Commit graph

56 commits

Author SHA1 Message Date
Dmitri Sotnikov
11fb5a7de6
Stage2 task2 tier5 (#16)
* core: Stage 2 Task 2 tier 5a — compile defmulti + defmethod

defmulti/defmethod become macros (30-macros) over ctx-capturing
clojure.core fns (defmulti-setup/defmethod-setup, interned by
install-stateful-fns!):
- defmulti: (defmulti name dispatch & opts) -> (defmulti-setup 'name
  dispatch ~@opts). name quoted; dispatch + opts (:default/:hierarchy)
  evaluated. defmulti-setup builds the dispatch closure over the method
  table and interns the var (same hierarchy/default/cache behavior).
- defmethod: (defmethod mm dval & fn-tail) -> (defmethod-setup 'mm dval
  (fn ~@fn-tail)). The method impl is now a COMPILED (fn …) (was an
  interpreted fn* eval). Auto-creates the multimethod if missing.
- removed their special-symbol? entries + eval-list arms, and dropped them
  from host_iface special-names + loader stateful-head?.

Both compile + interpret as plain invokes; dispatch incl. :default and
derive/hierarchy works in both modes.

Tests: evaluator-test (defmulti case) + namespace-test now use init (these
forms are overlay macros now, so a bare make-ctx lacks them).

Gate green: conformance 269x3, fallback-zero 38/4, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, sci-bootstrap, clojure-test-suite
>=4034/67, features 78/78, all unit + spec (multimethods 16/16).

* core: Stage 2 Task 2 tier 5b — compile deftype + defrecord

deftype becomes a macro (30-macros) over make-deftype-ctor (a ctx-capturing
clojure.core fn that bakes the ns-qualified type tag at def time) plus
extend-type for any inline protocol methods — so it compiles as a plain (do …).
Mirrors defrecord's existing field-let/protocol-grouping pattern.
- make-deftype-ctor-impl (evaluator) builds the ctor; interned as a closure.
- removed the deftype special-symbol? entry + eval-list arm; dropped deftype/
  defrecord from host_iface special-names + loader stateful-head?.
- defrecord no longer redefines ->name via (Name. …) interop (frozen) — deftype
  already provides ->name, so defrecord compiles too (map->name builds via it).
- field-kws spliced into a vector LITERAL ([~@…]) so the analyzer sees a vector
  form, not a runtime pvec; type name + fields are unwrapped of ^meta (the reader
  yields (with-meta sym m) forms, e.g. sci's (deftype ^{:doc …} Var …)).

With tier 5a, all of deftype/defrecord/defmulti/defmethod compile. The loader's
interpret-only set is now just the frozen host-coupled forms: defmacro/set!/./
new/eval.

Tests: evaluator-test deftype case uses init (deftype is an overlay macro now);
fallback-zero moves deftype off must-punt, adds deftype/defrecord/defmulti/
defmethod to must-compile (43/3).

Gate green (full jpm build + jpm test): conformance 269x3, fallback-zero 43/3,
bootstrap-fixpoint stage1==2==3, self-host, staged-bootstrap, sci-bootstrap
422/0, clojure-test-suite >=4034/67, all unit + spec.

---------

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-10 08:13:42 +08:00
Dmitri Sotnikov
63d92cd122
Stage2 task2 tier4b (#15)
* core: Stage 2 Task 2 tier 4b — compile ns (+ use/import/refer-clojure)

ns becomes a macro (00-syntax) expanding to (do (in-ns 'name) (require …)
(use …) (import …) (refer-clojure …)) — matching Clojure, where require is
a fn and ns expands to require calls. use/import/refer-clojure join the
namespace ops as ctx-capturing clojure.core fns (use-impl/import-impl/
refer-clojure-impl, interned by install-stateful-fns!). Removed the ns
interpreter special arm; dropped ns/use/import from host_iface special-names
and loader stateful-head?.

