Dialects without JVM interop can now filter the conformance corpus: :jvm
marks rows exercising host interop (java.*/clojure.lang.* class references,
dot forms, ctors, statics, arrays, proxy/bean), :common is portable Clojure
any dialect must satisfy. 3565 rows tagged (3175 common / 390 jvm), the key
documented in the row schema, and regen-corpus preserves it on rewrite.
Closes#289.
Auditing the remaining cts baseline for R7 exposed real contract gaps hiding
among the model residue — all fixed to reference behavior:
- stale no-ratio-era stubs: numerator/denominator now work over jolt's exact
rationals (non-ratio is the Ratio cast failure); rational? includes decimals
- casts and pending: peek/pop demand an IPersistentStack (pop nil is nil),
realized? demands an IPending (a plain list/range throws), transient demands
an editable COLLECTION (non-colls throw; the RFC 0003 sorted/list/seq
superset keeps the copy-on-write fallback), empty on a plain record throws
- nil and empties: (nth nil i) is nil, (nth nil i d) is d, a nil index is NPE,
keys/vals of anything empty are nil, (conj nil) is nil
- lookups: contains? on a string is index-only (other keys IAE), get on an
array is lenient (nth still throws), a VECTOR invocation has nth semantics
(([1 2] 5) throws — call position and jolt-invoke both)
- into only transients editable collections; a PersistentQueue/sorted target
folds through conj (RT's IEditableCollection split)
- numbers: number?/num accept BigDecimal, quot/rem throw on an Infinite/NaN
quotient, even?/odd? demand integers
- ordering: keywords compare namespace-first with nil first (Symbol.compareTo)
- misc: run! honors reduced, eval self-evaluates non-form values, intern
demands an existing namespace, counted? excludes strings, seqable? includes
arrays, shuffle rejects maps, sort-by rejects a collection comparator,
when-let demands one binding pair, case*/deftype*/letfn*/reify*/& are
special symbols
Two mis-certified corpus rows fixed (they threw on the JVM too and hid in the
tolerated bucket): a raw \d string escape and duplicate literal map keys.
SPEC.md gains the baseline-traceability section: every one of the 146
remaining suite failures maps to a documented divergence (integer-box,
no-single-float, RFC 0003 transients, seq/chunking model, stm-refs,
parse-uuid strictness, vec-array adoption). cts baseline 5955 -> 6042 pass,
5 errors, 30 namespaces. 9 JVM-certified corpus rows.
The reader now rejects what the JVM reader rejects: a token that starts
like a number but doesn't parse is NumberFormatException (1a, 08, 0x2g,
2r2 — never a symbol); ratio parts are digit runs (1/-1 invalid) with a
zero denominator throwing ArithmeticException; empty ns/name parts are
invalid tokens (:, ::, foo/, /foo) while /, ns//, and :/ stay valid;
duplicate map keys and set elements throw at read; unsupported string
escapes and octal escapes past \377 throw; a stray close delimiter is
'Unmatched delimiter'; \r ends line comments. #inst validates its
calendar fields progressively (leap years included) and #uuid demands
canonical hex. 1-arg symbol splits its ns at the FIRST slash
(Symbol.intern): (symbol "foo/bar/baz") is foo/"bar/baz".
clojure.edn gets its own strict seam (__read-form-edn): auto-resolved
keywords are invalid there, every #_ discarded form validates through the
same :readers/:default pipeline (an unreadable tagged element throws even
when discarded), built-in tags win over :default, M literals construct
BigDecimals, lists satisfy list?, and EOF honors :eof — an opts map
without :eof makes end-of-input an error.
clojure.edn-test.read-string goes 246 pass / 46 fail / 5 errors -> 297/0/0
(fully clean). cts baseline 5904 -> 5955 pass, 23 errors, 56 baselined
namespaces. 9 JVM-certified corpus rows; reader spec section.
The clojure.string case fns and searches now take any Object s through its
toString like the reference's ^CharSequence signatures ((upper-case :kw) is
":KW", (capitalize 1) is "1"); nil throws, and a nil substr in
starts-with?/ends-with? throws. some-fn re-ported with the reference
arities: (some-fn) is an arity error and a no-match result is the last
predicate's own falsy value (false, not nil). ifn? covers multimethods,
promises (which are now invocable — calling one delivers, via a cold-path
invoke-arm registry that costs the hot dispatch nothing), and deftypes
implementing IFn's invoke.
