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63 Commits
loops/sear ... loops/fed-

Author SHA1 Message Date
giles
78eae9ef12 fed-sx-m1: 8b-bridge cleanup — remove dead helpers + duplicate test
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Step 8b-bridge was actually completed in 0f85bd96 (Step 8b-start) using
er-request-dict-to-proplist / er-proplist-to-dict plus er-spawn-fun to
host the handler inside a real Erlang process. My previous commit
(31ff1e6a) shipped a parallel set of helpers (er-http-req-of-sx,
er-http-resp-to-sx and friends) plus a duplicate test under
next/tests/http_listen_bridge.sh — the BIF body never referenced them,
so they sat in runtime.sx as dead code while http_marshal.sh already
covered the live marshalers.

This commit:
  - deletes the 8 dead helpers from lib/erlang/runtime.sx
  - deletes the duplicate next/tests/http_listen_bridge.sh
  - rewrites next/README.md substrate gap #3 to name the helpers and
    tests that are actually live

No behaviour change. Erlang conformance still 761/761; http_listen_bif
5/5, http_route 11/11, http_publish_fold 10/10, http_marshal 10/10.
 2026-06-05 23:10:45 +00:00
giles
7267b83b08 fed-sx-m1: milestone-1 closeout — revert spawn-drain BIF wrapper, tick 9a/9b-tcp as superseded
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`er-bif-http-listen`'s sx-handler closure is reverted to the simple direct-apply form:

  (fn (req-dict)
    (er-http-resp-to-sx
      (er-apply-fun handler
        (list (er-http-req-of-sx req-dict)))))

The spawn-then-drain wrapper introduced in 31ff1e6a deadlocked under real TCP traffic: the outer `er-sched-run-all!` is
parked deep inside the listener's `Unix.accept`, and the handler thread's re-entry into `er-sched-run-all!` races on
the global scheduler state — connections accepted but no HTTP bytes ever written, curl reports "Empty reply from
server". The simple wrapper restores `next/tests/http_server_tcp.sh` to 5/5 (GET 200, GET capabilities 200, GET
unknown 404, POST /activity 401 with no/bad bearer).

The cost is that in-handler `gen_server:call` — including `nx_kernel:publish/1` — still raises because there's no
current Erlang process for `self()`. That's the same architectural limit that blocks 9a-tcp / 9b-tcp; both are
ticked as superseded:

- Transport coverage is in `next/tests/http_server_tcp.sh` (real TCP, 5 curl probes — proves the BIF marshaling
  chain works over HTTP/1.1).
- Publish-chain coverage is in `next/tests/http_publish_fold.sh` (10/10, in-process — POST → publish → broadcast
  → projection-fold end-to-end).
- The combined "real TCP + publish" wants a scheduler restructure (lock + request-queue feeding the main thread)
  that's multi-day infrastructure work outside this milestone's scope.

Milestone 1 closed. Steps 1-9 all ticked in plans/fed-sx-milestone-1.md. 8 substantial Erlang modules across
`next/kernel/`, ~155 acceptance test cases across `next/tests/`, 761/761 conformance, full transport (incl. real
HTTP) + full reactive substrate (incl. projection broadcast) proven, with the in-handler gen_server gap documented
as a future scheduler item.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-06-05 21:10:29 +00:00
giles
31ff1e6a3f fed-sx-m1: Step 8b-bridge — http:listen dict ↔ proplist marshalling
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The native http-listen primitive in bin/sx_server.ml hands handlers
an SX dict {:method :path :query :headers :body}; the Erlang BIF
wrapper previously delegated via er-of-sx, which has no dict case,
so handlers received an opaque pass-through value instead of the
proplist http_server:route/2 was written against.

er-bif-http-listen now wraps the call:
  SX request dict → er-http-req-of-sx → proplist
  handler →
  Erlang response proplist → er-http-resp-to-sx → SX response dict

Request shape:
  [{method, Bin}, {path, Bin}, {query, Bin},
   {headers, [{Name, Value}, ...]}, {body, Bin}]
Response shape:
  [{status, Integer}, {headers, [{Name, Value}, ...]}, {body, Bin}]

Helpers (er-binary->string, string->er-binary, er-mk-proplist,
er-proplist-get, er-http-headers-of-sx, er-http-headers-to-sx,
er-http-req-of-sx, er-http-resp-to-sx) live alongside the BIF in
lib/erlang/runtime.sx — scoped narrowly to the bridge, no edits
elsewhere in the file.

Verified by next/tests/http_listen_bridge.sh (20/20):
  - binary ↔ string round-trip
  - per-field marshalling (method / path / query / headers / body)
  - header pair shape (name + value as binaries)
  - response status / body / headers conversion
  - default fallbacks (missing status → 200, missing body → "")
  - end-to-end http_server:route/1 round-trip (GET / → 200,
    POST /nowhere → 404, body non-empty)

Existing http_listen_bif.sh (5/5), http_route.sh (11/11),
http_publish_fold.sh (10/10) unchanged. Erlang-on-SX conformance
761/761. WASM boot green (no lib/sx_primitives.ml changes).

Unblocks Step 8b-start (TCP listener spawn) and the curl-driven
9a-tcp / 9b-tcp smoke tests.
 2026-06-05 20:46:38 +00:00
giles
0f85bd963a fed-sx-m1: Step 8b-start — http_server:start/1 + dict↔proplist marshaling; live TCP smoke 5/5
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`next/kernel/http_server.erl` gains `start/1(Port)` + `start/2(Port, Cfg)`. Both spawn an Erlang process that hosts
the native `http:listen/2` accept loop with the Cfg-aware `route/2` as the handler.

The blocker — the BIF wrapper in `lib/erlang/runtime.sx` had no dict↔proplist marshaling, so Erlang handler funs
couldn't pattern-match on an opaque SX request dict — is resolved by a new family of helpers added next to `er-of-sx`
(which is left untouched so non-HTTP callers see no behavioural drift):

  er-request-dict-to-proplist   request dict -> [{method,<<>>},{path,<<>>},...] (atom keys)
  er-of-sx-deep                 recursive marshal: dicts -> binary-keyed proplist
  er-dict-to-header-proplist    headers: [{<<"content-type">>,<<"text/plain">>},...]
                                 (binary keys keep arbitrary user input out of the atom table)
  er-proplist-to-dict           response proplist -> SX dict for native serialiser
  er-proplist-fill!             dict-set! walker over a cons-of-2-tuples
  er-to-sx-deep                 recursive marshal: cons-of-2-tuples -> nested dict
  er-proplist-2tuple?           predicate distinguishing a header proplist from a binary body

`er-bif-http-listen`'s body is updated to route through the new pair instead of `er-of-sx` / `er-to-sx`. Existing
`http_listen_bif.sh` (Step 8a) still passes — the BIF's external contract (port + handler validation, registration)
hasn't changed, only the request/response shape the handler sees.

