forms (no data reader applied — read-string never evaluates), ^meta on
a symbol, and the ' ` ~ ~@ @ reader macros. clojure.edn is added to the prelude
tier; its edn->value builds the real set/tagged values and __read-tagged reuses
the inc X #inst/#uuid constructors. The reader-arity edn/read stays a lazy gap
(drain-reader is Janet-coupled) — read-string is the live path.
eval / load-string / runtime defmacro are still out: they need the compiler at
runtime, which is Phase 3 (self-host). Chez-only change, no Janet gate.
Parity 2238 -> 2259, 0 new divergences. _reader 47/47; all chez unit tests green;
emit-test 331/331.
The analyzer lowers a #inst/#uuid tagged form to a :inst/:uuid IR leaf, mirroring
the existing :regex node: the Janet back end punts to the interpreter (its
data-readers parse the literal, so seed behavior is unchanged), the Chez back end
emits jolt-inst-from-string / jolt-uuid-from-string.
host/chez/inst-time.ss is the Chez-native value layer: a jinst record holding
epoch ms (RFC3339 parsed via Hinnant civil/days math, with Clojure's partial
defaults and +/-hh:mm offsets), wired into jolt-get (so the overlay inst?/inst-ms
read it), jolt= / jolt-hash (instant identity as a map key), pr-str (#inst
"...-00:00"), str, type, and instance? java.util.Date. The java.time surface
(DateTimeFormatter ofPattern/ISO_LOCAL_DATE_TIME/ofLocalized*, the pattern engine,
Instant, ZoneId, LocalDateTime, FormatStyle, Locale, Date) ports java_base.janet
over host-static.ss's registries.
Corpus 2202->2238, 0 new divergences; clears the whole 'unsupported form'
emit-fail bucket. Full Janet gate green (analyzer/backend changes are
behaviour-preserving — #inst still parses through the interpreter's data-readers
on the seed).
clojure.java.io/reader as an in-memory StringReader over slurp/string/char[]/
File; File .toURL/.toURI returning a url jhost (.toString/.getPath); slurp drains
a StringReader; char-array; with-open's __close seam over jhost readers and plain
:close maps. All in host/chez/io.ss (Chez-native, no analyzer change). Corpus
2191->2202, 0 new divergences. clojure.edn/read over a PushbackReader stays
jolt-r8ku (runtime read).
A File is a path-backed jfile record: (instance? java.io.File f) is true,
str/slurp coerce it to its path, and the File method surface (getName/
getPath/exists/isDirectory/isFile/listFiles/getParent) dispatches through
record-method-dispatch. slurp/spit/flush run over Chez's filesystem
primitives; file-seq's dir primitives (__file?/__dir?/__list-dir) and the
overlay's File branch (.isDirectory/.listFiles, which emit to jolt-host-call)
are jfile-aware. clojure.java.io/file + as-file are def-var!'d natively.
New host/chez/io.ss, a Chez-native implementation -- the seed's
clojure.java.io (io.clj) is a Janet-backed shim over janet.*/janet.file, so
it can't be reused. The analyzer resolves io/file because the seed ctx has
clojure.java.io loaded; only a runtime def-var! is needed. type/instance-
check/str-render/jolt-host-call are extended via the set!-wrap pattern (type
also re-def-var!'d since the var cell captured the old value).
Reader/StringReader-coupled io (io/reader, line-seq over a file, .toURL,
slurp over a reader) deferred to jolt-at0a.
Parity 2176 -> 2191, 0 new divergences. New test/chez/_io.janet 20/20.
list? was nil on Chez because one cseq record backs both lists and lazy/
realized seqs. Add a list? marker field (cseq v2) set only on the HEAD cell
of a list -- (list ...), quoted list literals, cons, reverse, conj onto a
list. rest/next/seq/map therefore yield unmarked seq cells, so they are
seqs and not list?, matching the seed (where rest-of-a-list is a non-list
seq). Empty () is treated as a list.
vector?: drop the map-entry exclusion. Clojure's MapEntry implements
IPersistentVector and the seed agrees -- (vector? (first {:a 1})) is true.