One structural find on the way: defmulti/defmethod deferred inside a fn
body (the deftest pattern) interned/resolved in whatever namespace was
current when they RAN, not the one they were written in — the macros now
bake their expansion ns and the setups honor it.
Also: Boolean/Integer/Double wrapper ctors, primitive TYPE statics
(Integer/TYPE etc.), .reduce on collections (IReduce), and Long/TYPE.
cts baseline 5857 -> 5904 pass, 58 -> 28 errors, 57 baselined namespaces —
the string cluster, some-fn, ifn-qmark, boolean-qmark, and reduce
namespaces are all fully clean. 7 JVM-certified corpus rows; spec entry.
byte/short/int/long/char silently wrapped or passed out-of-range values
through; the JVM range-checks (RT.byteCast family). One checked-cast
helper now carries the ranges: a double range-checks ITSELF before
truncating ((byte 1.1) is 1, (byte 127.000001) throws), NaN casts to 0,
ratios and bigdecs truncate, a non-number is CCE, and the throw carries
the JVM message. float range-checks against Float/MAX_VALUE. The
unchecked-* casts now genuinely wrap and sign-fold ((unchecked-byte 200)
is -56 — the old bit-and lost the sign) with doubles saturating like
Java's conversions; unchecked-long/int are host natives. double/float of
a bigdec convert instead of crashing. The no-single-float residue stays
accepted (SPEC.md).
Also fixes#290: a binary built by the SELF-CONTAINED joltc died with
'variable var-deref is not bound' when a namespace loaded at runtime.
The in-process build compiled flat.ss against a clean copy-environment,
which orphans every top-level define in locations the binary's runtime
eval can't see. It now compiles against the default interaction
environment (defines land in the real symbol cells, same as the legacy
fresh-Chez path) and a generated prologue pre-binds each kernel name the
runtime redefines to its kernel value, so the earliest boot reads match
the legacy path's primitive references. requiring-resolve is implemented
(the issue's dynamic-require pattern), and the release workflow smokes a
runtime require in a built binary.
Cast namespaces byte/short/int/long/char now fully clean; cts baseline
5805 -> 5857 pass, 67 baselined namespaces. 7 JVM-certified corpus rows.
add-watch/remove-watch/set-validator!/get-validator were atom-only; the
atom ctor ignored :meta and :validator; watching a var crashed. Now the
ARef contract is one seam: atoms keep their record slots (hot path
unchanged), every other reference type registers a predicate and stores
watches/validators in identity-keyed side tables, and notifies at its
mutation points. Vars notify on root changes (def on a watched var,
var-set outside a thread binding, alter-var-root — thread-binding sets
don't notify, like the JVM); agents notify per action. The def-var! wrap
costs two weak-table probes per def and does IRef work only on a watched
var.
Ctor options follow ARef: the validator gates the initial value
(IllegalStateException 'Invalid reference state' — also the class for
rejected swap!/reset!), :meta must be a map (else ClassCastException),
nil allowed. meta reads any reference through the identity side-table
(the type-gated fall-through is gone); alter-meta!/reset-meta! work on
non-var references.
Runtime-only (no re-mint). 9 JVM-certified corpus rows; spec entry; cts
baseline 5781 -> 5805 pass, 73 baselined namespaces (the residual error
in the watch namespaces is their STM ref section — refs stay out of
scope).
derive/underive/ancestors/descendants/parents/isa? re-ported from
clojure.core with the argument assertions and throw contracts intact:
derive asserts tag/parent shapes (AssertionError) and throws on redundant
or cyclic derivation; underive/derive on a non-hierarchy value throw at the
parents lookup (the map is called as a function, like the reference);
(descendants h SomeClass) throws UnsupportedOperationException. isa? gains
the reference's supers arm (a relationship derived on a class's super
applies to the class).
