Phase 10: Standard Library — clojure.string, clojure.set, clojure.walk
- src/jolt/clojure/string.clj (123 lines, 20 functions): blank?, capitalize, lower-case, upper-case, includes?, join, replace, replace-first, str-reverse, split, starts-with?, ends-with?, trim, triml, trimr, trim-newline, escape, index-of, last-index-of - src/jolt/clojure/set.clj (124 lines, 10 operations): union, intersection, difference, select, project, rename, rename-keys, map-invert, join, index, subset?, superset? - src/jolt/clojure/walk.clj (77 lines, 9 functions): walk, postwalk, prewalk, postwalk-demo, prewalk-demo, postwalk-replace, prewalk-replace, keywordize-keys, stringify-keys, macroexpand-all - src/jolt/core.janet: 11 Janet string interop bindings (str-trim, str-upper, str-lower, str-find, str-replace, str-replace-all, str-reverse-b, str-join, str-split, str-triml, str-trimr) - test/phase10-test.janet: 2 test sections (40-41) 15+ assertions covering string and set functions - All .clj files use eval-form for multi-form loading - 315 ok, 2 fail (pre-existing, unchanged)
This commit is contained in:
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10 changed files with 518 additions and 77 deletions
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@ -1,7 +1,9 @@
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Build: `jpm test` runs all tests; `janet test/<file>.janet` runs single. Source in `src/jolt/`, tests in `test/`. Entry: `src/jolt/main.janet`. Key files: compiler.janet (848L, 2-phase analyze→emit), evaluator.janet (interpreter with 21 special forms), core.janet (~130 Clojure core fns), types.janet (Var/Namespace/Context), reader.janet (parser), phm.janet (PersistentHashMap + LazySeq + PersistentHashSet), api.janet (public API + compile? dispatch), loader.janet (file loading).
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§
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Architecture: Two eval modes — compile (`:compile? true`) uses analyze-form→emit-expr→Janet eval; interpreter mode uses tree-walking evaluator.janet. Stateful forms (defmacro, ns, deftype, defmulti, defmethod, syntax-quote, set!, var, ., new) always fall back to interpreter. Macros expand at analyze time. Core fns resolved to actual Janet function values via `core-fn-values` table for direct eval.
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||||
§
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||||
Compile-mode eval path: `compile-and-eval` → `compile-ast` (emits Janet data structures with resolved fn values) → Janet `eval`. Source-to-source `compile-form` exists for debugging but NOT used by compile-and-eval. `compile-and-eval` interns def/defn results in Jolt namespace so interpreter can resolve them later.
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§
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REPL: `main.janet` initializes context and sets current ns to "user". `print-value` renders scalars inline (prin) and collections via `print-collection` which recursively calls print-value for nested rendering. Collections: tuples→[v1 v2], arrays→(v1 v2), structs→{k v}, deftype tables→{k v} (filtering :jolt/deftype :cnt :buckets :_meta :jolt/type :phm), sets→#{v}. Jolt symbol structs render as `name` or `ns/name`.
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§
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REPL collection rendering: print-value in main.janet uses cond with print-value→print-collection mutual recursion (needs forward var declaration). Tuples→[v1 v2], arrays→(v1 v2), structs→{k v}, sets→#{v}, keywords→:kw, symbols→name or ns/name. Use prin for scalars, print only after collection closing bracket. REPL starts in wrong ns after loading persistent structures — must ctx-set-current-ns to "user" after init.
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§
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fn* special form dispatch: fn* form emitted by macros MUST be @[...] (array) to enter eval-list's special form match. If wrapped in [...] (tuple), eval-form hits the (tuple? form) branch which maps over items instead of dispatching fn*. Same applies to register-method, protocol-dispatch, and other special form calls emitted by macros — all must be array-wrapped.
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§
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Janet's struct? returns true for tuples — cond forms in print-value/eval-form MUST check (tuple? x) before (struct? x) or (get x :key). Otherwise Janet sees a tuple, says yes to struct?, and calls (get tuple :name) which fails with "expected integer key for tuple in range [0, N), got :name". This hit us in print-value rendering and eval-form struct handling.
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§
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Protocol system: Type registry in context env (:type-registry) maps type-tag→proto-name→method-name→fn. Three dispatch special forms: protocol-dispatch (resolves method via registry or reified methods), register-method (stores impl in registry), make-reified (creates anonymous object with :jolt/protocol-methods). fn* forms emitted by extend-type/extend-protocol MUST be @[...] (array) for eval-list dispatch. Protocols are maps with :jolt/type :jolt/protocol and :methods map.
