- grammar.ebnf: rewrite the number rule to cover the literal syntaxes the reader now accepts — 0x/0X hex, N (bigint) / M (bigdec) suffixes, ratios a/b, radixed integers (NrXXX, base 2..36), exponents, and the ##Inf/##-Inf/##NaN symbolic floats — noting Jolt reads them as plain Janet numbers. - README: Numbers bullet notes the literal syntaxes read; conformance count. - reader-syntax-spec: drop the stale 'ratio not supported' case; add coverage for hex-uppercase/N/M/ratio/radix/exponent/##Inf/##NaN. - PLAN.md: refresh the stale Current State snapshot for the 3-layer test structure (spec/integration/unit), ~3,920 suite assertions, 218/218 conformance, current source size. jpm test green. |
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|---|---|---|
| .beads | ||
| .clj-kondo/.cache/v1/clj | ||
| doc | ||
| src/jolt | ||
| test | ||
| vendor | ||
| .gitignore | ||
| .gitmodules | ||
| AGENTS.md | ||
| CLAUDE.md | ||
| clojure-features.clj | ||
| fix-core.janet | ||
| LICENSE | ||
| PLAN.md | ||
| preprocess.janet | ||
| project.janet | ||
| README.md | ||
| test-defprotocol.janet | ||
| test-eval.janet | ||
| test-form15.janet | ||
| test-ivar.janet | ||
| test-load-sci.janet | ||
| test-parse-utils.janet | ||
Jolt
A Clojure interpreter running on Janet. Jolt reads Clojure source, evaluates it with an interpreter written in pure Janet, and ships a Clojure-compatible standard library. The goal is a Janet-hosted SCI runtime — a minimal bootstrap that loads SCI's Clojure source as its standard library.
Build
git clone https://github.com/yogthos/jolt.git
cd jolt
git submodule update --init # pulls vendor/sci
jpm build # compiles build/jolt
Requires Janet ≥ 1.36 and jpm.
Run
build/jolt # start a REPL
build/jolt file.clj [args] # run a file (binds *command-line-args* and *file*)
build/jolt -e EXPR [args] # evaluate EXPR and print the result
build/jolt -h # help
The REPL accumulates multi-line forms until they balance:
user=> (defn fib [n] (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2)))))
#'user/fib
user=> (map fib (range 10))
(0 1 1 2 3 5 8 13 21 34)
Running a file evaluates its top-level forms:
$ echo '(println "hello" (* 6 7))' > hello.clj
$ build/jolt hello.clj
hello 42
Use as a library
(use jolt/api)
(def ctx (init))
(eval-string ctx "(+ 1 2)") # → 3
(eval-string ctx "(map inc [1 2 3])") # → [2 3 4]
(init) returns a context with clojure.core loaded. Each context is isolated; use separate contexts for separate environments.
Host interop
Jolt exposes CLJS-style host interop through . on any Janet table or struct — a field holding a function is called with the receiver as the first argument:
(def obj {:greet (fn [self name] (str "Hello " name))})
(. obj greet "Alice") ; → "Hello Alice"
(.-greet obj) ; field access (reader sugar for (. obj :greet))
Janet's standard library is reachable through jolt.interop (and the jolt.shell / jolt.http helpers built on it):
(require '[jolt.interop :as j])
(j/janet-type [1 2]) ; → :tuple
(j/janet-table-keys {:a 1 :b 2}) ; → [:b :a]
Differences from Clojure
Jolt targets Clojure semantics but runs on Janet, not the JVM. The notable divergences:
- Host platform. No JVM and no Java interop —
import,gen-class,proxyof Java classes, andjava.*are unavailable.instance?recognizes a small set of built-in types (clojure.lang.Atom,Number,String, …). - Numbers. Janet integers and doubles.