The class arms now answer fully through the one class graph: parents of a
class are its direct supers (bases), ancestors are the transitive set
rooted at java.lang.Object for concrete classes (interfaces are marked and
don't root at Object, matching getSuperclass semantics). deftype/defrecord
classes register into the graph at definition — protocol interfaces they
implement appear as supers (JVM-munged ns spelling), records carry the
record interfaces (IRecord/IPersistentMap/... whose closure supplies
Associative/Seqable), bare deftypes carry IType. The type NAME var still
holds the ctor (a jolt-ism); class-key maps it back to the class so
(ancestors TypeName)/(isa? x TypeName) work. canonical-host-tag learned to
NOT canonicalize deftype names through the graph arm (extend-type on a
deftype was registering under the bare segment its values never report).
Five old corpus rows used non-namespaced derive tags that throw on the JVM
too; now namespaced. 8 new JVM-certified corpus rows; spec entries for the
hierarchy family; cts baseline 5730 -> 5781 pass (ancestors/derive/
descendants/parents/underive namespaces fully clean), 74 baselined
namespaces.
Arithmetic and comparisons lowered to raw Chez ops, so an operand outside
Chez's tower (BigDecimal) crashed with a raw condition, and Chez contagion
leaked: (* 1.0 0) gave exact 0 where the JVM gives 0.0, (* ##Inf 0) gave 0
instead of ##NaN, (/ 1 0) raised an untyped error.
One seam now (host/chez/seq.ss): call position emits jolt-n* macros with the
both-Chez-numbers fast path open-coded; value position folds through the same
binary ops. Anything outside the tower falls to per-op slow hooks that
java/bigdec.ss extends, so bigdec arithmetic works in every position (the old
static-only :bigdec typing limitation is gone). JVM rules patched into the
fast path: a double operand wins, an exact zero divisor throws
ArithmeticException while a double zero divisor yields Inf/NaN, quot/rem/mod
cover ratios and doubles, min/max return the original operand with NaN
winning, a nil operand is NPE and a non-number CCE, zero-arg -// throw
ArityException at runtime instead of failing expansion.
Also: with-precision now binds *math-context* and bigdec results round with
real RoundingMode semantics (UNNECESSARY throws; division rounds to precision
instead of throwing); rationalize goes through the shortest decimal print
like BigDecimal.valueOf (the identity stub is gone); ratios coerce to bigdec
like Numbers.toBigDecimal; min/max int-literal operands no longer coerce to
flonum in the numeric pass.
Perf neutral: fib and seq benches unchanged (the fast path is two type checks
the optimizer folds); hinted fl/fx paths untouched. 19 JVM-certified corpus
rows; cts baseline 5614->5730 pass, 192->88 errors, 84->79 baselined
namespaces.
are let-bound its template vars, so a var inside quote never substituted:
(are [x] (special-symbol? 'x) if def) tested the literal symbol x twice.
Rebuild are on clojure.template/do-template (postwalk substitution), the
same architecture as upstream, with the same arg-count check.
This un-aborts every suite namespace whose are rows need substitution:
cts baseline moves 5302->5614 pass, 236->192 errors, 88->84 baselined
namespaces. The newly-reachable assertions also surface real divergences
now baselined and filed (edn reader strictness, Boolean ctor).
jank-lang/clojure-test-suite (per-core-fn clojure.test suites shared across
Clojure dialects) joins the default gate as vendor/clojure-test-suite, run by
host/chez/cts.sh: one joltc process per test namespace (a hang or crash is
contained by a per-process timeout), through the test/chez/cts-app project and
its cts-run runner, parallel workers.
Gating is exact per namespace against test/chez/cts-known-failures.txt, like
certify's allowlist: a namespace doing worse than the baseline fails, and one
doing better also fails as stale until the baseline is updated in the same
change. JOLT_CTS_WRITE_BASELINE=1 regenerates it; JOLT_CTS_NS runs a subset
verbosely.
Current standing: 243 namespaces, 5302 assertions pass, 340 fail + 236 error
across 88 namespaces pinned in the baseline (dominant clusters: BigDecimal
arithmetic operands, derive/ancestors hierarchy, transients, special-symbol?,
clojure.string case fns, the accepted narrow-int and seq-type-model
divergences). Two consecutive full runs produce identical counts. Wired into
make ci; skips cleanly when the submodule isn't checked out.