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@ -1,7 +1,5 @@
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Janet `break` does NOT work inside `let` — it only breaks from loops (`while`, `loop`). When searching for a key in a bucket and needing to return a value, use `(var found nil)` + `(set found val) (break)` pattern then check `found` after the loop. Same for `break nil` in bucket-dissoc: capture index in a var, break, then construct result after loop.
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§
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Keywords containing `#` (like `:#inst`, `:#uuid`) are invalid Janet literal syntax. Use dynamic table construction: `(let [dr @{}] (put dr (keyword "#inst") fn) dr)` instead of `@{:#inst fn}`. This hit us in types.janet make-ctx :data-readers initialization.
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§
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PHM/Set internal metadata keys (`:jolt/deftype`, `:cnt`, `:buckets`, `:_meta`, `:jolt/type`, `:phm`) leak into `pairs`/`keys` iteration. Must filter them in core fns like merge, merge-with, keys, vals, and in print-rendering code. `core-merge` without filtering produced corrupted PHMs with metadata as entries. Commit `9c44021` fixed this for merge; `c366963` for print-value.
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§
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Janet's `case` for multi-arity dispatch: `(defn f [& args] (case (length args) 1 ... 2 ...))`. Used in core-derive, core-isa?, core-ancestors, core-descendants because Janet doesn't support Clojure-style `([arg1] body1) ([arg1 arg2] body2)` multi-arity defn syntax.
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§
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Janet's boolean function doesn't exist — use (if x true false). Janet's defn doesn't support Clojure-style multi-arity syntax ([args] body) — use [& args] with case (length args) dispatch. fn? exists as Janet builtin (not Jolt core fn) — use (or (function? x) (cfunction? x)) in tests.
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§
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Janet's `cond` treats the last position as a test clause, NOT a catch-all body. A bare expression like `(push-str buf val)` in the last position runs as a test (always truthy, but executed for side effects between other cond clauses). Use `true (push-str buf val)` to make it a proper catch-all body. Hit us in buffer-based write-value — raw tuple addresses leaked into output because `(push-str buf (string v))` ran as a test clause between other branches.
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@ -1,69 +1,71 @@
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{
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||||
"jolt-dev": {
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"created_by": "agent",
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||||
"use_count": 35,
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||||
"view_count": 62,
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||||
"patch_count": 42,
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||||
"last_used_at": "2026-06-03T03:49:43.510599+00:00",
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||||
"last_viewed_at": "2026-06-03T04:20:32.579847+00:00",
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||||
"last_patched_at": "2026-06-03T03:34:09.007253+00:00",
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"created_at": "2026-06-01T21:26:06.614465+00:00",
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"state": "active",
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"pinned": false
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},
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"jolt-compiler": {
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"created_by": "agent",
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"use_count": 9,
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"view_count": 25,
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"use_count": 10,
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"view_count": 128,
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"patch_count": 9,
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"last_used_at": "2026-06-03T03:49:43.470444+00:00",
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"last_viewed_at": "2026-06-03T04:20:32.574065+00:00",
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"last_used_at": "2026-06-03T13:32:50.977662+00:00",
|
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"last_viewed_at": "2026-06-03T14:12:07.880363+00:00",
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"last_patched_at": "2026-06-03T03:03:27.524946+00:00",
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"created_at": "2026-06-02T17:54:38.690279+00:00",
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"state": "active",
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"pinned": false
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},
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"jpm-build": {
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"created_by": "agent",
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"use_count": 0,
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"view_count": 27,
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"patch_count": 0,
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||||
"last_viewed_at": "2026-06-03T04:20:32.597461+00:00",
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"created_at": "2026-06-01T20:56:39.144222+00:00",
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"state": "active",
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"pinned": false
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},
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"jolt-bootstrap": {
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"created_by": "agent",
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"use_count": 9,
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"view_count": 36,
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"patch_count": 10,
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"last_used_at": "2026-06-02T18:45:23.336653+00:00",
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"last_viewed_at": "2026-06-03T04:20:32.567542+00:00",
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"last_patched_at": "2026-06-02T03:44:45.935676+00:00",
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"created_at": "2026-06-01T21:49:51.101718+00:00",
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"state": "active",
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"pinned": false
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},
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"jolt-gotchas": {
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"created_by": "agent",
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"use_count": 0,
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"view_count": 11,
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"patch_count": 0,
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"last_viewed_at": "2026-06-03T04:20:32.585916+00:00",
|
||||
"created_at": "2026-06-03T03:50:41.474730+00:00",
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"state": "active",
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"pinned": false
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},
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"jolt-persistent-structures": {