Placement matters: ns lives in the FIRST overlay tier (00-syntax), because
the self-hosted analyzer build is triggered while 10-seq loads and processes
jolt.analyzer's own (ns …) form — ns must exist by then. Its body resolves
fn/map/reduce/cond at expansion time, by which point all of 00-syntax has
loaded. The bootstrap compiler (compiler.janet) still PUNTS ns/in-ns/require/
use/import (it compiles analyzer.clj/ir.clj, whose ns forms must fall back to
the interpreter that expands the macro) — only the self-hosted analyzer
compiles them.

use-impl fixes a latent bug: it now refers the used ns's vars into the
CURRENT ns (the old special interned a ns into itself, a no-op).

ns/use/import now compile + interpret as plain invokes. fallback-zero: ns off
must-punt, onto must-compile.

Gate green: conformance 267x3, fallback-zero 38/4, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, sci-bootstrap, clojure-test-suite
>=4034/67, namespace, deps-loader, cli, aot, embedded-stdlib, uberscript,
features 78/78, all unit + spec.

* test/core: cover ns form + :use; fix use-impl spec parsing

Checking test coverage for the namespace tiers surfaced a real bug nothing
exercised: use-impl checked (array? s) to find a spec's ns symbol, but a
vector spec like [src.x] is a pvec/tuple, not a Janet array — so (:use ...)
and standalone (use ...) errored. Fixed to coerce (pvec->array) then take the
head when the spec is indexed (matching require-impl).

Added coverage that was missing:
- conformance (x3 modes): the (ns …) form itself + :use refers.
- namespaces-spec: (ns …) form, :use, standalone use.

The :use/(use …) path had ZERO tests before, which is why the bug slipped
through earlier tiers.

EBNF needs no change — it's a reader/syntax grammar with no special-forms
enumeration; ns/require/protocol syntax is unchanged (the destructuring note
was already updated in jolt-f79).

Gate green: conformance 269x3, fallback-zero 38/4, self-host, sci-bootstrap,
bootstrap-fixpoint, staged-bootstrap, clojure-test-suite >=4034/67, namespace,
all unit + spec (namespaces 27/27).

---------

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-10 04:34:53 +08:00
Dmitri Sotnikov
124cbf370a
Stage2 task2 (#13)
* core: Stage 2 Task 2 tier 2a — compile defprotocol/extend-type/extend-protocol

Applies the proven enabler: stateful primitives become per-ctx closures
captured over ctx, interned in clojure.core (install-stateful-fns!), so
they resolve + compile as plain :var invokes and work for deferred calls.

- protocol-dispatch / register-method: extracted from the interpreter
  special handlers into ctx-taking impls (protocol-dispatch-impl /
  register-method-impl) + interned as ctx-capturing clojure.core fns.
  Removed their special-symbol? entries + handler arms, and dropped them
  from host_iface special-names + compiler uncompilable-heads.
- defprotocol/extend-type/extend-protocol macros now pass the protocol/
  method/type NAMES as strings (not symbols), so the emitted calls compile
  as ordinary invokes; removed the three macros from special-names so the
  analyzer expands+compiles them instead of punting to the interpreter.
- Both interpreter and compiled paths now call the same ctx-capturing
  closures (one dispatch implementation, no special-form duplication).

reify/make-reified deferred to tier 2b (map-eval shape); defrecord waits
on deftype (tier 5).

Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, clojure-test-suite >=4034/67,
features 78/78, all unit + spec (protocols 7/7, multimethods 9/9).

* core: Stage 2 Task 2 tier 2b — compile reify (make-reified as a fn)

Completes the protocol machinery: make-reified joins protocol-dispatch/
register-method as a ctx-capturing clojure.core fn (install-stateful-fns!).
- make-reified-impl takes the EVALUATED {keyword fn} method map (a phm when
  compiled, struct/table when interpreted) and builds the reified object.
- reify macro passes the protocol NAME as a string; method map is an ordinary
  map literal evaluating to {keyword fn}.
- Removed make-reified's special-symbol? entry + handler arm, and dropped
  make-reified + reify from host_iface special-names + compiler
  uncompilable-heads.

reify now compiles and dispatches in both modes (single- and multi-method).
With tier 2a, the full protocol surface (defprotocol/extend-type/
extend-protocol/reify) compiles; defrecord still waits on deftype (tier 5).

Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, clojure-test-suite >=4034/67,
features 78/78, all unit + spec (protocols 7/7x3).

* core: Stage 2 Task 2 tier 3 — compile (var x) + binding

binding keys its thread-binding frame on var cells via (var x), so it
needed (var x) to compile. Added a the-var IR node that emits the embedded
var cell itself (vs var-ref, which derefs):
- ir.clj: the-var node.
- analyzer: 'var' added to handled; analyze-special resolves the symbol to
  its var and emits the-var (uncompilable for a non-var, matching Clojure).
- backend: :the-var emits (quote cell) — the exact per-ctx cell var-get
  keys on, so a compiled binding overrides + restores correctly.
- removed var from loader stateful-head? + host_iface special-names, and
  binding from special-names so it expands+compiles.

Dynamic binding now compiles end-to-end (override/restore, and a compiled
fn reading the dynamic var under the binding) in both modes.

Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, clojure-test-suite >=4034/67, features 78/78,
all unit + spec (state/metadata).

---------

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-10 03:20:44 +08:00
Dmitri Sotnikov
534007641e
Stage2 compile only (#12)
* core: compile macro expanders via staged bootstrap (Stage 2 Task 1)

Macros are now compiled, not interpreted, by steady state — matching
Clojure (macros are ordinary compiled fns the Java seed compiles for
clojure.core) and ClojureScript (macros compiled, invoked at compile
time). Neither reference keeps an interpreted-closure fallback.

The early macros (00-syntax) are defined while the self-hosted analyzer
is still being bootstrapped (it builds lazily after the overlay loads),
so macro-compile-hook returns nil and they get an interpreted closure.
The bootstrap compiler.janet can't substitute (it punts on syntax-quote,
which nearly every expander uses).

Fix = staged bootstrap, the same pattern as the compiler fixpoint:
defmacro stashes the expander source on the var (:macro-src) plus a
:macro-uses-env flag; once the overlay + analyzer are fully built,
backend/recompile-macros! (via ensure-macros-compiled! at the end of
load-core-overlay!) compiles each stashed expander through the now-live
analyzer and rebinds the var, marking :macro-compiled. Idempotent;
&env/&form macros keep the interpreted closure (the compiled fn* has no
such params). The interpreter is now a build-time crutch, gone by
steady state.

Rewrote if-not/if-let/if-some/assert from '& [else]' rest-destructuring
(which the analyzer punts on) to a plain rest param + (first rest), so
all 47 overlay macros compile. Analyzer rest-destructuring gap: jolt-f79.

47/47 overlay macros compiled, 0 interpreted; user macros compile
immediately post-init. Gate green: conformance 267x3, fallback-zero
31/5, bootstrap-fixpoint stage1==2==3, self-host, staged-bootstrap,
lazy-infinite 44/44, clojure-test-suite >=4034/67, sci-bootstrap,
features 78/78, all unit+spec, core-bench neutral.

* core: wrap macro expanders in fn (not fn*) so destructured arglists compile

Follow-up to the staged macro-compile change. The macro-recompile pass
wrapped each expander in the raw fn* primitive, which punts on a
destructuring rest param — so if-not/if-let/if-some/assert (using the
canonical '& [else]') couldn't compile and had been rewritten to plain
rest params as a workaround.

Root cause: fn* is the primitive; the fn MACRO is what desugars
destructuring (rest, map, nested) into the body before lowering. Wrapping
expanders in fn instead of fn* compiles any destructured macro arglist
uniformly, so the workaround is unnecessary — reverted those 4 macros to
the canonical '& [else]' forms.

Net: rest-destructuring is fully compiled for all normal code (fn/defn/
let/macro params). Only the hand-written raw fn* primitive still punts
(jolt-f79, downgraded to P4 — falls back to interpreter, still correct).