Five fixes shaken out by running jank-lang/clojure-test-suite:
- = short-circuits on identity like Util.equiv's k1 == k2, so (= s s) on an
infinite lazy seq answers true instead of walking forever. Numbers keep the
exactness-aware arm ((= ##NaN ##NaN) stays false like the JVM's).
- Calling a non-fn names the operator's CLASS in the ClassCastException, like
the JVM — never the value, whose printed form may be unbounded: ((range))
must throw, not hang rendering an infinite seq.
- realized? on a seq cell answers by its forced flag (the rest of a realized
lazy chain is a cseq under jolt's seq model), and the overlay's unsupported-
type error names the class, not the (possibly infinite) value.
- clojure.test/is dispatches a REGISTERED assert-expr method before its by-name
inline paths, like clojure.test where the built-ins are just pre-registered
methods — so an alias-qualified p/thrown? (the suite's portability helper)
isn't captured by the built-in thrown? path, which read its body as a class.
- clojure.test tracks tests and fixtures per namespace: deftest records its
defining ns, use-fixtures registers under the calling ns (no more cross-ns
clobbering), (run-tests 'ns ...) runs only those namespaces like clojure.test,
and each run-tests call prints/returns its own summary (global counters stay
cumulative for the n-pass/n-fail harness API).
Re-mint (20-coll.clj is seed; prelude only). +2 JVM-certified corpus rows;
the clojure-test fixture pins the alias-qualified assert-expr, per-call
summaries, and ns filtering.
The macos-13 Intel runner no longer gets allocated, so the x86_64-macos release
job queues forever. Ship prebuilt binaries for x86_64-linux and aarch64-macos;
Intel Macs build from source. The install script now says so instead of 404ing
on a missing asset.
next.jdbc's own source needs clojure.datafy + clojure.java.data and its tests
need JVM JDBC drivers, so it doesn't run on jolt. Keep clojure.jdbc (via
jolt-lang/db's jdbc.core over FFI SQLite) as the supported JDBC surface; point
migratus at jolt-lang/db.
The self-contained build reads the bundled Chez petite/scheme boots from the
joltc binary via foreign-entry on the embedded jolt_* symbols. On Linux dlsym
can't see an executable's symbols unless they're in the dynamic symbol table, so
'build' died with 'foreign-entry: no entry for jolt_petite_boot_len'. -rdynamic
exports them (macOS already resolves them). The new release self-contained-build
smoke caught this on the Linux runner.
`joltc build` inlines the runtime (host/chez/rt.ss and everything it loads, the
seed, compile-eval, loader, ffi, the vendored irregex) into each app binary by
reading those files off disk. That works from a jolt checkout but not from the
installed self-contained binary, which has no source tree:
joltc build -m app.core
=> Exception in call-with-input-file: failed for host/chez/rt.ss: no such file
build-joltc now bakes the exact transitive closure of files the build inlines
into the binary as embedded resources (keyed by the path the `(load "…")` forms
use), and build.ss/dce.ss read runtime source through bld-source-string, which
takes the embedded copy when present and falls back to disk otherwise. So the
same joltc builds apps both from a checkout and standalone.
The release workflow now smoke-tests a self-contained build (compile a tiny app
from an isolated dir, run it) — this is exactly what shipped broken, so it now
gates the release. buildsmoke/shakesmoke/staticnativesmoke unchanged and green.
Build tooling only — no re-mint, no runtime change.
install (root) downloads the self-contained joltc release asset for the host
platform, verifies its sha256, and drops the binary in /usr/local/bin (--dir /
--version override). Resolves the latest release via the GitHub API, clears the
macOS quarantine flag, and backs up an existing joltc. Modeled on babashka's
installer. README gets a one-line curl|bash install.
Document the register-class-supers! seam next to the other host-class hooks:
when a library class belongs to a hierarchy (a custom exception caught as
IOException, a value matching instance? across its supertypes and dispatching a
protocol extended to any of them), declare its supers once and instance?/isa?/
supers/extend-protocol all derive.