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"created_by": "agent",
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"use_count": 1,
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"view_count": 13,
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||||
"view_count": 115,
|
||||
"patch_count": 0,
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||||
"last_used_at": "2026-06-03T03:49:43.520839+00:00",
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||||
"last_viewed_at": "2026-06-03T04:20:32.591070+00:00",
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"last_viewed_at": "2026-06-03T14:12:07.898607+00:00",
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"created_at": "2026-06-03T03:35:04.130959+00:00",
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"state": "active",
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"pinned": false
|
||||
},
|
||||
"jolt-gotchas": {
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"created_by": "agent",
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||||
"use_count": 3,
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||||
"view_count": 116,
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||||
"patch_count": 3,
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||||
"last_used_at": "2026-06-03T13:35:01.902830+00:00",
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||||
"last_viewed_at": "2026-06-03T14:12:07.892405+00:00",
|
||||
"last_patched_at": "2026-06-03T13:35:14.859032+00:00",
|
||||
"created_at": "2026-06-03T03:50:41.474730+00:00",
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"state": "active",
|
||||
"pinned": false
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},
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||||
"jolt-bootstrap": {
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"created_by": "agent",
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||||
"use_count": 9,
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||||
"view_count": 138,
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||||
"patch_count": 10,
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||||
"last_used_at": "2026-06-02T18:45:23.336653+00:00",
|
||||
"last_viewed_at": "2026-06-03T14:12:07.874318+00:00",
|
||||
"last_patched_at": "2026-06-02T03:44:45.935676+00:00",
|
||||
"created_at": "2026-06-01T21:49:51.101718+00:00",
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||||
"state": "active",
|
||||
"pinned": false
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||||
},
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||||
"jpm-build": {
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||||
"created_by": "agent",
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||||
"use_count": 0,
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||||
"view_count": 129,
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||||
"patch_count": 0,
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||||
"last_viewed_at": "2026-06-03T14:12:07.904433+00:00",
|
||||
"created_at": "2026-06-01T20:56:39.144222+00:00",
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||||
"state": "active",
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||||
"pinned": false
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||||
},
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||||
"jolt-dev": {
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||||
"created_by": "agent",
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||||
"use_count": 37,
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||||
"view_count": 166,
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||||
"patch_count": 44,
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||||
"last_used_at": "2026-06-03T13:32:50.995757+00:00",
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||||
"last_viewed_at": "2026-06-03T14:12:07.886018+00:00",
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||||
"last_patched_at": "2026-06-03T13:34:25.654327+00:00",
|
||||
"created_at": "2026-06-01T21:26:06.614465+00:00",
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||||
"state": "active",
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||||
"pinned": false
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||||
}
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||||
}
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@ -1,4 +1,8 @@
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# jolt-dev
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---
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name: jolt-dev
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description: Jolt development workflow — build, test, special form patterns, Janet gotchas
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---
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# jolt-dev
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Jolt development workflow — build, test, special form patterns, Janet gotchas
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@ -20,14 +24,14 @@ To add a new special form to the evaluator:
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1. Add the name to `special-symbol?` in `src/jolt/evaluator.janet`
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2. Add a match arm in `eval-list` (the match on `name`)
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3. Add tests in `test/evaluator-test.janet`
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3. Add tests
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The match arm receives `ctx`, `bindings`, and `form` (the full list). Use `(in form 1)` for first arg, etc.
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**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.
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### Current special forms (29):
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`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?`
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### Current special forms (37):
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`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?`, `protocol-dispatch`, `register-method`, `make-reified`, `satisfies?`
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## Compiler Architecture
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@ -37,6 +41,40 @@ Two-phase: `analyze-form [form bindings ctx]` → `emit-ast` (string) or `emit-e
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**eval-string dispatch** (compile mode): stateful forms → interpreter; everything else → `compile-and-eval`. Macros expand at analyze time.
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## Protocol System
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Protocols are maps with `:jolt/type :jolt/protocol` and `:methods` map.
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Type registry in context env (`:type-registry`) maps `type-tag → proto-name → method-name → fn`.
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**Special forms:**
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- `protocol-dispatch [proto-sym method-sym obj rest-args]` — resolves method via type registry or reified methods
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- `register-method [type-sym proto-sym method-sym fn-form]` — stores impl in type registry
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- `make-reified [proto-sym methods-map]` — creates anonymous object with `:jolt/protocol-methods`
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**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.
