- types.janet: make-hierarchy, derive*, ancestors, descendants, isa?, underive - evaluator.janet: defmulti extended with :default and :hierarchy options + keyword dispatch-fns wrapped as (fn [x] (get x kw)) for Janet compat + hierarchy-based dispatch walks isa? chain when no direct match - core.janet: real derive, isa?, ancestors, descendants implementations replacing stubs; core-remove-method, core-remove-all-methods, core-prefer-method added; new core-bindings entries - 5 test sections (22-26): hierarchy ops, basic dispatch, :default, hierarchy dispatch, remove-method — all pass - 317 tests, 0 failures
5.5 KiB
jolt-compiler
Jolt Compiler
Source-to-source Clojure→Janet compiler. Two-phase: analyze-form (classify + macro expand) → emit-ast (generate).
Architecture
Clojure form → analyze-form [form bindings ctx] → AST {:op ...}
↓ (if head = macro var)
expand → re-analyze expanded form
↓
emit-ast (source string) or emit-expr (data structure)
Three public entry points:
(compile-form form &opt ctx)→ Janet source string (debug/display)(compile-ast form &opt ctx)→ Janet data structure (for eval)(compile-and-eval form ctx)→ compile-ast + eval
Why data structures, not source strings
Janet's eval does NOT have access to use-imported symbols from the calling file. (eval "(core-inc 1)") fails with "unknown symbol core-inc". The fix: emit Janet tuples where function VALUES are embedded: [core-inc 1].
core-fn-values table: "core-inc" → core-inc (the actual function)
emit-core-symbol-expr → (get core-fn-values janet-name)
Source-to-source (compile-form + emit-ast) still exists for debugging but is NOT used by compile-and-eval.
Macro expansion
analyze-form checks whether the head symbol of a list resolves to a macro var before dispatching to special form handling:
- Look up symbol in current ns → core ns via
resolve-macro - If
var-macro?is true, call(var-get macro-var)to get the fn (apply macro-fn (tuple/slice form 1))to expand(analyze-form expanded ...)to re-analyze the result
Macros expand at analyze time, before emission. defn expands to (def name (fn* ...)), when to (if test (do ...) nil), etc.
Symbol classification (in analyze-form)
Order: qualified ns → local binding → core-symbol → bare symbol
(if (form :ns) → :qualified-symbol
(get bindings name) → :local
(get core-renames name) → :core-symbol
→ :symbol)
core-renames MUST match actual fn names: "-" → "core-sub" (not "core--"), "not" → "core-not". Verify against core.janet bindings.
core-fn-values
Maps Janet string names to actual function values. Must be kept in sync with core-renames. When adding a new core fn, update BOTH tables.
Functions that need special mapping (name differs):
"apply"→apply(Janet built-in)"-"→"core-sub"(notcore--)"some"→core-some?(shared withcore-some?)"pr-str"→core-str(alias)"nth"→core-nth(separate function, added in Phase 6)"list"→core-list,"name"→core-name,"subs"→core-subs
Loop/recur compilation
loop* emits a self-referential closure:
(do (var _loop_N nil)
(set _loop_N (fn [params] body))
(_loop_N init-vals...))
recur saves :loop-name in the AST (looked up from bindings :jolt/current-loop), then emit-recur-expr rewrites to (loop-name arg1 arg2...).
In the string emitter, recur similarly emits (loop-name arg ...).
Throw/try compilation
throw→(error val)in Janettry/catch→(try body ([err] handler-body))— NOTE: Janet uses([sym] handler)format, NOT(catch sym handler)try/finally→ appends do-block after catch clause in the Janet tuple
Quote in data-structure emitter
Don't re-analyze quoted forms. Use raw-form->janet to pass Jolt reader forms through verbatim to Janet's quote:
(emit-quote-expr expr) → ['quote (raw-form->janet expr)]
raw-form->janet converts symbols to Janet symbols, arrays/tuples recursively.
Remaining ops (interpreter only)
syntax-quote, set!, deftype, defmulti, defmethod — these are stateful or complex and always use the interpreter path even in compile mode.
deftype in interpreter (eval-list arm)
deftype creates a constructor function returning a Janet table with :jolt/deftype key ("ns.TypeName"). Evaluator set! handles (.-field obj) field mutation (reader creates (. -field obj) array form). instance? checks :jolt/deftype tag. defrecord macro in core.janet emits (do (deftype Name [fields]) (def ->Name ...) (def map->Name ...)).
Stateful forms (must use interpreter, NOT compiler)
These forms modify context state and cannot be compiled:
defmacro,ns,deftype,defmulti,defmethod,require,in-nssyntax-quote,set!,var,.,new
Note: def IS handled by the compiler (compiles to Janet def, since macros are expanded at analyze time).
eval-string dispatch (compile mode)
(if (or (= head-name "defmacro") (= head-name "ns")
(= head-name "deftype") (= head-name "defmulti") (= head-name "defmethod")
(= head-name "require") (= head-name "in-ns")
(= head-name "syntax-quote") (= head-name "set!")
(= head-name "var") (= head-name ".") (= head-name "new"))
(eval-form ctx @{} form) ; interpret
(compile-and-eval form ctx)) ; compile
Adding a new op
- Add
analyze-formmatch arm for the special form - Add
emit-astmatch arm (source string path) - Add
emit-exprmatch arm (data structure path) - Add
core-renamesentry if it's a core fn (name → Janet string name) - Add
core-fn-valuesentry (Janet string name → actual fn value) - Add tests in
test/compiler-test.janet
Test files
test/compiler-test.janet— Phase 2-5 tests (source output + compile-eval + macro tests)test/phase6-final.janet— Phase 6 comprehensive compile-mode tests (47 assertions)
Run: janet test/compiler-test.janet or janet test/phase6-final.janet or jpm test