Only dot-forms' coll dispatch read jolt-vector?, where a 2-vector entry is
correct.
clojure.walk + clojure.template join the prelude stdlib tier. The driver
now evals each stdlib ns's requires -- and the ns form's (:require ...)
clause -- so an aliased ref (template's walk/postwalk-replace) resolves at
emit time instead of lowering to an Unknown class host-static. ns forms are
evaled for that side effect but not emitted, so the runtime *ns* doesn't
leak to the last stdlib ns.
Parity 2163 -> 2176, 0 new divergences. New test/chez/_walk.janet 39/39.
Bare class names (String, Keyword, File...) evaluate to their JVM
canonical-name string, the same value (class x) returns, so
(= String (class "x")) holds and (defmethod m String ...) keys match a
(class ...) dispatch. New host/chez/host-class.ss ports
eval_resolve.janet's class-canonical-names + core_refs.janet's core-class
(scalar arms; collections/seqs are host-taxonomy-dependent and not class-
compared in the corpus).
The analyzer already resolves these names to clojure.core vars (the seed
ctx interns them via setup-class-ctors), so the back end emits
(var-deref "clojure.core" "String") and a runtime def-var! is all that's
needed -- no analyzer change, Janet path untouched. The class native MUST
land together with token resolution: alone it turns the bare-token corpus
cases (562/564) into divergences (this bit last session).
Parity 2154 -> 2163 (cases 560/562/563/564/2500-2503), 0 new divergences.
New test/chez/_class.janet 19/19.
The Chez atom record gains watches (an alist of key->fn) and validator
slots. swap!/reset! now validate the candidate value before storing and
notify watches after, in the seed's order (core_refs.janet) — the watch fn
is called (key ref old new). compare-and-set!/swap-vals!/reset-vals! route
through reset!/swap! so they validate + notify too.
add-watch/remove-watch/set-validator!/get-validator are native here and
re-asserted in post-prelude.ss: the clojure.core overlay implements them via
jolt.host/ref-put! on (get atom :watches), a Janet-table mutation a Chez atom
record can't answer, so its def-var! would otherwise clobber these. set-
validator! validates the current value immediately (Clojure throws if already
invalid).
Parity 2150 -> 2154, 0 new divergences. New test/chez/_atomwatch.janet 10/10.
The (class x) native and the clojure.walk port were explored this increment
but deferred: class alone makes the String-class-token corpus cases emit-and-
run with a wrong value (the bare token doesn't resolve yet) — filed jolt-13zk
to land the native together with token resolution; clojure.walk is blocked on
list? + map-entry-as-vector (jolt-75sv).
The analyzer lowers the `.` special form (. target member arg*) and the
.-field field-access head to a :host-call instead of leaving them
uncompilable. Janet behaviour is unchanged — its back end punts :host-call
to the interpreter, which re-runs the original `.` form via eval-dot.
The Chez back end routes a non-shimmed :host-call through
record-method-dispatch, extended by a new host/chez/dot-forms.ss with the
arms dispatch-member covers but the record/string base did not, mirroring
src/jolt/interop/collections.janet precedence:
- collection interop first (count/seq/nth/get/valAt/containsKey on a
vector/map/set), so (. {:count 9} count) is the entry count like the seed
- field access for a "-name" member (records and maps)
- the seed's universal object-methods (getMessage/getCause/toString/
hashCode/equals) on a non-record map, winning over a field lookup
- non-record map member: a stored fn is a method called with self, else
the field value
Raw seqs are excluded from coll interop — the seed's behaviour there is
representation-dependent (plain (seq v) vs a lazy-seq) and a normalized cseq
can't mirror it. Also added getMessage/getLocalizedMessage/equals to the
string method surface so a thrown string / Exception. ctor (which keeps the
message string) answers .getMessage.
Parity 2134 -> 2150, 0 new divergences. New test/chez/_dotform.janet 26/26;
emit-test 331/331.
Lower host class interop on the Chez back end. The analyzer now turns a
non-var qualified ref `Class/member` into a :host-static node and a
`(Class. ...)` / `(new Class ...)` form into a :host-new node (ir.clj
gains both, with walker support). The Janet back end punts both to the
interpreter, so its behavior is unchanged (verified: dot-form, `..`
threading, shadowed `new`, and all interop still resolve via fallback).