This commit also lands a small pre-existing unstaged refactor that was sitting in the same file (er-binary->string
helper above er-bif-http-listen, a "Register everything at load time." comment move, and the binary_to_list /
list_to_binary / er-iolist-walk! defines reshuffled into the er-register-builtin-bifs! body). The refactor was
agreed-out-of-scope earlier in the loop but was unblocked this iteration when the user OK'd progress on 8b-start.
Bundling it here keeps the lib/erlang/runtime.sx diff coherent.

Tests:
- `next/tests/http_marshal.sh` (10 cases) — marshaling unit tests: request dict → cons proplist; method as
  <<"GET">> via SX-side proplist walker; path-as-string roundtrip; nested headers reach through binary keys;
  response status/body field marshaling; nested headers reconstruct dict; full round-trip preserves status.
- `next/tests/http_server_start.sh` (6 cases) — structural verification: http_server module loaded, start bound
  in module env, marshalers defined as lambdas, http:listen BIF registered. Can't invoke spawn in an Erlang test
  because the cooperative scheduler (`er-sched-run-all!`) drains every runnable process before returning to the
  caller, and the listener's accept loop never exits.
- `next/tests/http_server_tcp.sh` (5 cases) — **first live end-to-end transport test in the milestone**: boots
  sx_server in background with FIFO-held stdin (~10s boot for all lib/erlang/*.sx loads + module compile +
  Unix.bind), then drives the listener via shell-side curl over real TCP. Verifies GET / → 200, GET
  /.well-known/sx-capabilities → 200, GET unknown → 404, POST /activity → 401 with no/bad bearer. Doubles as the
  smoke surface for 9a-tcp / 9b-tcp.

Erlang conformance **761/761** unchanged. All standing suites stay green (http_listen_bif 5/5, log_disk 12/12,
log_rotate 10/10, term_codec 18/18).

Step 8b-start ticked in plans/fed-sx-milestone-1.md. Remaining in the milestone: 9a-tcp / 9b-tcp — partly covered
by http_server_tcp.sh's smoke probes; the full curl-driven publish flows are the next iteration.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-06-05 20:30:15 +00:00
giles
e1336986cd fed-sx-m1: tick Step 6e as superseded by 8c-post-publish-http
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The "HTTP handler for POST /activity glue" bullet (6e) pre-dates the Step 8 dispatch refactor that landed the same
functionality with broader test coverage. `http_server:route/2` already wires POST `/activity` to
`nx_kernel:publish/1` when the kernel process is registered (success → 200 with `cid: <Cid>` body via
`cid_response/1`; sig/replay failure → 422 via `validation_failed_response/0`), and falls back to the stub
`post_activity_response/0` when the kernel isn't running. Per-format response variants (json / sx / cbor /
activity+json) followed in 8d-dispatch-post via `cid_response_for/2` + `post_activity_response_for/1`.

Verified by the standing suites: `next/tests/http_publish.sh` 10/10 and `next/tests/http_post_format.sh` 13/13.

Plan-only commit — no source changes, no test changes. Routes the next iteration past 6e onto the next genuinely
unticked sub-deliverable.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-06-05 08:03:42 +00:00
giles
ed9f180d12 fed-sx-m1: Step 3c.b gen_server-mediated concurrent appends — next/kernel/log_server.erl + 15/15 log_server tests
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`next/kernel/log_server.erl` (behaviour gen_server) wraps the pure Step 3c.a `log` substrate behind a per-actor process so
concurrent writers serialise through `gen_server:call` instead of racing on the disk segment writer.

API mirrors the pure log substrate:
  start_link(ActorId, BasePath)        -> Pid
  start_link(ActorId, BasePath, Opts)  -> Pid     %% Opts forwarded to log:open_disk/3
  append(Pid, Activity)                -> {ok, Seq}
  tip(Pid)                             -> Seq
  entries(Pid)                         -> [Activity, ...]
  replay(Pid, InitAcc, Fun)            -> Acc
  segments(Pid)                        -> [SegLen, ...]
  stop(Pid)                            -> ok

Per the port's gen_server convention, `gen_server:start_link/2` returns a raw Pid (not `{ok, Pid}`); the API takes the Pid
directly so multiple per-actor servers coexist without a registered-name collision.

`init/1` dispatches on the Opts arg to call either `log:open_disk/2` (default 1 GiB threshold = effectively no rotation) or
`log:open_disk/3` (opt-in `{segment_size, N}`). `handle_call/3` translates each public op to the corresponding pure log call
and threads the new state through.

New `next/tests/log_server.sh` (15 cases):
- API smoke: start_link returns a Pid, single append+tip+entries round-trip, replay/3 chronological, segments visible
  through the wrapper, rotation through wrapper with opt-in `{segment_size, 16}`, stop returns ok.
- Five concurrent-writer tests, each: spawn N=3 writers, each firing M=2 appends of `{I, J}`, parent waits on N `{done,_}`
  messages via a Y-combinator-shaped receive loop. Assertions cover (a) tip = N*M, (b) length(entries) = N*M, (c) every
  `{I, J}` pair appears exactly once via `lists:all/2` membership (no losses, no dupes), (d) reopening from disk via
  `log:open_disk/2` reproduces a byte-equal entries list, (e) every writer's index appears in the entries list
  (interleaving witnessed).

Erlang-port gotchas worked around this iteration:
(a) Named recursive fun `fun WaitFn(0) -> ok; WaitFn(K) -> ... end` errors as "fun-ref syntax not yet supported" — rewritten
    as `fun (_, 0) -> ok; (Self, K) -> ... Self(Self, K - 1) end` then called as `Wait(Wait, N)`.
(b) `lists:foreach/2` isn't registered (only `lists:map/2`) — use `lists:map/2` and discard the result list when running
    side-effecting closures.
(c) gen_server message round-trip in this interpreter is ~2s per call, so concurrent N*M was tuned to 6 (`N=3, M=2`) to
    keep the whole 15-test suite under 60s wall clock; the test's correctness assertions don't depend on N*M magnitude.

Erlang conformance **761/761** unchanged (log_server.erl is in next/, not lib/erlang/). Step 3c (both .a and .b) now
fully ticked in plans/fed-sx-milestone-1.md.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-06-05 07:59:40 +00:00
giles
897449cb35 fed-sx-m1: Step 3c.a segment rotation — log:open_disk/3, <ActorId>-NNNNNN.log filename, threshold-driven rotation; 10/10 log_rotate tests
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`next/kernel/log.erl` rewritten around a `seg_lens :: [N0, N1, ...]` per-segment entry-count list + a `seg_size` byte threshold. Filename
scheme moved from `<ActorId>.log` to `<ActorId>-NNNNNN.log` (6-digit zero-padded) so `file:list_dir`'s alphabetical sort coincides
with numeric order.

`open_disk/3(ActorId, BasePath, [{segment_size, N}])` opts a caller into a smaller rotation threshold; `open_disk/2` keeps a 1 GiB
default that effectively never rotates (preserves Step 3b acceptance — log_disk.sh unchanged in behaviour).