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## REPL Collection Rendering (Buffer-Based)
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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.
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```janet
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(var write-value nil) ; forward declaration
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(defn- write-collection [v buf]
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(cond (tuple? v) (do (buffer/push-string buf "[") ...)
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(array? v) (do (buffer/push-string buf "(") ...) ...))
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(set write-value (fn [v buf]
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(cond (nil? v) (buffer/push-string buf "nil")
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(number? v) (buffer/push-string buf (string v))
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(tuple? v) (write-collection v buf)
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true (buffer/push-string buf (string v))))) ; true REQUIRED
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(defn print-value [v] (def buf @"") (write-value v buf) (print (string buf)))
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```
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**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.
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## PersistentHashMap Gotchas
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- `core-map?`: `(if (and (table? x) (get x :jolt/deftype)) true false)` — `and` returns last truthy, not boolean
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## defrecord / deftype Patterns
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- defrecord emits `(deftype TypeName [fields])` + arrow factory `(fn fields-vec (TypeName. field1 field2...))`
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- defrecord emits `(deftype TypeName [fields])` + arrow factory
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- Records are tables with `:jolt/deftype` = type name string
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- `set!` field mutation: `(set! (.-x obj) val)` parses as array with `.-x` symbol head — check symbol name before dispatch
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- `set!` field mutation: `(set! (.-x obj) val)` parses as array with `.-x` symbol head
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## Binding Macro
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@ -55,22 +93,20 @@ Uses `array-map` (plain Janet struct) not `hash-map` (PHM) to avoid PHM get() in
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## Tagged Literals (#inst, #uuid)
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`:#inst` is invalid Janet keyword syntax (contains `#`). Use dynamic table construction:
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```janet
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(let [dr @{}] (put dr (keyword "#inst") (fn [s] s)) dr)
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```
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Use dynamic table construction: `(let [dr @{}] (put dr (keyword "#inst") fn) dr)`
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## LazySeq Patterns
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- Use `indexed?` not `tuple?` for realized sequences (may be arrays from `cons`/`concat`)
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- Avoid `val'` (apostrophe in symbol names) — causes Janet parse errors; use `vf` instead
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- `ls-first`/`ls-rest`/`ls-seq` all call `realize-ls` first (caches result, realizes once)
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- Avoid `val'` (apostrophe in symbol names) — use `vf` instead
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## Janet Gotchas
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- `def` creates constants; use `(var x nil)` for mutable locals
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- Bare tuples in `eval` are function calls: `[1 2 3]` tries to call `1`. Use `['tuple 1 2 3]`
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- Bare tuples in `eval` are function calls: `[1 2 3]` tries to call `1`
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- `try` format: `(try body ([err] handler))` NOT `(try body (catch sym handler))`
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- core-renames MUST match actual fn names: `"-"` → `"core-sub"` (not `"core--"`)
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- Janet `parse` vs `parser/new`: use `parser/new` + `parser/consume` + `parser/eof` + `parser/produce` for full source parsing
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- `(break val)` breaks from a while loop returning val — useful in bucket search patterns
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- `(break val)` breaks from loop returning val — useful in bucket search patterns
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- `boolean` doesn't exist — use `(if x true false)`
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- Janet doesn't support Clojure-style multi-arity defn — use `[& args]` with `case (length args)`
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- Janet's `cond` treats bare expression in last position as test, not catch-all — use `true` guard
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@ -43,3 +43,26 @@ Both tables must be updated together when adding core fns. Missing entries = sil
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## `set!` Field Mutation Reader Quirk
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`(set! (.-x obj) val)` parses as array with `.-x` symbol head — not as standalone `.-x` symbol. Check for this case before the `(. obj -field)` shorthand.
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## Janet `cond` Requires `true` Guard for Catch-All
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A bare expression in the last position of `cond` is treated as a **test** clause (not body). Use `true` as the test:
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```janet
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(cond (nil? x) (buf "nil") (number? x) (buf (string x)) true (buf (string x)))
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```
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Without `true`, the last expression executes as a side-effect test between branches. Hit us in buffer-based write-value — raw tuple addresses leaked into REPL output.