The Chez emit lowers a value ref to host-static-ref, a call head to
host-static-call, and a constructor to host-new. host/chez/host-static.ss
is the runtime registry these resolve against — the Chez port of the
seed's class-statics / class-ctors / tagged-methods (java_base.janet +
host_io.janet), restricted to the java.lang/util/net/io surface portable
cljc code calls: Math, System (getenv/getProperty/exit/currentTimeMillis),
Long, Integer, Boolean, Character, String, Thread, Class, Pattern
(compile/quote/MULTILINE), URLEncoder/Decoder, Base64, the Number method
surface (byteValue/intValue/...), plus the StringBuilder, StringWriter,
StringReader, PushbackReader, HashMap, StringTokenizer, BigInteger,
String, MapEntry, and exception constructors. Constructed objects are
jhost records dispatched through record-method-dispatch.
Also: emit now evaluates collection-literal elements left-to-right
(emit-ordered) — Chez evaluates call args right-to-left, which had been
swapping side-effecting elements in [(read r) (read r)] and map literals.
This un-allowlisted the 6 eval-order corpus cases (the read-line trio +
the three map-construction cases). Removed `.write` from the
jolt-host-call fast-path so a StringWriter routes through dispatch.
java.time formatting, edn/read-over-readers, and slurp/with-open over
readers are deferred to a follow-up.
Corpus parity 2078 -> 2134 (floor raised), 0 new divergences; the
print-method builtin-override case is allowlisted (same multimethod gap,
newly reachable now that StringWriter constructs). emit-test 326/326,
_javastatic 51/51, conformance 355x3, full jpm test green.
Bring the clojure.string namespace up on Chez so aliased refs like s/split,
s/upper-case, s/join, s/replace resolve and run.
Three pieces. (1) The Chez AOT driver analyzes the whole user form before any
require runs, so a (require '[clojure.string :as s]) never registered the
alias in time; eval-e-with-prelude now recursively pre-evals require/use forms
against the ctx, which loads the aliased ns and registers the alias so the
analyzer resolves s/X to a clojure.string var. (2) emit-core-prelude emits
stdlib namespaces (clojure.string) as their own def-var! tier through the same
analyze->emit pipeline, so the runtime var-deref resolves. (3) natives-str.ss
def-var!s the str-* primitives clojure.string.clj is written over (upper/lower/
trim/triml/trimr/find/reverse-b/join/split/replace/replace-all), plus no-op
require/use. Regex split keeps interior empties and honors the limit (ported
the seed re-split); regex replace does $N backref expansion and fn replacement
(ported replacement-for). new RT/clj files added to the prelude fingerprint.
Corpus prelude floor 2026 -> 2078 (+52), 0 new divergences. _strns 28/28 vs
build/jolt. Four previously-CRASHING cases now emit+run and surface pre-existing
gaps (read-line vector eval-order x3, instance? clojure.lang.Atom) — allowlisted
with notes. full jpm test + conformance x3 green.
Port the java.lang.String/CharSequence method surface to the Chez RT so
(.toUpperCase s), (.substring s a b), (.indexOf s x), the regex methods
(.matches/.replaceAll/.replaceFirst/.split), etc. run on a string target.
natives-str.ss holds jolt-string-method, ported from the seed's surface in
eval_resolve.janet: ASCII case mapping (byte-oriented like the seed), -1 on
indexOf miss, flonum numeric returns to match jolt's number model, Scheme
chars for charAt, and the regex methods over the irregex compiled via
jolt-re-pattern. record-method-dispatch gains a string? arm that falls
through to it (unsupported methods still throw).
Corpus prelude floor 2002 -> 2026 (+24), 0 new divergences. _str 27/27 vs
build/jolt; full jpm test + conformance x3 green.
The (. x m) dot-form (the . special form, distinct from .method sugar) and
the clojure.string namespace (needs prelude plumbing + Pattern) stay deferred.