47/47 overlay macros compiled. Gate green: conformance 267x3,
fallback-zero 31/5, bootstrap-fixpoint stage1==2==3, self-host,
staged-bootstrap, lazy-infinite 44/44, clojure-test-suite >=4034/67,
sci-bootstrap, features, all unit+spec.

* core: fn*/let*/loop* are plain-symbol primitives, matching Clojure (jolt-f79)

jolt-f79 asked to compile destructuring in fn* rest params. Checking
against Clojure inverts the premise: Clojure's fn* REJECTS destructuring
at compile time ('fn params must be Symbols'; let*/loop* 'Bad binding
form, expected symbol'). So the self-hosted analyzer was already correct
— fn*/let*/loop* are plain-symbol primitives; the fn/let/loop/defn
MACROS desugar destructuring. The real defect was the interpreter
leniently destructuring raw fn*, and defn emitting raw fn* to rely on it.

Changes:
- evaluator: fn*/let*/loop* now reject non-symbol binding forms with
  Clojure's exact messages (require-symbol-params/plain-sym?), so the
  interpreter agrees with the analyzer + Clojure.
- 00-syntax: defn emits the fn MACRO (not raw fn*) so destructuring
  params desugar; unnamed, so self-recursion still resolves via the var.
- 00-syntax: completing that exposed a real gap — the overlay destructure
  fn didn't handle kwargs (a map pattern bound against a fn's sequential
  rest); it had only worked via the interpreter's destructure-bind. Added
  the seq->map coercion to the map? branch (sequential: 1 map elt => that
  map, else apply hash-map), matching destructure-bind so interpret ==
  compile.

Net: fn*/let*/loop* are plain-symbol primitives across interpreter,
analyzer, and Clojure; all real destructuring (fn/defn/let/loop/macro
params, incl kwargs & {:keys}) compiles through the macros with no
interpreter fallback. Regression spec added.

Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, lazy-infinite 44/44,
clojure-test-suite >=4034/67, sci-bootstrap, features 78/78, all
unit+spec (destructuring 50/50).

* docs: clarify fn*/let*/loop* take plain symbols only (jolt-f79)

grammar.ebnf: the destructuring note already attributed patterns to the
binding MACROS; make the boundary explicit — the fn*/let*/loop* PRIMITIVES
they desugar to take plain symbols only (a non-symbol binding errors, as
in Clojure).

self-hosting-compiler.md: the 'compile destructuring via a shared
destructure expander instead of falling back' item is done (and its
jolt-7dl ref was stale) — destructuring now compiles through the
fn/let/loop/defn macros' desugaring; the primitives reject patterns.

* core: Stage 2 Task 2 tier 1 — compile syntax-quote + definterface/extend/proxy

First slice of moving stateful forms onto the compile path (jolt-eaa).
- loader stateful-head?: drop syntax-quote (the analyzer's `handled` set
  already compiles it; routing it to the interpreter was redundant).
- host_iface special-names: drop definterface/extend/proxy (stub macros
  expanding to def/nil — their expansions compile once unpunted).
- letfn stays interpreted: its let* expansion needs letrec semantics
  (mutual recursion between the fns), which sequential compiled let* lacks
  — a later tier.

Gate green: conformance 267x3, fallback-zero 31/5, bootstrap-fixpoint
stage1==2==3, self-host, staged-bootstrap, clojure-test-suite >=4034/67,
features 78/78, all unit + protocol/multimethod/macro specs.

---------

Co-authored-by: Yogthos <yogthos@gmail.com>
2026-06-09 14:20:38 -04:00
Dmitri Sotnikov
1ded89b47b
Stage1 analyzer parity (#11)
* compiler: self-hosted analyzer compiles set literals (#{…})

Stage 1 Task 1. analyzer.clj punted set literals to the interpreter
((form-set? form) (uncompilable "set literal")); now it builds the set-node IR
(already defined in ir.clj) from (form-set-items form), and backend.janet emits
(make-phs e1 e2 …) — each element evaluated then the persistent set built,
mirroring compiler.janet's emit-set-expr and the interpreter's :jolt/set path.