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||||
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## Janet `cond` Requires `true` Guard for Catch-All
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A bare expression in the last position of `cond` is treated as a **test** clause (not body). It executes between other branches as a side-effect test. Use `true` as the test to make it a proper catch-all:
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```janet
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(cond
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(nil? x) (buf "nil")
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||||
(number? x) (buf (string x))
|
||||
true (buf (string x))) ; ← `true` required
|
||||
```
|
||||
|
||||
Without `true`, `(push-str buf (string v))` in the last position leaked raw tuple addresses into REPL output.
|
||||
124
src/jolt/clojure/set.clj
Normal file
124
src/jolt/clojure/set.clj
Normal file
|
|
@ -0,0 +1,124 @@
|
|||
; Jolt Standard Library: clojure.set
|
||||
; Set operations (union, intersection, difference, subset?, superset?, etc.)
|
||||
|
||||
(defn union
|
||||
"Return a set that is the union of the input sets."
|
||||
([s1] s1)
|
||||
([s1 s2]
|
||||
(if (< (count s1) (count s2))
|
||||
(reduce conj s2 s1)
|
||||
(reduce conj s1 s2)))
|
||||
([s1 s2 & sets]
|
||||
(reduce union (union s1 s2) sets)))
|
||||
|
||||
(defn intersection
|
||||
"Return a set that is the intersection of the input sets."
|
||||
([s1] s1)
|
||||
([s1 s2]
|
||||
(reduce (fn [acc item]
|
||||
(if (contains? s2 item) acc (disj acc item)))
|
||||
s1 s1))
|
||||
([s1 s2 & sets]
|
||||
(reduce intersection (intersection s1 s2) sets)))
|
||||
|
||||
(defn difference
|
||||
"Return a set that is the first set without elements of the other sets."
|
||||
([s1] s1)
|
||||
([s1 s2]
|
||||
(reduce disj s1 s2))
|
||||
([s1 s2 & sets]
|
||||
(reduce difference (difference s1 s2) sets)))
|
||||
|
||||
(defn select
|
||||
"Returns a set of the elements for which pred is true."
|
||||
[pred s]
|
||||
(reduce (fn [acc item]
|
||||
(if (pred item) acc (disj acc item)))
|
||||
s s))
|
||||
|
||||
(defn project
|
||||
"Returns a rel of the elements of xrel with only the keys in ks."
|
||||
[xrel ks]
|
||||
(set (map #(select-keys % ks) xrel)))
|
||||
|
||||
(defn rename
|
||||
"Returns a rel with the maps in xrel renamed according to kmap argument,
|
||||
which is a map from original to new key name."
|
||||
[xrel kmap]
|
||||
(set
|
||||
(map
|
||||
(fn [m]
|
||||
(reduce (fn [acc [old new]]
|
||||
(if (contains? m old)
|
||||
(assoc acc new (get m old))
|
||||
acc))
|
||||
(apply dissoc m (keys kmap))
|
||||
kmap))
|
||||
xrel)))
|
||||
|
||||
(defn rename-keys
|
||||
"Returns the map with the keys in kmap renamed to the values in kmap."
|
||||
[map kmap]
|
||||
(reduce
|
||||
(fn [m [old new]]
|
||||
(if (contains? m old)
|
||||
(assoc m new (get m old) old nil)
|
||||
m))
|
||||
map kmap))
|
||||
|
||||
(defn map-invert
|
||||
"Returns the map with the vals mapped to the keys."
|
||||
[m]
|
||||
(reduce (fn [acc [k v]] (assoc acc v k)) {} m))
|
||||
|
||||
(defn join
|
||||
"When passed 2 rels, returns the rel corresponding to the natural
|
||||
join. When passed an additional keymap, joins on the corresponding
|
||||
keys."
|
||||
([xrel yrel]
|
||||
(if (and (seq xrel) (seq yrel))
|
||||
(let [ks (intersection (set (keys (first xrel)))
|
||||
(set (keys (first yrel))))
|
||||
idx (map-invert (zipmap (range) yrel))]
|
||||
(reduce (fn [acc x]
|
||||
(reduce (fn [acc y]
|
||||
(if (= (select-keys x ks)
|
||||
(select-keys y ks))
|
||||
(conj acc (merge x y))
|
||||
acc))
|
||||
acc yrel))
|
||||
#{} xrel))
|
||||
#{}))
|
||||
([xrel yrel kmap]
|
||||
(let [kmap (if (map? kmap) kmap (zipmap kmap kmap))
|
||||
idx (reduce (fn [m y]
|
||||
(assoc m (select-keys y (vals kmap)) y))
|
||||
{} yrel)]
|
||||
(reduce
|
||||
(fn [acc x]
|
||||
(let [found (get idx (select-keys x (keys kmap)))]
|
||||
(if found
|
||||
(conj acc (merge x (rename-keys found kmap)))
|
||||
acc)))
|
||||
#{} xrel))))
|
||||
|
||||
(defn index
|
||||
"Returns a map of the distinct values of ks in the xrel mapped to a
|
||||
set of the maps in xrel with the corresponding values of ks."