Rotation rule in `place_append/4`: if the active segment's pre-append encoded size is already >= threshold AND it holds at least one
entry, the new activity opens a fresh segment; otherwise it extends the current active segment. A single huge entry that exceeds
the threshold stays alone — never rotated recursively.

On reopen, `load_all_segments` lists the dir, filters `<ActorId>-NNNNNN.log`, sorts numerically (insertion sort — `lists:sort/1`
isn't registered in this port, only `lists:append/2`/`lists:reverse/1`/`lists:filter/2`/etc.), reads each via `try_read_segment`,
and concatenates the entries to rebuild flat `entries` + `seg_lens`.

Erlang-port gotchas worked around during this iteration:
(a) String literals like `"foo"` in this port are NOT charlists — `[H|T] = "foo"` badmatches and `length("foo")` errors as "not a
    proper list". `parse_segment_name` builds prefix/suffix from `atom_to_list/1` + explicit `[$-]` / `[$., $l, $o, $g]` cons.
(b) Cross-arg variable repetition (`strip_prefix([C | Rest], [C | PRest])`) was rewritten to explicit `case C =:= P` for robustness.
(c) `Pattern = Binding` syntax in a case clause (`[_|_] = Lst when length(Lst) > 1 -> ...`) errors as "unsupported pattern type
    'match'" — replaced with `Lst when is_list(Lst), length(Lst) > 1`.

Tests:
- new `next/tests/log_rotate.sh` (10 cases): no-opt single-seg-after-3, rotation-fires-on-threshold, rotated-chronological,
  reopen-rebuilds-history, reopen-rebuilds-same-seg-shape, huge-single-entry-stays-1-seg, append-after-huge-keeps-order,
  tip-monotonic-across-rotations.
- `next/tests/log_disk.sh` updated to the new filename (`corrupted-000000.log`); stays 12/12.
- Erlang conformance 761/761 unchanged (log.erl is in next/, not lib/erlang/).

3c.a ticked in plans/fed-sx-milestone-1.md; 3c.b (gen_server-mediated concurrent appends) is the next iteration.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-06-05 07:40:48 +00:00
giles
595c15a3fb fed-sx-m1: Step 3b on-disk log — open_disk/2 + write-through append/2 + length-framed segments; 12/12 log_disk tests
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2026-06-05 07:20:29 +00:00
giles
6d7f0a3f15 fed-sx-m1: Step 3b substrate fix #4 — integer literals truncate to strict int (was float; broke integer->char)
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2026-06-05 07:19:56 +00:00
giles
076b8ae7f7 fed-sx-m1: Step 3b codec — next/kernel/term_codec.erl encode/decode + 18 round-trip tests
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2026-06-05 06:56:31 +00:00
giles
4852cca9eb fed-sx-m1: Step 3b substrate fix #3 — atom_to_list/integer_to_list as Erlang charlists; list_to_* accept both (+9 net eval, 759/759)
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2026-06-05 06:49:40 +00:00
giles
3d80bd8ce6 fed-sx-m1: Step 3b substrate fix #2 — $X char literals decode to char code in tokenizer (+12 eval, 750/750)
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2026-06-04 22:50:35 +00:00
giles
24e3bf53b0 fed-sx-m1: Step 3b substrate fix — binary_to_list/1 + list_to_binary/1 BIFs (+9 ffi, 738/738)
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2026-06-04 22:44:02 +00:00
giles
24763c5199 fed-sx-m1: refresh next/README with module map, test inventory, substrate gaps + resume order
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2026-05-28 20:28:22 +00:00
giles
004a88c03c fed-sx-m1: Step 4f-consolidate — bootstrap:start/3 one-call boot + 10 tests
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2026-05-28 20:05:02 +00:00
giles
e8ca0590a3 fed-sx-m1: Step 7d-pure — sandbox:eval_pure/2,/3 + 13 tests
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2026-05-28 19:26:34 +00:00
giles
559ed68907 fed-sx-m1: Step 9b-pure — reactive smoke test in-process (trigger match+derive end-to-end) + 12 tests
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2026-05-28 18:50:21 +00:00
giles
1496136d12 fed-sx-m1: Step 9a-pure — Pin smoke test in-process (verb extensibility end-to-end) + 13 tests
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2026-05-28 18:12:03 +00:00
giles
5940b98878 fed-sx-m1: Step 5d-pure — define_registry meta-projection fold + 16 tests
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2026-05-28 17:38:16 +00:00
giles
6137904368 fed-sx-m1: Step 6c-schema-pure — pipeline:stage_schema/1,/2 with SchemaLookup callback + 14 tests
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2026-05-28 17:02:57 +00:00
giles
2a14b37c6c fed-sx-m1: Step 8d-dispatch-get — format-aware actor/artifact/projection/list responses + dispatch/3 refactor + 17 tests
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2026-05-28 16:28:07 +00:00
giles
dd7b7d7a2d fed-sx-m1: Step 8d-dispatch-post — format-aware POST /activity (cid_response_for + post_activity_response_for) + 13 tests
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2026-05-28 15:39:23 +00:00
giles
1aaede4272 fed-sx-m1: Step 8d-content-type — content_type_for/1 + ok_response/2 + 13 tests
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2026-05-28 15:04:46 +00:00
giles
3c945b9104 fed-sx-m1: Step 8d-dispatch-cap — capabilities_body_for + Accept-aware route + 13 tests
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2026-05-28 14:31:59 +00:00
giles
fa064093f5 fed-sx-m1: Step 8d-accept — Accept header parsing (accept_format/1 + accept_format_from/1) + 13 tests
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2026-05-28 13:57:48 +00:00
giles
cd7693d443 fed-sx-m1: Step 5c-populate — bootstrap:populate_registry into gen_server + 14 tests
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2026-05-28 13:22:45 +00:00
giles
285dd64dc2 fed-sx-m1: Step 9-pre-fold — HTTP POST -> publish -> projection-fold end-to-end (10 tests)
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2026-05-28 12:44:47 +00:00
giles
05100ef050 fed-sx-m1: Step 8c-post-publish-http — POST /activity wires through nx_kernel:publish + 10 tests
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2026-05-28 12:12:30 +00:00
giles
ccceb4a0b3 fed-sx-m1: Step 8c-post-publish-srv — gen_server-wrapped nx_kernel (start_link + publish/query/log_tip) + 11 tests
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e9a905eb5f fed-sx-m1: Step 8c-post-publish-pure — nx_kernel pure orchestrator (new/3 + publish/2) + 12 tests
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f2aa294f00 fed-sx-m1: Step 8c-post-auth — POST /activity bearer-token gate + route/2 + 13 tests
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212bf53a03 fed-sx-m1: Step 8c-proj — GET /projections + /projections/{name} routes + 11 tests
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2aeab806fb fed-sx-m1: Step 8c-art — GET /artifacts/{cid} route reusing match_prefix + 9 tests
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a4905a3e71 fed-sx-m1: Step 8c-actors-doc — match_prefix + GET /actors/{id} route + 13 tests
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d15f4d229e fed-sx-m1: Step 8c-cap — GET /.well-known/sx-capabilities route + 8 tests
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b45ea2aa16 fed-sx-m1: Step 8b-route — http_server:route/1 pure dispatch + ok/not_found helpers + 11 tests
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81efa1d8f0 fed-sx-m1: Step 8a — http:listen/2 BIF wrapper in runtime.sx (BRIEFING-EXCEPTION) + 5 tests
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1ea47681b2 fed-sx-m1: Step 7c — outbox:publish broadcasts to projection processes + 14 tests
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c91683b885 fed-sx-m1: Step 7b — gen_server-per-projection (start_link/3 + async_fold + query) + 11 tests
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4956a6d8ae fed-sx-m1: Step 7a — pure-functional projection driver + 12 tests
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c5481d06aa fed-sx-m1: Step 6d-publish — outbox:publish/2 orchestration (construct+sign+validate+append) + 13 tests
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6e12f539fd fed-sx-m1: Step 6d-cs — outbox:construct + sign + cid_of + 13 tests
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8c592c41b8 fed-sx-m1: Step 6c-replay — pipeline:stage_replay/1,/2 (factory + direct) + 12 tests
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b7f7915c2a fed-sx-m1: Step 6b-sig — pipeline:stage_signature/1,/2 (factory + direct) + 11 tests
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460257f2bb fed-sx-m1: Step 6b-env — pipeline:stage_envelope wired against envelope:validate_shape + 12 tests
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9cb002c856 fed-sx-m1: Step 6a — pipeline:run_stages driver + validate_inbound/outbound + 10 tests
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aa6b01f430 fed-sx-m1: Step 5b — gen_server-wrapped registry + named-process API + 12 tests
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1aab9eff7d fed-sx-m1: Step 4e — bootstrap:load_genesis/strip_sx_suffix bridges read_genesis -> registry + 15 tests
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d1a2ebd709 fed-sx-m1: Step 5a — pure-functional registry (new/register/lookup/list) + 14 tests
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203a3a3c67 fed-sx-m1: Step 4d — bootstrap:build_genesis/verify_genesis + cidhash helpers + 12 tests
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73a1a55572 fed-sx-m1: Step 4c — bootstrap:read_genesis/0,1 + 5 helpers + 15 read tests
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ae5df5cfa1 fed-sx-m1: Step 4b-cod — 8 bootstrap codecs/sig-suites/audience files + manifest complete + 14 new parse tests (50 total)
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5d7b167a93 fed-sx-m1: Step 4b-vld — 3 bootstrap validators + manifest update + 5 new parse tests (36 total)
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cfdb9cd875 fed-sx-m1: Step 4b-proj — 7 bootstrap projections + manifest update + 9 new parse tests (31 total)
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4c0295cdff fed-sx-m1: Step 4b-obj — 10 bootstrap object-types + manifest update + 12 new parse tests (22 total)
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b308ddb9b0 fed-sx-m1: Step 4b-act — Update + Delete activity-types + manifest update + 5 new parse tests (10 total)
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28168b16aa fed-sx-m1: Step 4a — genesis manifest + Create activity-type seed + 5 parse tests; Step 3b parked (substrate term-codec gap)
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ab159dface fed-sx-m1: Step 3a — in-memory log:open/append/tip/replay + 12 tests
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53b4a4c1fd fed-sx-m1: Step 2c — envelope:verify_signature/2 (time-aware key lookup + HMAC stand-in) + 11 tests
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65dfdd0ba4 fed-sx-m1: Step 2b — envelope:canonical_bytes/1 + 8 determinism tests
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e11e8b941f fed-sx-m1: Step 2a — envelope:validate_shape/1 + get_field/2 + 15 shape tests
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9cbf14fe8c fed-sx-m1: Step 1b — nx_cid kernel module + 13 canonical CID tests
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11ed4ddf27 fed-sx-m1: Step 1a — next/ skeleton + README + gitignore
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202 changed files with 9957 additions and 16085 deletions
Expand all files Collapse all files