Closes a self-hosted-analyzer vs bootstrap-compiler parity gap: #{…} no longer
forces interpreter fallback on the compile path.

Gate: conformance 262x3 (+4 set-literal cases incl computed elements / empty /
in-let), fixpoint, self-host, sci, suite 3981/66, specs+unit green; core-bench
neutral (A/B). set?/disj-as-fns remain deliberately interpreted (in-sync across
all three lists) — adjudicated in Task 2.

* test: fallback-zero harness — assert non-stateful forms compile (not interpret)

Stage 1 Task 3. self-host-test checks results but not which path ran. This runs
the portable analyzer (backend/analyze-form) on a corpus of non-stateful forms
and asserts NONE raise :jolt/uncompilable — i.e. the self-hosted analyzer
compiled them, not the interpreter fallback. Inverse sanity list confirms a few
intentional-interpret forms (ns/defmacro/require/set?/letfn) still punt, so the
harness can't pass by compiling everything.

29 must-compile (incl set literals from Task 1) + 5 must-punt, 0 failures. As
Stage 1 parity grows, forms move from the punt list into must-compile; when the
fallback set equals the frozen intentional stateful set, the bootstrap is
retireable.

* core: migrate 7 lazy seq fns from the Janet seed to the Clojure overlay (40-lazy)

Finishes a port the prior team started and reverted (bb4a3e0): the 40-lazy.clj
tier moved lazy seq fns Janet→Clojure but regressed the suite to 849 because
lazy-seq's expansion leaked as data in compile mode — that was jolt-r81, since
root-fixed (lazy-seq/lazy-cat moved to 00-syntax). With the wall gone, the port
works. This shrinks the Janet seed toward the north star (self-hosted
clojure-in-clojure on a minimal host bootstrap).

Moved to core/40-lazy.clj (wired as a loaded tier after 30-macros):
  distinct keep keep-indexed map-indexed cycle repeat iterate
40-lazy.clj completed to full parity: distinct gains its transducer arity;
keep/keep-indexed/map-indexed already had both arities.

Removed from the Janet seed (core.janet): the 7 core-* fns + their core-bindings
entries, the now-dead td-keep/td-map-indexed transducer helpers (the CLJ versions
carry their own), and the already-dead core-partition-by/core-xml-seq (shadowed by
10-seq/20-coll). Net: core.janet −131 lines.

Deferred (kept in Janet, separate follow-ups): partition-all (a CLJ port via
take/drop realizes a non-minimal element count, tripping the §6.3 laziness
counters + a suite file) and repeatedly (canonical CLJ doesn't validate args, so
the repeatedly.cljc throw cases regress). Both need behavior-matching first.

Gate: conformance 262x3, lazy-infinite 44/44, clojure-test-suite 4004/66 (UP from
3981 — the CLJ versions add coverage, e.g. distinct value-equality), fixpoint,
self-host, sci 422/0, fallback-zero, specs+unit, core-bench all green.

* test: raise clojure-test-suite baseline 3981 -> 4004 (lazy-fn migration coverage)

* core: migrate partition-all to the Clojure overlay (minimal realization)

Resolves the deferred partition-all port (jolt-yo3). The earlier CLJ attempt via
lazy take/drop over-realized vs the Janet pstep, tripping the §6.3 laziness
counter. The collection arities now realize EXACTLY n per chunk with a first/rest
loop and continue from the advanced cursor (no re-drop), so (take 3 (partition-all
2 (map counting (range)))) realizes exactly 6 — matching minimal realization in
both interpret and compile modes. Keeps transducer + [n coll] + [n step coll]
arities. letfn-bound recursion sidesteps the compile-mode multi-arity closure bug
(jolt-zxw), like keep-indexed/map-indexed.

Removed from the Janet seed: core-partition-all + its binding + the now-dead
td-partition-all helper (the CLJ version carries its own transducer arity).