|
||||
[xrel ks]
|
||||
(reduce (fn [m x]
|
||||
(let [ik (select-keys x ks)]
|
||||
(assoc m ik (conj (get m ik #{}) x))))
|
||||
{} xrel))
|
||||
|
||||
(defn subset?
|
||||
"Is set1 a subset of set2?"
|
||||
[set1 set2]
|
||||
(and (<= (count set1) (count set2))
|
||||
(every? #(contains? set2 %) set1)))
|
||||
|
||||
(defn superset?
|
||||
"Is set1 a superset of set2?"
|
||||
[set1 set2]
|
||||
(and (>= (count set1) (count set2))
|
||||
(every? #(contains? set1 %) set2)))
|
||||
126
src/jolt/clojure/string.clj
Normal file
126
src/jolt/clojure/string.clj
Normal file
|
|
@ -0,0 +1,126 @@
|
|||
; Jolt Standard Library: clojure.string
|
||||
; String manipulation functions using Jolt core string interop.
|
||||
|
||||
(defn blank?
|
||||
[s]
|
||||
(if (nil? s) true
|
||||
(= 0 (count (str-trim s)))))
|
||||
|
||||
(defn capitalize
|
||||
"Converts first character of the string to upper-case, all other
|
||||
characters to lower-case."
|
||||
[s]
|
||||
(if (< 1 (count s))
|
||||
(str (str-upper (subs s 0 1))
|
||||
(str-lower (subs s 1)))
|
||||
(str-upper s)))
|
||||
|
||||
(defn lower-case
|
||||
"Converts string to all lower-case."
|
||||
[s]
|
||||
(str-lower s))
|
||||
|
||||
(defn upper-case
|
||||
"Converts string to all upper-case."
|
||||
[s]
|
||||
(str-upper s))
|
||||
|
||||
(defn includes?
|
||||
"True if s includes substr."
|
||||
[s substr]
|
||||
(not (nil? (str-find substr s))))
|
||||
|
||||
(defn join
|
||||
"Returns a string of all elements in coll, separated by
|
||||
an optional separator."
|
||||
([coll] (str-join coll))
|
||||
([separator coll] (str-join coll separator)))
|
||||
|
||||
(defn replace
|
||||
"Replaces all instance of match with replacement in s."
|
||||
[s match replacement]
|
||||
(str-replace-all match s replacement))
|
||||
|
||||
(defn replace-first
|
||||
"Replaces the first instance of pattern in string with replacement."
|
||||
[s match replacement]
|
||||
(str-replace match s replacement))
|
||||
|
||||
(defn str-reverse
|
||||
"Returns s with its characters reversed."
|
||||
[s]
|
||||
(str-reverse-b s))
|
||||
|
||||
(defn split
|
||||
"Splits string on a regular expression. Optional limit."
|
||||
([s re]
|
||||
(map str-trim (str-split re s)))
|
||||
([s re limit]
|
||||
(take limit (split s re))))
|
||||
|
||||
(defn starts-with?
|
||||
"True if s starts with substr."
|
||||
[s substr]
|
||||
(let [slen (count s) slen2 (count substr)]
|
||||
(and (>= slen slen2)
|
||||
(= (subs s 0 slen2) substr))))
|
||||
|
||||
(defn ends-with?
|
||||
"True if s ends with substr."
|
||||
[s substr]
|
||||
(let [slen (count s) slen2 (count substr)]
|
||||
(and (>= slen slen2)
|
||||
(= (subs s (- slen slen2)) substr))))
|
||||
|
||||
(defn trim
|
||||
"Removes whitespace from both ends of string."
|
||||
[s]
|
||||
(str-trim s))
|
||||
|
||||
(defn triml
|
||||
"Removes whitespace from the left side of string."
|
||||
[s]
|
||||
(str-triml s))
|
||||
|
||||
(defn trimr
|
||||
"Removes whitespace from the right side of string."
|
||||
[s]
|
||||
(str-trimr s))
|
||||
|
||||
(defn trim-newline
|
||||
"Removes all trailing newline \\n or return \\r characters from string."
|
||||
[s]
|
||||
(var result s)
|
||||
(while (or (= (subs result (dec (count result))) "\n")
|
||||
(= (subs result (dec (count result))) "\r"))
|
||||
(set result (subs result 0 (dec (count result)))))
|
||||
result)
|
||||
|
||||
(defn escape
|
||||
"Return a new string, using cmap to escape each character ch from s."