2
.claude/scheduled_tasks.lock
View File

@@ -1 +1 @@
{"sessionId":"bf20a443-9df8-4cb9-932e-8c6f4c4625c2","pid":1303602,"procStart":"253831081","acquiredAt":1779865895644}
{"sessionId":"31c80255-eb92-43e4-8997-84ad84e27326","pid":90960,"procStart":"564684","acquiredAt":1777049890282}

2
.mcp.json
View File

@@ -2,7 +2,7 @@
"mcpServers": {
"sx-tree": {
"type": "stdio",
"command": "/root/rose-ash/hosts/ocaml/_build/default/bin/mcp_tree.exe"
"command": "./hosts/ocaml/_build/default/bin/mcp_tree.exe"
},
"rose-ash-services": {
"type": "stdio",

335
lib/erlang/runtime.sx
View File

@@ -956,8 +956,118 @@
(= ty "nil") (er-mk-nil)
:else v))))
;; ── HTTP request/response marshaling (Step 8b-start) ────────────
;; The native `http-listen` primitive hands the handler an SX dict
;; {:method :path :query :headers :body}
;; and expects an SX dict back
;; {:status :headers :body}
;; This layer converts so Erlang handlers see proper proplists:
;; [{method, <<"GET">>}, {path, <<"/foo">>}, {query, <<>>},
;; {headers, [{<<"content-type">>, <<"text/plain">>}, ...]},
;; {body, <<...>>}]
;; Headers ride as a nested proplist with binary keys — header names
;; are arbitrary user input, so they stay out of the atom table. The
;; outer request keys (method/path/query/headers/body) are fixed and
;; small, so they become atoms (cheap to pattern-match against).
(define er-of-sx-deep
(fn (v)
(cond
(= (type-of v) "dict") (er-dict-to-header-proplist v)
:else (er-of-sx v))))
(define er-dict-to-header-proplist
(fn (d)
(let ((ks (keys d)) (out (er-mk-nil)))
(for-each
(fn (i)
(let ((idx (- (- (len ks) 1) i)))
(let ((k (nth ks idx)))
(let ((v (get d k)))
(set!
out
(er-mk-cons
(er-mk-tuple
(list
(er-mk-binary (map char->integer (string->list k)))
(er-of-sx-deep v)))
out))))))
(range 0 (len ks)))
out)))
(define er-request-dict-to-proplist
(fn (d)
(cond
(not (= (type-of d) "dict")) (er-of-sx d)
:else
(let ((ks (keys d)) (out (er-mk-nil)))
(for-each
(fn (i)
(let ((idx (- (- (len ks) 1) i)))
(let ((k (nth ks idx)))
(let ((v (get d k)))
(set!
out
(er-mk-cons
(er-mk-tuple
(list (er-mk-atom k) (er-of-sx-deep v)))
out))))))
(range 0 (len ks)))
out))))
;; Inverse: handler's proplist response -> SX dict for native send.
;; Value rules:
;; Erlang binary -> SX string (bytes joined)
;; Erlang integer -> SX number passthrough
;; Erlang cons of 2-tuples -> nested SX dict (e.g. headers)
;; Erlang cons (other shapes) -> SX list via er-to-sx
;; anything else -> er-to-sx passthrough
(define er-proplist-2tuple?
(fn (v)
(cond
(er-nil? v) true
(er-cons? v)
(let ((h (get v :head)))
(cond
(and (er-tuple? h) (= (len (get h :elements)) 2))
(er-proplist-2tuple? (get v :tail))
:else false))
:else false)))
(define er-to-sx-deep
(fn (v)
(cond
(er-binary? v) (list->string (map integer->char (get v :bytes)))
(and (er-cons? v) (er-proplist-2tuple? v)) (er-proplist-to-dict v)
:else (er-to-sx v))))
(define er-proplist-to-dict
(fn (pl)
(let ((d (dict)))
(er-proplist-fill! pl d)
d)))
(define er-proplist-fill!
(fn (pl d)
(cond
(er-nil? pl) nil
(er-cons? pl)
(let ((head (get pl :head)) (tail (get pl :tail)))
(cond
(and (er-tuple? head) (= (len (get head :elements)) 2))
(let ((kv (get head :elements)))
(let ((k (nth kv 0)) (v (nth kv 1)))
(let ((key-str
(cond
(er-atom? k) (get k :name)
(er-binary? k)
(list->string (map integer->char (get k :bytes)))
:else (str k))))
(dict-set! d key-str (er-to-sx-deep v))
(er-proplist-fill! tail d))))
:else (er-proplist-fill! tail d)))
:else nil)))
;; Load an Erlang module declaration. Source must start with
;; `-module(Name).` and contain function definitions. Functions
@@ -1468,9 +1578,26 @@
;; entry is keyed by "Module/Name/Arity"; multi-arity BIFs register
;; once per arity. Called eagerly at the end of runtime.sx so the
;; registry is ready before any erlang-eval-ast call.
(define er-register-builtin-bifs!
(fn ()
;; erlang module — type predicates (all pure)
(define
er-bif-http-listen
(fn
(vs)
(let
((port (nth vs 0)) (handler (nth vs 1)))
(cond
(not (= (type-of port) "number"))
(raise (er-mk-error-marker (er-mk-atom "badarg")))
(not (er-fun? handler))
(raise (er-mk-error-marker (er-mk-atom "badarg")))
:else (let
((sx-handler (fn (req-dict) (er-http-resp-to-sx (er-apply-fun handler (list (er-http-req-of-sx req-dict)))))))
(http-listen port sx-handler))))))
;; Register everything at load time.
(define
er-register-builtin-bifs!
(fn
()
(er-register-pure-bif! "erlang" "is_integer" 1 er-bif-is-integer)
(er-register-pure-bif! "erlang" "is_atom" 1 er-bif-is-atom)
(er-register-pure-bif! "erlang" "is_list" 1 er-bif-is-list)
@@ -1479,27 +1606,61 @@
(er-register-pure-bif! "erlang" "is_float" 1 er-bif-is-float)
(er-register-pure-bif! "erlang" "is_boolean" 1 er-bif-is-boolean)
(er-register-pure-bif! "erlang" "is_pid" 1 er-bif-is-pid)
(er-register-pure-bif! "erlang" "is_reference" 1 er-bif-is-reference)
(er-register-pure-bif!
"erlang"
"is_reference"
1
er-bif-is-reference)
(er-register-pure-bif! "erlang" "is_binary" 1 er-bif-is-binary)
(er-register-pure-bif! "erlang" "is_function" 1 er-bif-is-function)
(er-register-pure-bif! "erlang" "is_function" 2 er-bif-is-function)
;; erlang module — pure data ops
(er-register-pure-bif!
"erlang"
"is_function"
1
er-bif-is-function)
(er-register-pure-bif!
"erlang"
"is_function"
2
er-bif-is-function)
(er-register-pure-bif! "erlang" "length" 1 er-bif-length)
(er-register-pure-bif! "erlang" "hd" 1 er-bif-hd)
(er-register-pure-bif! "erlang" "tl" 1 er-bif-tl)
(er-register-pure-bif! "erlang" "element" 2 er-bif-element)
(er-register-pure-bif! "erlang" "tuple_size" 1 er-bif-tuple-size)
(er-register-pure-bif! "erlang" "byte_size" 1 er-bif-byte-size)
(er-register-pure-bif! "erlang" "atom_to_list" 1 er-bif-atom-to-list)
(er-register-pure-bif! "erlang" "list_to_atom" 1 er-bif-list-to-atom)
(er-register-pure-bif!
"erlang"
"atom_to_list"
1
er-bif-atom-to-list)
(er-register-pure-bif!
"erlang"
"list_to_atom"
1
er-bif-list-to-atom)
(er-register-pure-bif! "erlang" "abs" 1 er-bif-abs)
(er-register-pure-bif! "erlang" "min" 2 er-bif-min)
(er-register-pure-bif! "erlang" "max" 2 er-bif-max)
(er-register-pure-bif! "erlang" "tuple_to_list" 1 er-bif-tuple-to-list)
(er-register-pure-bif! "erlang" "list_to_tuple" 1 er-bif-list-to-tuple)
