jolt/.dirge/skills/jolt-dev/SKILL.md
Yogthos df1e836cda Phase 13: Protocol Completion — reify dispatch, #() reader, IFn protocol
- reader.janet: rewrite read-anon-fn to handle % arg references
  % → gensym, %1/%2 → sorted gensyms, replaces all matching % refs
- evaluator.janet: IFn protocol support in default invocation arm
  Before erroring "Cannot call X as a function", checks for:
  1) type-registry IFn/-invoke method (extend-type protocols)
  2) :jolt/protocol-methods :-invoke (reified objects)
- test/phase13-test.janet: 4 test sections (28-31)
  28: reify dispatch — protocol methods on reified objects
  29: #() anon-fn — % and %1/%2 arg handling
  30: extend-type — protocol method dispatch for deftypes
  31: clojure.walk loading — keywordize-keys loads correctly
- All pass: 316 ok, 1 fail (pre-existing, unchanged)
2026-06-03 13:19:56 -04:00

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---
name: jolt-dev
description: Jolt development workflow — build, test, special form patterns, Janet gotchas
---
# jolt-dev
Jolt development workflow — build, test, special form patterns, Janet gotchas
# Jolt Development
## Build & Test
```bash
cd /Users/yogthos/src/jolt
jpm build # produces build/jolt
jpm test # runs all tests
janet test/foo.janet # run a single test file from project root
```
## Testing Patterns
```bash
# Single test file
janet test/compiler-test.janet
# Full suite
jpm test
# Phase-specific tests
janet test/phase5-test.janet # multimethods
janet test/phase8-test.janet # protocol system
janet test/phase10-test.janet # standard library
# REPL test — pipe expressions in
printf "(range 10)\n[1 2 3]\n{:a 1}\n" | janet src/jolt/main.janet
```
## Test File Creation — Heredoc Workaround
The `write` tool's syntax checker rejects `.janet` files with complex string escaping (e.g., `\"` inside Janet strings). **Workaround:** Use `bash` with `cat > file << 'EOF' ... EOF` heredocs for any test file containing Clojure source strings.
**Paren-counting boundary:** Large single-file test suites (>6 sections) often hit a mysterious paren-counting parse error ("unexpected end of source") at section boundaries, even when parens are balanced. **Workaround:** Split into multiple files (e.g., `cljs-port-1a.janet`, `cljs-port-1b.janet`).
## Loading .clj Files
`.clj` files are loaded via `eval-form` in the interpreter:
```janet
(def src (slurp "src/jolt/clojure/string.clj"))
(var remaining src)
(while (> (length (string/trim remaining)) 0)
(def [form rest] (parse-next remaining))
(set remaining rest)
(when form (eval-form ctx @{} form)))
```
**Critical constraint:** .clj files must NOT have docstrings on defn forms. Jolt's defn macro only handles 4-element forms: `(defn name [params] body)`. A 5-element form `(defn name "doc" [params] body)` causes "macro arity mismatch".
To add a new special form to the evaluator:
1. Add the name to `special-symbol?` in `src/jolt/evaluator.janet`
2. Add a match arm in `eval-list` (the match on `name`)
3. Add tests
The match arm receives `ctx`, `bindings`, and `form` (the full list). Use `(in form 1)` for first arg, etc.
**Non-symbol heads** (keywords, etc.): `eval-list` first checks `(and (struct? first-form) (= :symbol (...)))` before extracting `name`. If not a symbol, falls through to default function application.
### Current special forms (37):
`quote`, `syntax-quote`, `unquote`, `unquote-splicing`, `do`, `if`, `def`, `defmacro`, `fn*`, `let*`, `loop*`, `recur`, `throw`, `try`, `set!`, `var`, `locking`, `instance?`, `defmulti`, `defmethod`, `deftype`, `new`, `.`, `var-get`, `var-set`, `var?`, `alter-var-root`, `find-var`, `intern`, `alter-meta!`, `reset-meta!`, `disj`, `set?`, `satisfies?`, `protocol-dispatch`, `register-method`, `make-reified`
## Compiler Architecture
Two-phase: `analyze-form [form bindings ctx]``emit-ast` (string) or `emit-expr` (data structures).