An unknown reader tag produced the reader's internal form
{:jolt/type :jolt/tagged :tag :#foo :form bar}, which tagged-literal? didn't
recognize and which leaked as a raw map when printed:
(tagged-literal? (read-string "#foo bar")) => false ; want true
(pr-str (quote [#foo bar])) => "[{:jolt/type :jolt/tagged ...}]"
Both the data path (rdr-construct-tag) and the compile path (emit-quoted) now
build a real tagged-literal for a tag with no registered reader, like Clojure's
*default-data-reader-fn*, so tagged-literal? / :tag / :form / printing all work.
clojure.edn reads raw forms through a separate __read-form-raw path and applies
:readers/:default itself, so it is unaffected.
Re-mint (backend + reader are seed sources); prelude byte-identical, image only.
make test green (selfhost holds, 0 new/stale), +2 unit rows.
jolt's own throw sites raised untyped Chez conditions with the class name buried
in an English message, so (class e) reported the opaque :object and only a broad
catch worked:
(class (try (Long/parseLong "xyz") (catch Throwable e e))) => :object
; JVM: java.lang.NumberFormatException
Raise typed throwables (jolt-host-throwable) at the Long/Double parse and
StringTokenizer sites so (class e) / .getMessage / a specific catch all reflect
the real class. And fold the exception supertype table (exception-parent) into
the one class graph: exception-isa? now resolves the simple name to its graph key
and asks jch-isa?, so exceptions and every other class share a single hierarchy.
Runtime only, no re-mint. make test green (0 new/stale), +2 corpus rows.
The "does value V declare method M; if so call it" decision was re-derived in a
dozen places with two different lookup helpers — records.ss jrec-cl and
collections.ss rec-coll-method were a byte-for-byte duplicate — and reduce only
honored a reify's own reduce method, not a deftype's:
(reduce + 100 (->Rng 5)) ; Rng deftype implementing IReduceInit
=> "not seqable" ; JVM: 110
Add iface-method / iface-call: one lookup that resolves a method for a deftype OR
a reify, with arity, and is the seam a core fn's interface arm collapses to.
jrec-cl now aliases rec-coll-method (the duplicate is gone). reduce routes its
IReduceInit arm through iface-method, so a deftype's reduce drives the reduction
like a reify's, reduced short-circuit included.
Runtime only, no re-mint. make test green (0 new/stale), +2 corpus rows.
record-method-dispatch was rebound with (set! record-method-dispatch ...) in six
files, each wrapping the previous binding, so precedence was whatever the rt.ss
load order happened to be — the true outermost arm was inst-time's Date arm, not
the one you'd guess. A type-gated wrapper that only whitelists its own methods
then errored on everything else, stealing universal Object methods from the arms
beneath it: (.getClass (java.util.Date.)) threw "No method getClass on Date",
same for File, while (class ...) and (.getClass "s") worked.
Replace the wrapper stack with an ordered list of arms (register-method-arm!,
ascending priority), each returning 'pass to defer. getClass is now one arm at
the top reached by every value, so it can't be shadowed; the three duplicate
getClass checks (dot-forms, host-static, base) collapse into it. Each former
wrapper is an arm at an explicit priority instead of an implicit load-order slot.
A library can register its own arm rather than set!-wrapping the dispatcher.
Runtime only, no re-mint. make test green (0 new/stale divergences), +1 corpus
row for getClass on Date/File.
instance?, extend-protocol dispatch, isa?/supers/ancestors, and the exception
hierarchy each read their own hand-kept table, and those tables had drifted:
(instance? clojure.lang.Associative [1 2]) was true but a protocol extended to
Associative wouldn't dispatch to a vector; keyword/IFn and seq/Seqable had the
same split; (isa? ExceptionInfo RuntimeException) was false and
(supers NumberFormatException) was empty.
Add one FQN -> direct-supers graph (class-hierarchy.ss) and derive the views
from it. value-host-tags builds on the graph closure so a vector reports
Associative/Indexed/ILookup/Counted/Seqable, a keyword reports IFn, a seq
reports Seqable/List/Counted, etc. instance? now tests membership in that same
list, so it can't disagree with dispatch. canonical-host-tag recognizes any
modeled class (was a separate literal set missing Seqable/ILookup/...).
class-direct-supers unions the graph edges and class-supers returns the
transitive closure, so the exception hierarchy answers isa?/supers/ancestors.