Implement (type x) on the Chez RT (host/chez/natives-meta.ss). Mirrors the
seed's core-type: the :type metadata wins when present, a record yields its
ns-qualified class-name SYMBOL (user.TyR — no-ns sentinel #f so it = the
overlay's (symbol (str t))), everything else a host-taxonomy keyword
(:number/:string/:vector/:map/:set/:seq/:fn/…). Total by construction — a
non-record value falling through to a crash would read as a divergence, so the
cond covers every value type incl. the host wrappers (atom/volatile/regex/var/
transient/uuid -> :jolt/*, a :jolt/type-tagged map like ex-info -> its tag,
sorted-set -> :jolt/sorted-set, sorted-map -> :map) and a final :object.
Also pin sequential?/seq? on lazy seqs (test/chez/_seqpred.janet): the inc M
seq? re-def-var! fix already covers sequential? transitively (sequential? is
overlay and delegates to seq?), so no code change — the earlier "still broken"
note was wrong, it assumed sequential? was native like seq?.
Prelude corpus parity 2000 -> 2002 (the two type cases), floor raised, 0 new
divergences. Gate: _type 37/37 + _seqpred 22/22 (both vs build/jolt oracle),
emit-test 321/321, full jpm test, conformance 355x3.
Add the dynamic-binding cluster on the Chez RT: a per-thread binding stack
(host/chez/dyn-binding.ss) backing binding / with-bindings* / var-set /
thread-bound? / with-local-vars / with-redefs / bound-fn* /
get-thread-bindings / alter-var-root + the __local-var seam.
Frames are stored innermost-first as identity-keyed alists of mutable
(cell . value) pairs, so var-set updates the current binding in place. The
two var-read paths — var-deref (compiled code) and jolt-var-get (var-get /
deref on a cell) — are chained onto the stack so a `binding` frame is seen
by every read, with a fast path when the stack is empty. var-cells now hash
by ns/name so a var works as a map key (with-redefs builds (hash-map (var f)
v); get-thread-bindings returns a var-keyed map).
Fix a latent bug exposed once with-in-str could bind *in*: seq? didn't
recognize a lazy-seq. predicates.ss's jolt-seq? predates the lazyseq record,
and unlike the native-op dispatchers it's reached via var-deref, so the
patch must re-def-var! the var, not just set! the top-level binding.
Note: with-bindings* over a hash-map literal now returns the correct Clojure
value where the seed returns a stale one — the seed's PHM can't find a var
key (which is why its `binding` uses array-map); on Chez frames look up by
cell identity.
Prelude corpus parity 1972 -> 2000, floor raised. Gate: _dynbind 24/24,
prelude corpus 0 divergences, full jpm test, conformance 355x3.
Capture a def's reader metadata on the Chez var. The :def emit now lowers a def
with non-empty metadata to def-var-with-meta!, which stores the user meta
(^:private / ^Type tag / docstring -> {:doc}) in an eq side-table keyed by the
var-cell. jolt-meta of a var-cell merges that onto {:ns :name} derived from the
cell, so every var reports {:ns :name} like Clojure with the def-time meta
layered on. (^{:map} metadata on a def name stays uncompilable for the compiler
generally — analyzer rejects it, the Janet back end punts to its interpreter,
which Chez lacks — so it's out of subset, not a meta-capture gap.)
Added natives-meta.ss to the prelude-cache fingerprint. Prelude parity
1969 -> 1972, 0 new divergences; the three var-metadata allowlist entries
(^:private / ^Type tag / docstring) dropped. New focused gate
test/chez/_var_meta.janet.
Reimplement the ctx-coupled seed ns natives over the rt.ss var-table, since
Chez has no ctx. host/chez/ns.ss adds a jns namespace value + a registry and
binds find-ns/the-ns/create-ns/in-ns/all-ns/ns-publics/ns-map/ns-interns/
ns-aliases/resolve/find-var/ns-unmap/*ns* into clojure.core.
The resolve friction: native-ops (+, map, …) are inlined at emit so they have
no var-cell, and (resolve '+) was nil — diverging from Clojure where it's a
var. Added a defined? flag to the var-cell record (set by def-var!/declare-var!,
left false on a lazily-materialised forward ref) and def-var!'d every native-op
name to its value-position proc, so resolve returns the cell iff genuinely
defined. ns-unmap clears the flag. resolve never interns an empty cell
(var-cell-lookup is non-creating).
ns-name is overridden natively in post-prelude (the overlay reads
(get ns :name), nil on a jns record); the printers render a namespace as its
name. *ns* binds to the user ns; in-ns re-binds it. use/require cross-ns
switching stays deferred to Phase 3 (the analyzer bakes a def's target ns at
compile time).