**Why data structures:** Janet's `eval` can't see `use`-imported symbols. Embed function VALUES directly via `core-fn-values` table.
**eval-string dispatch** (compile mode): stateful forms → interpreter; everything else → `compile-and-eval`. Macros expand at analyze time.
## Protocol System
Protocols are maps with `:jolt/type :jolt/protocol` and `:methods` map.
Type registry in context env (`:type-registry`) maps `type-tag → proto-name → method-name → fn`.
**Special forms:**
- `protocol-dispatch [proto-sym method-sym obj rest-args]` — resolves method via type registry or reified methods
- `register-method [type-sym proto-sym method-sym fn-form]` — stores impl in type registry
- `make-reified [proto-sym methods-map]` — creates anonymous object with `:jolt/protocol-methods`
**Critical rule:** fn* form inside extend-type/extend-protocol MUST be `@[...]` (array) to trigger eval-list's special form dispatch. Tuples `[...]` hit `(tuple? form)` branch instead. Same for register-method, protocol-dispatch calls.
## REPL Collection Rendering (Buffer-Based)
Use `write-value` + `write-collection` with a StringBuffer (`@""`) rather than `prin`/`print` directly. Build the entire output string in a buffer, then atomically `(print (string buf))`. Prevents Janet's C runtime (in `jpm build` executables) from interleaving its native `<tuple 0x...>` printer between incremental `prin` calls.
```janet
(var write-value nil) ; forward declaration
(defn- write-collection [v buf]
(cond (tuple? v) (do (buffer/push-string buf "[") ...)
(array? v) (do (buffer/push-string buf "(") ...) ...))
(set write-value (fn [v buf]
(cond (nil? v) (buffer/push-string buf "nil")
(number? v) (buffer/push-string buf (string v))
(tuple? v) (write-collection v buf)
true (buffer/push-string buf (string v))))) ; true REQUIRED
(defn print-value [v] (def buf @"") (write-value v buf) (print (string buf)))
```
**Critical:** Janet's `cond` treats a bare expression in the last position as a **test** clause, not a catch-all body. Use `true` as the guard.
## PersistentHashMap Gotchas
- `core-map?`: `(if (and (table? x) (get x :jolt/deftype)) true false)``and` returns last truthy, not boolean
- `core-count`: subtract 1 for deftype tables (skip `:jolt/deftype` key)
- Equality: convert via `phm-to-struct` before `deep=`
## defrecord / deftype Patterns
- defrecord emits `(deftype TypeName [fields])` + arrow factory
- Records are tables with `:jolt/deftype` = type name string
- `set!` field mutation: `(set! (.-x obj) val)` parses as array with `.-x` symbol head
## Binding Macro
Uses `array-map` (plain Janet struct) not `hash-map` (PHM) to avoid PHM get() incompatibility with `var-get`.
## Tagged Literals (#inst, #uuid)
Use dynamic table construction: `(let [dr @{}] (put dr (keyword "#inst") fn) dr)`
## LazySeq Patterns
- Use `indexed?` not `tuple?` for realized sequences (may be arrays from `cons`/`concat`)
- Avoid `val'` (apostrophe in symbol names) — use `vf` instead
- `def` creates constants; use `(var x nil)` for mutable locals
- Bare tuples in `eval` are function calls: `[1 2 3]` tries to call `1`
- `try` format: `(try body ([err] handler))` NOT `(try body (catch sym handler))`
- core-renames MUST match actual fn names: `"-"``"core-sub"` (not `"core--"`)
- `(break val)` breaks from loop returning val — useful in bucket search patterns
- `boolean` doesn't exist — use `(if x true false)`
- Janet doesn't support Clojure-style multi-arity defn — use `[& args]` with `case (length args)`
- Janet's `cond` treats bare expression in last position as test, not catch-all — use `true` guard