The graph is open: jolt.host/register-class-supers! lets a library graft its
own classes on and get every view for free.
Runtime only, no re-mint. make test green (0 new/stale divergences), +3
JVM-certified corpus rows.
joltc failed to start on Windows — "Exception in foreign-procedure: no entry for
pthread_sigmask". concurrency.ss resolves pthread_sigmask/sigemptyset/sigaddset at
load with a top-level (foreign-procedure …), which resolves its symbol eagerly;
those POSIX signal fns don't exist on Windows, so the whole runtime aborted.
Guard the three resolutions (like sched_yield/chmod already are) so a non-POSIX
host yields #f, and make jolt-set-sigint-blocked a no-op when they're unavailable.
The per-thread SIGINT mask is a POSIX-only optimization for the nREPL accept loop;
Windows delivers ^C through the console, and park-until-interrupt still parks on a
condition variable. macOS/Linux resolve the symbols as before — unchanged.
Running the whole rewrite-clj test suite (159 tests) surfaced seven more bugs;
with these it passes 3377/0/0. Each is a general jolt/JVM divergence:
- *out* was pinned to the startup stdout port, so (.write *out* …) escaped a
with-out-str capture (z/print writes via *out*). It now resolves the live
current-output-port, like print/__write, so a redirect is seen.
- nth / assoc past the end of a vector or seq threw a bare Chez error (class
:object). Throw IndexOutOfBoundsException, matching the JVM.
- A number's .toString(radix) ignored the base. Render in the base, lowercase
(rewrite-clj rebuilds 0xff / 0377 / 2r1001 through it).
- A required namespace's own :as aliases leaked into its requirer: the loaded ns
form compiles while (chez-current-ns) is still the requirer, so ce-scan-requires!
registered the loaded ns's aliases under the wrong ns and clobbered a same-named
alias there. Register an (ns NAME …) form's aliases under NAME.
- A quoted collection dropped its metadata; now it keeps USER metadata (drops the
reader's :line/:column/:file), like a Clojure quoted constant.
- enumeration-seq only did (seq e); it now drives a java.util.Enumeration through
hasMoreElements/nextElement, and StringTokenizer implements them.
Regressions: corpus rows (with-out-str/*out*, nth/assoc bounds, toString radix,
quote metadata, enumeration-seq) certified against JVM; a smoke fixture for the
alias leak (a required ns's alias must not leak). tools.reader + rewrite-clj added
to docs/libraries.md. make test green.
irregex builds a POSIX leftmost-longest DFA for a pattern when it can, and jolt
used it for everything. For a pattern with an alternation whose branches have
capturing groups, that DFA leaks a non-participating branch's group: e.g.
#"(?:([0-9])|([0-9])r([0-9]+))" on "2r11" left group 1 = "2" instead of nil, so
tools.reader (rewrite-clj's dep) misread 2r1100 as 2 and 16rFF as 16.
java.util.regex is itself a leftmost-first backtracking engine, so compile a
capturing pattern with irregex's backtracking matcher ('backtrack): its submatch
semantics match the JVM and it clears a losing branch's group. Non-capturing
patterns keep the DFA — with no groups to read, its whole-match result is all a
caller sees, and it avoids backtracking's worst case. The submatch count comes
from a first cheap compile; a capturing pattern recompiles once and caches.
This clears the last rewrite-clj parser-test failure (now 772/0/0). Corpus rows
for the alternation-group case and the radix read. make test green.
Running the rewrite-clj test suite under jolt exposed six bugs, each fixed here:
- `for`/`doseq` `:let` bindings never went through `destructure`, so a
destructuring pattern (`:let [{:keys [y]} x]`) hit `let*` raw and failed to
compile. Emit `let`, like Clojure.
- `with-open` couldn't close a deftype/defrecord that implements a `close` method
(java.io.Closeable / AutoCloseable, e.g. tools.reader's readers) — `__close`
only knew jhost readers and map `:close` fns. Dispatch a record's `close`.
- A deftype/defrecord method param named like a field didn't shadow the field
(the field's let-binding wrapped the params). Params now shadow, as in Clojure.