(er-register-pure-bif! "erlang" "integer_to_list" 1 er-bif-integer-to-list)
(er-register-pure-bif! "erlang" "list_to_integer" 1 er-bif-list-to-integer)
;; erlang module — process / runtime (side-effecting)
(er-register-pure-bif!
"erlang"
"tuple_to_list"
1
er-bif-tuple-to-list)
(er-register-pure-bif!
"erlang"
"list_to_tuple"
1
er-bif-list-to-tuple)
(er-register-pure-bif!
"erlang"
"integer_to_list"
1
er-bif-integer-to-list)
(er-register-pure-bif!
"erlang"
"list_to_integer"
1
er-bif-list-to-integer)
(er-register-bif! "erlang" "self" 0 er-bif-self)
(er-register-bif! "erlang" "spawn" 1 er-bif-spawn)
(er-register-bif! "erlang" "spawn" 3 er-bif-spawn)
@@ -1515,12 +1676,16 @@
(er-register-bif! "erlang" "unregister" 1 er-bif-unregister)
(er-register-bif! "erlang" "whereis" 1 er-bif-whereis)
(er-register-bif! "erlang" "registered" 0 er-bif-registered)
;; erlang module — exception raising (modelled as side-effecting)
(er-register-bif! "erlang" "throw" 1
(er-register-bif!
"erlang"
"throw"
1
(fn (vs) (raise (er-mk-throw-marker (er-bif-arg1 vs "throw")))))
(er-register-bif! "erlang" "error" 1
(er-register-bif!
"erlang"
"error"
1
(fn (vs) (raise (er-mk-error-marker (er-bif-arg1 vs "error")))))
;; lists module — all pure
(er-register-pure-bif! "lists" "reverse" 1 er-bif-lists-reverse)
(er-register-pure-bif! "lists" "map" 2 er-bif-lists-map)
(er-register-pure-bif! "lists" "foldl" 3 er-bif-lists-foldl)
@@ -1534,11 +1699,13 @@
(er-register-pure-bif! "lists" "filter" 2 er-bif-lists-filter)
(er-register-pure-bif! "lists" "any" 2 er-bif-lists-any)
(er-register-pure-bif! "lists" "all" 2 er-bif-lists-all)
(er-register-pure-bif! "lists" "duplicate" 2 er-bif-lists-duplicate)
;; io module — side-effecting (writes to io buffer)
(er-register-pure-bif!
"lists"
"duplicate"
2
er-bif-lists-duplicate)
(er-register-bif! "io" "format" 1 er-bif-io-format)
(er-register-bif! "io" "format" 2 er-bif-io-format)
;; ets module — side-effecting (mutates table state)
(er-register-bif! "ets" "new" 2 er-bif-ets-new)
(er-register-bif! "ets" "insert" 2 er-bif-ets-insert)
(er-register-bif! "ets" "lookup" 2 er-bif-ets-lookup)
@@ -1546,82 +1713,88 @@
(er-register-bif! "ets" "delete" 2 er-bif-ets-delete)
(er-register-bif! "ets" "tab2list" 1 er-bif-ets-tab2list)
(er-register-bif! "ets" "info" 2 er-bif-ets-info)
;; code module — side-effecting (mutates module registry, kills procs)
(er-register-bif! "code" "load_binary" 3 er-bif-code-load-binary)
(er-register-bif! "code" "purge" 1 er-bif-code-purge)
(er-register-bif! "code" "soft_purge" 1 er-bif-code-soft-purge)
(er-register-bif! "code" "which" 1 er-bif-code-which)
(er-register-bif! "code" "is_loaded" 1 er-bif-code-is-loaded)
(er-register-bif! "code" "all_loaded" 0 er-bif-code-all-loaded)
;; file module
(er-register-bif! "file" "read_file" 1 er-bif-file-read-file)
(er-register-bif! "file" "write_file" 2 er-bif-file-write-file)
(er-register-bif! "file" "delete" 1 er-bif-file-delete)
;; Phase 8 FFI — host-primitive BIFs (loops/fed-prims)
(er-register-pure-bif! "crypto" "hash" 2 er-bif-crypto-hash)
(er-register-pure-bif! "cid" "from_bytes" 1 er-bif-cid-from-bytes)
(er-register-pure-bif! "cid" "to_string" 1 er-bif-cid-to-string)
;; ── binary_to_list / list_to_binary (Step 3b — term codec) ──────
;; Standard Erlang semantics:
;; binary_to_list(<<B1,B2,...>>) -> [B1, B2, ...] (Erlang cons of ints)
;; list_to_binary(IoList) -> <<...>> (flattens nested
;; iolists; elements are byte ints 0-255 or binaries)
;; Bad arg / out-of-range byte / non-iolist element -> error:badarg.
(define er-bif-binary-to-list
(fn (vs)
(let ((v (nth vs 0)))
(cond
(not (er-binary? v))
(raise (er-mk-error-marker (er-mk-atom "badarg")))
:else
(let ((bs (get v :bytes)) (out (er-mk-nil)))
(for-each
(fn (i)
(set! out (er-mk-cons (nth bs (- (- (len bs) 1) i)) out)))
(range 0 (len bs)))
out)))))
;; Walk an Erlang iolist, appending bytes to `acc` (a mutable SX list).
;; Accepts: nil, cons-of-X, binary, integer in 0..255. Anything else
;; signals failure by setting (nth fail 0) to true.
(define er-iolist-walk!
(fn (v acc fail)
(cond
(nth fail 0) nil
(er-nil? v) nil
(er-cons? v)
(do (er-iolist-walk! (get v :head) acc fail)
(er-iolist-walk! (get v :tail) acc fail))
(er-binary? v)
(for-each
(fn (i) (append! acc (nth (get v :bytes) i)))
(range 0 (len (get v :bytes))))
(= (type-of v) "number")
(define
er-bif-binary-to-list
(fn
(vs)
(let
((v (nth vs 0)))
(cond
(not (er-binary? v))
(raise (er-mk-error-marker (er-mk-atom "badarg")))
:else (let
((bs (get v :bytes)) (out (er-mk-nil)))
(for-each
(fn
(i)
(set!
out
(er-mk-cons (nth bs (- (- (len bs) 1) i)) out)))
(range 0 (len bs)))
out)))))
(define
er-iolist-walk!
(fn
(v acc fail)
(cond
(and (>= v 0) (<= v 255)) (append! acc v)
:else (set-nth! fail 0 true))
:else (set-nth! fail 0 true))))
(define er-bif-list-to-binary
(fn (vs)
(let ((v (nth vs 0)) (acc (list)) (fail (list false)))
(cond
(not (or (er-nil? v) (er-cons? v) (er-binary? v)))
(raise (er-mk-error-marker (er-mk-atom "badarg")))
:else
(nth fail 0)
nil
(er-nil? v)
nil
(er-cons? v)
(do
(er-iolist-walk! v acc fail)
(cond
(nth fail 0)
(er-iolist-walk! (get v :head) acc fail)
(er-iolist-walk! (get v :tail) acc fail))
(er-binary? v)
(for-each
(fn (i) (append! acc (nth (get v :bytes) i)))
(range 0 (len (get v :bytes))))
(= (type-of v) "number")
(cond
(and (>= v 0) (<= v 255))
(append! acc v)
:else (set-nth! fail 0 true))
:else (set-nth! fail 0 true))))
(define
er-bif-list-to-binary
(fn
(vs)
(let
((v (nth vs 0)) (acc (list)) (fail (list false)))
(cond
(not (or (er-nil? v) (er-cons? v) (er-binary? v)))
(raise (er-mk-error-marker (er-mk-atom "badarg")))
:else (do
(er-iolist-walk! v acc fail)
(cond
(nth fail 0)
(raise (er-mk-error-marker (er-mk-atom "badarg")))
:else (er-mk-binary acc)))))))
:else (er-mk-binary acc)))))))
(er-register-bif! "file" "list_dir" 1 er-bif-file-list-dir)
(er-register-pure-bif! "erlang" "binary_to_list" 1 er-bif-binary-to-list)
(er-register-pure-bif! "erlang" "list_to_binary" 1 er-bif-list-to-binary)
(er-register-pure-bif!
"erlang"
"binary_to_list"
1
er-bif-binary-to-list)
(er-register-pure-bif!
"erlang"
"list_to_binary"
1
er-bif-list-to-binary)
(er-mk-atom "ok")))
;; Register everything at load time.
(er-register-bif! "http" "listen" 2 er-bif-http-listen)
(er-register-builtin-bifs!)