|
||||
[s cmap]
|
||||
(apply str
|
||||
(map (fn [ch]
|
||||
(if-let [rep (cmap ch)] rep (str ch)))
|
||||
s)))
|
||||
|
||||
(defn index-of
|
||||
"Return index of value (string or char) in s, optionally
|
||||
from start. Returns nil if not found."
|
||||
([s value]
|
||||
(let [idx (str-find value s)]
|
||||
(when idx (inc idx))))
|
||||
([s value from]
|
||||
(let [idx (str-find value (subs s from))]
|
||||
(when idx (+ from (inc idx))))))
|
||||
|
||||
(defn last-index-of
|
||||
"Return last index of value (string or char) in s."
|
||||
([s value]
|
||||
(let [r (str-reverse-b s) sval (str-reverse-b value)
|
||||
idx (str-find sval r)]
|
||||
(when idx (inc (- (count s) (+ idx (count value)))))))
|
||||
([s value from]
|
||||
(let [sub (subs s 0 from) r (str-reverse-b sub) sval (str-reverse-b value)
|
||||
idx (str-find sval r)]
|
||||
(when idx (inc (- from (+ idx (count value))))))))
|
||||
77
src/jolt/clojure/walk.clj
Normal file
77
src/jolt/clojure/walk.clj
Normal file
|
|
@ -0,0 +1,77 @@
|
|||
; Jolt Standard Library: clojure.walk
|
||||
; This file generalizes tree walking for Clojure data structures.
|
||||
|
||||
(defn walk
|
||||
"Traverses form, an arbitrary data structure. inner and outer are
|
||||
functions. Applies inner to each element of form, building up a
|
||||
data structure of the same type, then applies outer to the result.
|
||||
Recognizes all Clojure data structures. Consumes seqs."
|
||||
[inner outer form]
|
||||
(cond
|
||||
(list? form) (outer (apply list (map inner form)))
|
||||
(seq? form) (outer (doall (map inner form)))
|
||||
(vector? form) (outer (vec (map inner form)))
|
||||
(map? form) (outer (into (empty form) (map inner form)))
|
||||
(set? form) (outer (into (empty form) (map inner form)))
|
||||
:else (outer form)))
|
||||
|
||||
(defn postwalk
|
||||
"Performs a depth-first, post-order traversal of form. Calls f on
|
||||
each sub-form, uses f's return value in place of the original.
|
||||
Recognizes all Clojure data structures. Consumes seqs."
|
||||
[f form]
|
||||
(walk (partial postwalk f) f form))
|
||||
|
||||
(defn prewalk
|
||||
"Like postwalk, but does pre-order traversal."
|
||||
[f form]
|
||||
(walk (partial prewalk f) identity (f form)))
|
||||
|
||||
(defn postwalk-demo
|
||||
"Demonstrates the behavior of postwalk by returning a lazy seq of
|
||||
forms passed to the postwalk outer function during the traversal
|
||||
of form."
|
||||
[form]
|
||||
(let [acc (atom [])]
|
||||
(postwalk (fn [x] (swap! acc conj x) x) form)
|
||||
@acc))
|
||||
|
||||
(defn prewalk-demo
|
||||
"Demonstrates the behavior of prewalk by returning a lazy seq of
|
||||
forms passed to the prewalk outer function during the traversal
|
||||
of form."
|
||||
[form]
|
||||
(let [acc (atom [])]
|
||||
(prewalk (fn [x] (swap! acc conj x) x) form)
|
||||
@acc))
|
||||
|
||||
(defn postwalk-replace
|
||||
"Recursively transforms form by replacing keys in smap with their
|
||||
values. Like clojure.string/replace but works with any data
|
||||
structure. Does replacement at the leaves of the tree first."
|
||||
[smap form]
|
||||
(postwalk (fn [x] (if (contains? smap x) (get smap x) x)) form))
|
||||
|
||||
(defn prewalk-replace
|
||||
"Recursively transforms form by replacing keys in smap with their
|
||||
values. Like postwalk-replace but does replacement at the root of
|
||||
the tree first."
|
||||
[smap form]
|
||||
(prewalk (fn [x] (if (contains? smap x) (get smap x) x)) form))
|
||||
|
||||
(defn keywordize-keys
|
||||
"Recursively transforms all map keys from strings to keywords."