- A deftype whose simple name collided with a built-in host class clobbered it in
the global ctor table, so `(java.io.PushbackReader. …)` built tools.reader's
same-named deftype. Register deftypes/built-ins by FQN, don't let a deftype
overwrite a built-in's simple name, and qualify a bare `(Name. …)` to the
deftype's FQN only in the ns that defined it.
- `clojure.walk` was lazy over a non-list seq (missing `doall`), so a walk whose
fn has side effects read stale state. Make it eager, like Clojure.
- `Character/isWhitespace` used an ASCII-only check that missed U+2028 and other
Unicode whitespace. Use the JVM's Unicode set (minus the no-break spaces it
excludes).
Regressions: corpus rows (for-let destructure, method-param shadow, walk eager,
isWhitespace), a unit row (with-open closes a record), and smoke checks (the
class-name collision, run in a fresh -e process so the deftype doesn't leak).
One divergence remains unfixed: a submatch from a losing regex alternation branch
leaks when the winning branch has a quantified group (a bug in the vendored
irregex engine, not jolt) — tracked separately.
A registered #tag data reader whose fn returns a FORM (borkdude/html's #html
expands to (->Html (str …))) was rewritten to a runtime call (reader-fn 'inner),
so the returned code became a runtime list value instead of being compiled —
(str #html [:div]) rendered the code, not "<div>". Clojure applies a data reader
at read time and substitutes its result as code.
loader.ss now applies the reader at load time: a code form (a list) is spliced in
to be compiled, a value (time-literals #time/date -> a Date) keeps the runtime
call, which also keeps a non-serializable constant out of an AOT build. The build
emit path never applied data readers at all (a #tag literal failed a `jolt build`
with "unsupported form"); emit-image.ss gets an ei-emit-form-hook the build sets
to the same rewrite, left as a no-op elsewhere so the seed mint (which doesn't
load loader.ss) is unaffected and the self-host byte-fixpoint holds.
Also make clojure.test report the actual values of a failing (is (= a b)) — it
printed only the form. Restricted to the common pure predicates so a macro head
still takes the plain path.
Fixture test/chez/datareader-app + a smoke check (interpreted) and a build-smoke
check (AOT). make test green, no corpus change.
A :jolt/native spec can now carry a :static archive; `jolt build` links it
into the executable, so the app calls the C code with no shared object on the
target. --dynamic (or :jolt/build {:dynamic-natives true}) keeps the old
runtime load-shared-object behavior; a spec with no :static is unchanged.
The cc link force-loads the archive (-force_load on macOS, --whole-archive on
Linux) and exports the executable's symbols (-rdynamic on Linux) so the baked-in
symbols resolve via (load-shared-object #f) + foreign-procedure at startup. Build
step 1 evaluates the app's foreign-procedure forms in-process, so a static
archive is preloaded there as a throwaway shared object to resolve them.
The distributed self-contained joltc has no external cc/Chez but must build these
apps, so it now bundles the Chez kernel (libkernel.a + scheme.h) and the launcher
source and re-links a custom stub with the archives baked in — needing only a
system cc, no Chez. run/repl skip static-only specs (nothing to load); keep a
:darwin/:linux candidate to use such a lib interpreted.
Adds static-native-smoke (cc path) to ci and a static phase to the joltc
self-build smoke (distributed path).
repl-form-complete? entered the :regex state on '#' but only consumed the
'#', so the opening '"' was then read by the :regex handler as the CLOSING
quote. The regex body got scanned in :code state, and any delimiter or quote
inside it (a group like #"(a)", a char class #"[0-9]+") threw off the
paren/string count — so a one-line regex form was judged incomplete and the
REPL hung waiting for continuation lines. Consume the '#"' together.
Adds a self-checking predicate test (test/chez/repl-reader-test.clj, run via
joltc so jolt.main resolves) and an end-to-end regex REPL case in smoke.sh.
The :expected was a bare list "(0 :a 2)", but run-corpus evals :expected as
source, so it applied 0 as a fn -> "0 cannot be cast to IFn". Every other
list-valued :expected is self-evaluating; this one slipped in unquoted.
Vectorize it to [0 :a 2], matching what regen-corpus.clj produces.