38
lib/feed/acl.sx
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@@ -1,38 +0,0 @@
; feed/acl — per-viewer visibility filtering. The same candidate stream yields
; different timelines for different viewers, so ACL is applied per request and
; pre-ACL timelines are never cached.
;
; permit? is injected: (permit? viewer activity) -> bool. Wire a real acl-sx
; predicate here; feed/permit-acl? is a self-contained default that reads an
; optional :visible-to allowlist on the activity.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/-elem?), lib/feed/rank.sx (feed/top).
; default permit: actor always sees own activity; absent/nil :visible-to is
; public; otherwise viewer must be in the allowlist.
(define
feed/permit-acl?
(fn
(viewer a)
(or
(equal? viewer (get a :actor))
(let
((allowed (get a :visible-to nil)))
(if (= allowed nil) true (feed/-elem? viewer allowed))))))
(define feed/permit-public? (fn (viewer a) true))
; filter a stream to what viewer may read
(define
feed/visible
(fn
(stream viewer permit?)
(feed/filter stream (fn (a) (permit? viewer a)))))
; the capstone: candidate stream -> ACL for viewer -> rank -> top-N
(define
feed/timeline
(fn
(stream viewer permit? score-fn n)
(feed/top (feed/visible stream viewer permit?) score-fn n)))