(/ 1 3)is0.3333…and large products lose precision. No ratios orBigDecimal(ratio?is always false,bigdecfalls back to a double);bigint/bigintegeruse Janet's 64-bitint/s64, not arbitrary precision. The reader still accepts Clojure's numeric literal syntaxes — the BigInt/BigDecimal suffixes (42N,1.5M), ratios (1/2), radixed integers (2r1010,16rFF), and exponents (1e3) — but reads them as plain Janet numbers (a ratio becomes its double quotient). The auto-promoting+'/-'/*'/inc'/dec'are aliases for the plain ops, since Janet numbers don't overflow.quot/rem/modfollow Clojure's sign rules. The symbolic values##Inf/##-Inf/##NaNread, andinfinite?/NaN?work. Janet represents an integer and an integer-valued double identically, so1and1.0are indistinguishable:(float?/double? 1.0)isfalseand(int? 1.0)istrue—float?/double?are true only for values with a fractional part or##Inf/##NaN. - Collections. By default Jolt uses immutable persistent data structures: vectors are 32-way branching tries (structural-sharing persistent vectors with O(log₃₂ n)
conj/assoc/nth), lists are persistent singly-linked cons cells (O(1)conj/consprepend with structural sharing), and maps/sets are persistent hash structures. Value equality and sequence operations are Clojure-compatible, but hash-map/hash-set iteration order is unspecified and differs from Clojure — usesorted-map/sorted-setwhen order matters. - Mutable build mode. Jolt can be compiled to use fast Janet-native mutable collections instead, via a build-time flag:
JOLT_MUTABLE=1 jpm build(defaultjpm buildis immutable). In mutable mode vectors and lists share one mutable array representation (soconjmutates in place and appends, andvector?/list?no longer distinguish them) — a performance/looseness trade-off. The default immutable build has full Clojure value semantics. - Concurrency / STM. Single-threaded. No refs,
dosync, agents, orsend;lockingevaluates its body without real locking. Atoms, volatiles, and delays are supported. - Regex. Compiled to Janet's PEG engine (Janet has no regex). Supported: capturing groups (
[whole g1 …]), greedy and lazy quantifiers with backtracking,(?:…), lookahead(?=…)/(?!…), alternation, anchors^ $ \b \B, character classes, and the(?i)flag. Not supported: lookbehind, backreferences (\1), and named groups ((?<name>…)). - Arrays. Java-style arrays map onto Janet's native types:
byte-arrayis a Janet buffer (contiguous, C-backed);object-array/int-array/double-array/etc. are Janet arrays.aget/aset/alength/aclonework over both. - Transients.
transient/conj!/assoc!/dissoc!/disj!/pop!/persistent!are real mutable scratch collections backed by Janet's native arrays and tables (vectors → arrays, maps/sets → tables), so building a collection with them avoids the per-step copying of the persistent path (notably for maps/sets).persistent!freezes back to a persistent value. - Not implemented. JVM reflection,
proxy, and theclojure.repl/clojure.templatenamespaces.
Supported and Clojure-compatible: chars as a distinct type, lazy/infinite sequences, transducers, destructuring, multimethods with hierarchies, protocols/records (deftype/defrecord/reify/extend-protocol), metadata, namespaces, and the reader (#(), #_, #?, tagged literals, #"…").
Test
jpm test # full suite (recurses test/)
janet test/spec/sequences-spec.janet # a single spec
janet test/integration/conformance-test.janet
Tests are organized in three layers:
test/spec/— the contract. Black-box, behavior-defining tables (one file per public API area) that collectively pin down Jolt's defined behavior. This is the authoritative description of what Jolt promises.test/integration/— cross-cutting and regression batteries: the Clojure conformance suite, SCI bootstrap/runtime loading, jank conformance, the cross-dialect clojure-test-suite (run via a minimalclojure.testshim against~/src/clojure-test-suite, if present, and baseline-guarded), compile-mode tests, the library API, and a broad systematic-coverage net.test/unit/— white-box tests for individual components (reader, evaluator, types, persistent collections, regex, compiler).
test/support/harness.janet provides the shared defspec table runner (cases
are ["label" expected actual], compared with Jolt's own =) plus
expect=/expect-throws for unit tests.
The syntactic half of the contract — the surface syntax the reader accepts — is
specified as an EBNF grammar in doc/grammar.ebnf, with
Jolt-vs-Clojure deviations noted inline. test/spec/reader-syntax-spec.janet
exercises it.
clojure-test-suite conformance
The clojure-test-suite battery
runs ~3900 assertions green. Jolt validates its arguments like Clojure —
arithmetic on non-numbers, comparisons against nil, out-of-range indices,
malformed conj!/assoc!/merge, and non-seqable first/seq/vec all
throw. The assertions that remain failing are accounted for by the
platform/design differences above, not by missing behavior:
- No bignum/ratio/BigDecimal —
bigint/numerator/denominator/bigdec, thebig-int?/auto-promotion checks, and the2N/1/2/1.0Mliterals read but don't carry those exact types. - Integer/float identity — Janet represents
1and1.0identically, soquot/rem/mod'sdouble?/int?result-type assertions and manyfloat?/double?cases can't distinguish them ((str 0.0)is"0"). - 64-bit integers / Unicode —
bit-andetc. on full-width 64-bit constants lose precision (doubles), andsubs/countwork on bytes, not code points. - Eager seqs —
map/filter/rangereturn vectors, soseq?/vector?/sequential?of their results differ, and sorts aren't guaranteed stable.