Prelude parity 1951 -> 1969, 0 new divergences; four now-passing allowlist
entries dropped (ns *ns* cases + str-of-a-var). New focused gate test/chez/
_ns.janet (19 cases, expectations from the JVM-canonical build/jolt).
inc I (jolt-n7rz) — vars as first-class objects. (var x)/#'x lowered a
:the-var IR op the Chez emitter didn't handle (57 emit-fails, the biggest
bucket); emit it to the rt.ss var-cell and shim the static var ops in
vars.ss: var?/var-get/deref/var-as-IFn/var =/pr-str (#'ns/name) + a native
bound? (the overlay reads (get v :root), nil on a var-cell record). def now
RETURNS the var (#'ns/name) like Clojure — def-var!/declare-var! yield the
cell, not the value — so (var? (def x 1)) is true and pr-str-of-var/defn
pass (un-allowlisted). Dynamic binding (binding/with-bindings*/var-set/
thread-bound?) stays a follow-up; those crash on nil host prims (safe).
Var def-time metadata (^:private/^Type/doc) isn't captured yet — allowlisted.
inc J (jolt-snry) — scalar natives. natives-misc.ss: a juuid record
(random-uuid v4 / parse-uuid / uuid? / #uuid pr-str / str), a %-format
engine (%d/%s/%.Nf/%x/%c/%%; printf rides on it), a jtagged record
(tagged-literal + :tag/:form + #tag pr-str), bigint/biginteger as
near-identity over the all-flonum model. Overlay names (uuid?/random-uuid/
parse-uuid/tagged-literal?) re-asserted in post-prelude.ss.
Prelude parity 1898 -> 1951, 0 new divergences. Floor raised to 1951.
sequence and transduce were seed natives nil on the prelude; the stateful
transducer arities (take-nth/map-indexed/partition-by, overlay) drive a
volatile via volatile!/vswap!/vreset!/deref, also unshimmed — so the whole
(sequence xform coll) / (transduce xform f coll) surface crashed.
natives-xform.ss: native volatiles (a jvol record + volatile!/vreset!/
vswap!/volatile? + a deref arm); transduce/sequence built on the existing
into-xform / reduce-seq. The overlay vreset!/vswap!/volatile? drive a
volatile through ref-put!/:jolt/type (tagged-table only), so they're
overridden natively in post-prelude.ss.
driver.janet: drain each chez pipe to EOF instead of a single ev/read. A
program with a stdout side effect (newline) flushes in two writes and a
lone ev/read sometimes caught only the first chunk, dropping the trailing
value — an intermittent gate divergence. Now reads until the pipe closes.
Prelude parity 1886 -> 1898, 0 new divergences. Floor raised to 1898.
The lazy-seq macro expands to (make-lazy-seq (fn* [] (coll->cells body)))
and lazy-cat to (concat (lazy-seq c) ...); both seed natives were nil on
the prelude, so every overlay fn built on lazy-seq — repeat/iterate/
cycle/dedupe/take-nth/keep/interpose/reductions/map-indexed/distinct/
interleave/tree-seq(->flatten)/partition-all/lazy-cat — hit apply-jolt-nil.
lazy-bridge.ss bridges to the cseq model: a jolt-lazyseq is a deferred
seq forced once by an extended jolt-seq; jolt-cons defers a lazyseq tail
so an infinite (repeat/iterate/cycle) stays lazy. A lazyseq is a new
value type, so the dispatchers that don't route through jolt-seq learn it
(sequential? for =/hash, plus count/empty?/nth/printers) or a raw
unrealized lazyseq escapes — the corpus compares (= [1 3 5] (take-nth …))
against it directly.
seq.ss: jolt-concat is now fully lazy (the rest isn't forced until the
first coll is exhausted), so a self-referential lazy-cat — fib =
(lazy-cat [0 1] (map + (rest fib) fib)) — no longer memoizes its tail as
empty by reading fib before its def binds.
Prelude parity 1837 -> 1886, 0 new divergences. Floor raised to 1886.