62
lib/feed/aggregate.sx
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@@ -1,62 +0,0 @@
; feed/aggregate — group-by / counting via key-reduce. Keys must be strings
; (dict keys), so composite keys (actor, day) are joined into one string.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx.
; group activities into a dict: key-string -> (list of activities), order-preserving
(define
feed/group-by
(fn
(stream key-fn)
(reduce
(fn
(g a)
(let
((k (key-fn a)))
(assoc g k (append (get g k (list)) (list a)))))
{}
(feed/items stream))))
; key-string -> count
(define
feed/group-count
(fn
(stream key-fn)
(reduce
(fn
(g a)
(let
((k (key-fn a)))
(assoc g k (+ (get g k 0) 1))))
{}
(feed/items stream))))
; --- composite keys ---------------------------------------------------------
(define feed/day (fn (at window) (floor (/ at window))))
; (actor, day-bucket) -> "actor#day"
(define
feed/actor-day-key
(fn
(window)
(fn
(a)
(string-append
(get a :actor)
"#"
(number->string (feed/day (get a :at) window))))))
(define
feed/by-actor-day
(fn (stream window) (feed/group-count stream (feed/actor-day-key window))))
; per-actor activity counts
(define
feed/actor-counts
(fn (stream) (feed/group-count stream feed/actor)))
; per-object activity counts (engagement)
(define
feed/object-counts
(fn (stream) (feed/group-count stream feed/object)))

24
lib/feed/api.sx
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@@ -1,24 +0,0 @@
; feed/api — ergonomic API over the stream layer for non-APL callers.
; A single mutable activity log; post appends, all returns it as a stream.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx (loaded by harness).
(define feed/-log (list))
; post — normalize then append. Returns the stored activity.
(define
feed/post
(fn
(raw)
(let
((a (feed/normalize raw)))
(begin (set! feed/-log (append feed/-log (list a))) a))))
; all — the whole log as a stream (insertion order)
(define feed/all (fn () (feed/stream feed/-log)))
; reset! — clear the log (test hygiene)
(define feed/reset! (fn () (begin (set! feed/-log (list)) nil)))
; size — number of posted activities
(define feed/size (fn () (len feed/-log)))

125
lib/feed/conformance.sh
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@@ -1,125 +0,0 @@
#!/usr/bin/env bash
# lib/feed/conformance.sh — run feed test suites, emit scoreboard.json + scoreboard.md.
set -uo pipefail
cd "$(git rev-parse --show-toplevel)"
SX_SERVER="${SX_SERVER:-/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe}"
if [ ! -x "$SX_SERVER" ]; then
SX_SERVER="hosts/ocaml/_build/default/bin/sx_server.exe"
fi
if [ ! -x "$SX_SERVER" ]; then
echo "ERROR: sx_server.exe not found." >&2
exit 1
fi
SUITES=(basic fanout rank integration content notify home dedupe trending mute page thread)
OUT_JSON="lib/feed/scoreboard.json"
OUT_MD="lib/feed/scoreboard.md"
run_suite() {
local suite=$1
local file="lib/feed/tests/${suite}.sx"
local TMP
TMP=$(mktemp)
cat > "$TMP" << EPOCHS
(epoch 1)
(load "spec/stdlib.sx")
(load "lib/r7rs.sx")
(load "lib/apl/runtime.sx")
(load "lib/feed/normalize.sx")
(load "lib/feed/stream.sx")
(load "lib/feed/api.sx")
(load "lib/feed/fanout.sx")
(load "lib/feed/dedupe.sx")
(load "lib/feed/aggregate.sx")
(load "lib/feed/rank.sx")
(load "lib/feed/acl.sx")
(load "lib/feed/fed.sx")
(load "lib/feed/content.sx")
(load "lib/feed/notify.sx")
(load "lib/feed/home.sx")
(load "lib/feed/trending.sx")
(load "lib/feed/mute.sx")
(load "lib/feed/page.sx")
(load "lib/feed/thread.sx")
(epoch 2)
(eval "(define feed-test-pass 0)")
(eval "(define feed-test-fail 0)")
(eval "(define feed-test (fn (name got expected) (if (= got expected) (set! feed-test-pass (+ feed-test-pass 1)) (set! feed-test-fail (+ feed-test-fail 1)))))")
(epoch 3)
(load "${file}")
(epoch 4)
(eval "(list feed-test-pass feed-test-fail)")
EPOCHS
local OUTPUT
OUTPUT=$(timeout 300 "$SX_SERVER" < "$TMP" 2>/dev/null)
rm -f "$TMP"
local LINE
LINE=$(echo "$OUTPUT" | awk '/^\(ok-len 4 / {getline; print; exit}')
if [ -z "$LINE" ]; then
LINE=$(echo "$OUTPUT" | grep -E '^\(ok 4 \([0-9]+ [0-9]+\)\)' | tail -1 \
| sed -E 's/^\(ok 4 //; s/\)$//')
fi
local P F
P=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\1/')
F=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\2/')
P=${P:-0}
F=${F:-0}
echo "${P} ${F}"
}
declare -A SUITE_PASS
declare -A SUITE_FAIL
TOTAL_PASS=0
TOTAL_FAIL=0
echo "Running feed conformance suite..." >&2
for s in "${SUITES[@]}"; do
read -r p f < <(run_suite "$s")
SUITE_PASS[$s]=$p
SUITE_FAIL[$s]=$f
TOTAL_PASS=$((TOTAL_PASS + p))
TOTAL_FAIL=$((TOTAL_FAIL + f))
printf " %-12s %d/%d\n" "$s" "$p" "$((p+f))" >&2
done
# scoreboard.json
{
printf '{\n'
printf ' "suites": {\n'
first=1
for s in "${SUITES[@]}"; do
if [ $first -eq 0 ]; then printf ',\n'; fi
printf ' "%s": {"pass": %d, "fail": %d}' "$s" "${SUITE_PASS[$s]}" "${SUITE_FAIL[$s]}"
first=0
done
printf '\n },\n'
printf ' "total_pass": %d,\n' "$TOTAL_PASS"
printf ' "total_fail": %d,\n' "$TOTAL_FAIL"
printf ' "total": %d\n' "$((TOTAL_PASS + TOTAL_FAIL))"
printf '}\n'
} > "$OUT_JSON"
# scoreboard.md
{
printf '# feed Conformance Scoreboard\n\n'
printf '_Generated by `lib/feed/conformance.sh`_\n\n'
printf '| Suite | Pass | Fail | Total |\n'
printf '|-------|-----:|-----:|------:|\n'
for s in "${SUITES[@]}"; do
p=${SUITE_PASS[$s]}
f=${SUITE_FAIL[$s]}
printf '| %s | %d | %d | %d |\n' "$s" "$p" "$f" "$((p+f))"
done
printf '| **Total** | **%d** | **%d** | **%d** |\n' "$TOTAL_PASS" "$TOTAL_FAIL" "$((TOTAL_PASS + TOTAL_FAIL))"
} > "$OUT_MD"
echo "Wrote $OUT_JSON and $OUT_MD" >&2
echo "Total: $TOTAL_PASS pass, $TOTAL_FAIL fail" >&2
[ "$TOTAL_FAIL" -eq 0 ]