Gate: conformance 262x3, lazy-infinite 44/44 (incl the §6.3 partition-all
counter), clojure-test-suite 4004/66, fixpoint, self-host, specs+unit green.

* core: migrate repeatedly to Clojure + fix char-not-callable / take count validation

Resolves the deferred repeatedly port (jolt-8qx). The blockers were two jolt
leniencies vs Clojure, now fixed (and correct beyond repeatedly):

- A char (a :jolt/type-tagged struct) fell into the struct-as-map branch of both
  jolt-call (compile path) and the interpreter's apply dispatch, so (\a) returned
  nil instead of throwing. Now only an UNtagged struct (a map literal) — or a
  record — is callable as a key lookup; tagged structs fall through to "Cannot
  call … as a function". Symbols are still handled (keyword-style get).
- core-take didn't validate its count, letting Janet's >= silently compare an int
  to a char/string. It now rejects a non-number n like Clojure.

With those, the canonical CLJ repeatedly matches: (first (repeatedly non-fn)) and
(repeatedly non-number f) throw. Moved repeatedly to core/40-lazy.clj; removed
core-repeatedly + its binding from the seed.

These correctness fixes help broadly: repeatedly.cljc goes clean (19/10 -> 29/0),
and the suite rises 4004 -> 4034 pass / 66 -> 67 clean. Baseline raised.

Gate: conformance 262x3, lazy-infinite 44/44, clojure-test-suite 4034/67,
fixpoint, self-host, sci, fallback-zero, specs+unit green.

* test: document the 4004 -> 4034 baseline raise (partition-all/repeatedly + char/take fixes)

* docs: partition-all letfn is for minimal realization, not jolt-zxw

jolt-zxw (multi-arity arity-param mis-capture in a nested lazy-seq under :compile?)
is no longer reproducible: an arity-direct partition-all now compiles correctly in
the overlay. The original failure was an artifact of the CLJ multi-arity version
coexisting with the Janet core-partition-all ([n & rest]) during migration — the
shadowing confused multi-arity dispatch; removing the Janet version resolved it.
The letfn in partition-all stays purely for minimal realization (jolt-yo3).

* compiler: compile set?/disj as plain fns (close the last Stage-1 fallback gap)

Stage 1 jolt-g3h. set? and disj were special-cased in all three "can't compile"
lists (host_iface special-names, compiler.janet uncompilable-heads, evaluator
special-symbol? + handlers) — but they're pure value-production with callable
core vars (core-set?/core-disj), and those vars are byte-for-byte equivalent to
the evaluator handlers. Removed them from all three lists + dropped the now-dead
evaluator handler arms, so they're ordinary clojure.core fns everywhere: the
analyzer compiles (set? x)/(disj s x) as normal var calls instead of punting to
the interpreter.

Verified identical results in default AND JOLT_MUTABLE builds (no representation
sensitivity — sets are phs in both, unlike vector?/list? which collapse).

With this, the self-hosted analyzer's compile-path fallback set equals the frozen
intentional stateful set (Task 2) — it's now a strict superset of the bootstrap
compiler's compilable surface, so the Janet bootstrap is retireable (Stage 2).

fallback-zero: set?/disj moved to must-compile (31 now), set! into must-punt.
Gate: conformance 267x3 (+5 set?/disj cases), lazy-infinite 44/44, suite 4034/67,
fixpoint, self-host, sci, specs+unit green.
2026-06-09 12:24:37 +08:00
Dmitri Sotnikov
d3194aae59
Compiler research (#10)
adds self-hosted compiler is functionally:
 
- The default compile path is the portable pipeline using jolt.analyzer (Clojure) → host-neutral IR → backend.janet.
- The analyzer is itself Clojure, compiled by jolt for true self-hosting.
- bootstrap-fixpoint passes (stage1 == stage2 == stage3): rebuilding the compiler on its own output.
- clojure.core is now self-hosted in the overlay.
- Stateful forms (defmacro/ns/deftype/defmulti/require/in-ns) are interpreted by design.
2026-06-09 07:30:25 +08:00