|
||||
[m]
|
||||
(let [f (fn [[k v]] (if (string? k) [(keyword k) v] [k v]))]
|
||||
(postwalk (fn [x] (if (map? x) (into {} (map f x)) x)) m)))
|
||||
|
||||
(defn stringify-keys
|
||||
"Recursively transforms all map keys from keywords to strings."
|
||||
[m]
|
||||
(let [f (fn [[k v]] (if (keyword? k) [(name k) v] [k v]))]
|
||||
(postwalk (fn [x] (if (map? x) (into {} (map f x)) x)) m)))
|
||||
|
||||
(defn macroexpand-all
|
||||
"Recursively performs all possible macroexpansions in form."
|
||||
[form]
|
||||
(prewalk (fn [x] (if (seq? x) (macroexpand x) x)) form))
|
||||
|
|
@ -1243,6 +1243,17 @@
|
|||
"str" core-str
|
||||
"name" core-name
|
||||
"subs" core-subs
|
||||
"str-trim" string/trim
|
||||
"str-upper" string/ascii-upper
|
||||
"str-lower" string/ascii-lower
|
||||
"str-find" string/find
|
||||
"str-replace" string/replace
|
||||
"str-replace-all" string/replace-all
|
||||
"str-reverse-b" string/reverse
|
||||
"str-join" string/join
|
||||
"str-split" string/split
|
||||
"str-triml" string/triml
|
||||
"str-trimr" string/trimr
|
||||
"print" core-print
|
||||
"println" core-println
|
||||
"pr" core-pr
|
||||
|
|
|
|||
42
test/phase10-test.janet
Normal file
42
test/phase10-test.janet
Normal file
|
|
@ -0,0 +1,42 @@
|
|||
(use ../src/jolt/api)
|
||||
(use ../src/jolt/reader)
|
||||
(use ../src/jolt/evaluator)
|
||||
|
||||
(defn ct-eval [ctx s] (eval-string ctx s))
|
||||
|
||||
(defn load-clj [ctx filepath]
|
||||
(def source (slurp filepath))
|
||||
(var remaining source)
|
||||
(while (> (length (string/trim remaining)) 0)
|
||||
(def fr (parse-next remaining))
|
||||
(def form (fr 0))
|
||||
(set remaining (fr 1))
|
||||
(when (not (nil? form))
|
||||
(eval-form ctx @{} form))))
|
||||
|
||||
(print "40: clojure.string...")
|
||||
(let [ctx (init)]
|
||||
(load-clj ctx "src/jolt/clojure/string.clj")
|
||||
(assert (= true (ct-eval ctx "(blank? nil)")) "blank? nil")
|
||||
(assert (= true (ct-eval ctx "(blank? \" \")")) "blank? whitespace")
|
||||
(assert (= false (ct-eval ctx "(blank? \"a\")")) "blank? non-empty")
|
||||
(assert (= "Abc" (ct-eval ctx "(capitalize \"abc\")")) "capitalize")
|
||||
(assert (= "hello" (ct-eval ctx "(lower-case \"HELLO\")")) "lower-case")
|
||||
(assert (= "HELLO" (ct-eval ctx "(upper-case \"hello\")")) "upper-case")
|
||||
(assert (= true (ct-eval ctx "(includes? \"hello\" \"ell\")")) "includes? true")
|
||||
(assert (= "foo" (ct-eval ctx "(trim \"foo\")")) "trim")
|
||||
(assert (= true (ct-eval ctx "(starts-with? \"hello\" \"he\")")) "starts-with? true")
|
||||
(assert (= true (ct-eval ctx "(ends-with? \"hello\" \"lo\")")) "ends-with? true"))
|
||||
(print " passed")
|
||||
|
||||
(print "41: clojure.set...")
|
||||
(let [ctx (init)]
|
||||
(load-clj ctx "src/jolt/clojure/set.clj")
|
||||
(assert (= #{1 2 3} (ct-eval ctx "(union #{1 2} #{2 3})")) "union")
|
||||
(assert (= #{2} (ct-eval ctx "(intersection #{1 2} #{2 3})")) "intersection")
|
||||
(assert (= #{1} (ct-eval ctx "(difference #{1 2} #{2 3})")) "difference")
|
||||
(assert (= true (ct-eval ctx "(subset? #{1} #{1 2 3})")) "subset? true")
|
||||
(assert (= true (ct-eval ctx "(superset? #{1 2 3} #{1})")) "superset? true"))
|
||||
(print " passed")
|
||||
|
||||
(print "All Phase 10 tests passed!")
|
||||
Loading…
Add table
Add a link
Reference in a new issue