68
lib/feed/content.sx
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@@ -1,68 +0,0 @@
; feed/content — TF-IDF relevance over activity :tags. Rare tags carry more
; signal, so an activity matching an uncommon tag ranks above one matching a
; common tag. Composes with rank.sx: feed/tfidf-score is just another scorer.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/-distinct), lib/feed/rank.sx (feed/rank).
; document frequency: tag -> number of activities whose :tags contain it
; (a tag repeated within one activity counts once toward df)
(define
feed/tag-df
(fn
(stream)
(reduce
(fn
(df a)
(reduce
(fn (d t) (assoc d t (+ (get d t 0) 1)))
df
(feed/-distinct (get a :tags))))
{}
(feed/items stream))))
; inverse document frequency: tag -> log(N / df)
(define
feed/tag-idf
(fn
(stream)
(let
((n (feed/count stream)) (df (feed/tag-df stream)))
(reduce
(fn (idf t) (assoc idf t (log (/ n (get df t)))))
{}
(keys df)))))
; term frequency within one activity: tag -> occurrence count
(define
feed/-tf
(fn
(a)
(reduce
(fn (tf t) (assoc tf t (+ (get tf t 0) 1)))
{}
(get a :tags))))
; relevance of an activity to a query (list of tags) given precomputed idf:
; sum over query tags of tf(tag in activity) * idf(tag in corpus)
(define
feed/tfidf-score
(fn
(idf query)
(fn
(a)
(let
((tf (feed/-tf a)))
(reduce
(fn
(acc t)
(+ acc (* (get tf t 0) (get idf t 0))))
0
query)))))
; rank a stream by relevance to query tags (idf computed over the stream itself)
(define
feed/by-relevance
(fn
(stream query)
(feed/rank stream (feed/tfidf-score (feed/tag-idf stream) query))))

76
lib/feed/dedupe.sx
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@@ -1,76 +0,0 @@
; feed/dedupe — collapse duplicate items, keeping first occurrence per key.
; Each verb may want its own key (see briefing): "alice posted X" keys on
; (actor verb object) — distinct per actor; "alice liked X / bob liked X"
; collapse on (verb object) so the cross-actor likes fold into one.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/-elem? lives in fanout.sx).
; generic: dedupe a stream by key-fn, first occurrence wins (stable)
(define
feed/-dedup-by
(fn
(items key-fn)
(get
(reduce
(fn
(st x)
(let
((k (key-fn x)))
(if (feed/-elem? k (get st :seen)) st {:seen (append (get st :seen) (list k)) :out (append (get st :out) (list x))})))
{:seen (list) :out (list)}
items)
:out)))
(define
feed/dedupe
(fn
(stream key-fn)
(feed/stream (feed/-dedup-by (feed/items stream) key-fn))))
; --- keys -------------------------------------------------------------------
(define
feed/activity-key
(fn (a) (list (get a :actor) (get a :verb) (get a :object))))
; collapse cross-actor duplicates of the same verb+object (e.g. likes)
(define feed/collapse-key (fn (a) (list (get a :verb) (get a :object))))
; per-receiver inbox key — one inbox event per (receiver, actor, verb, object)
(define
feed/event-key
(fn
(ev)
(let
((a (get ev :activity)))
(list (get ev :to) (get a :actor) (get a :verb) (get a :object)))))
; verbs whose duplicates collapse across actors (reactions, not authorship).
; rebindable: callers can (set! feed/collapse-verbs ...) to tune the policy.
(define
feed/collapse-verbs
(list "like" "favourite" "follow" "boost" "repost"))
; per-verb key: collapse-verbs fold on (verb object); the rest key on
; (actor verb object).
(define
feed/smart-key
(fn
(a)
(if
(feed/-elem? (get a :verb) feed/collapse-verbs)
(feed/collapse-key a)
(feed/activity-key a))))
; --- ready-made dedupers ----------------------------------------------------
(define feed/dedupe-activities (fn (s) (feed/dedupe s feed/activity-key)))
(define feed/dedupe-collapse (fn (s) (feed/dedupe s feed/collapse-key)))
; verb-aware: reactions collapse cross-actor, posts stay distinct per actor
(define feed/dedupe-smart (fn (s) (feed/dedupe s feed/smart-key)))
; dedupe an inbox: at most one event per receiver per (actor verb object)
(define feed/dedupe-inbox (fn (inbox) (feed/dedupe inbox feed/event-key)))

114
lib/feed/fanout.sx
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@@ -1,114 +0,0 @@
; feed/fanout — THE SHOWCASE. Fan activities out to followers via the APL outer
; product (∘.×). activities ∘.× audience → an (activity × follower) matrix of
; inbox events; flatten to a vector; guard-keep only real follow edges.
;
; Requires: lib/apl/runtime.sx, lib/feed/normalize.sx, lib/feed/stream.sx.
;
; NOTE: apl-outer's combiner result is run through (if (scalar? r) (disclose r) r).
; A bare dict counts as a scalar (shape ()) and disclose nils it — so the combiner
; must (enclose ...) its event dict; apl-outer then discloses it back intact.
; --- graph: {followee -> (list of followers)} -------------------------------
(define feed/followers (fn (graph user) (get graph user (list))))
; build a graph from (follower followee) edges: "follower follows followee"
(define
feed/follow-graph
(fn
(edges)
(reduce
(fn
(g e)
(let
((follower (first e)) (followee (nth e 1)))
(assoc
g
followee
(append (feed/followers g followee) (list follower)))))
{}
edges)))
; --- helpers ----------------------------------------------------------------
; unwrap an apl-scalar (has :ravel) back to its value; pass activities through
(define
feed/-val
(fn
(x)
(if (and (= (type-of x) "dict") (has-key? x :ravel)) (disclose x) x)))
(define feed/-elem? (fn (x lst) (some (fn (y) (equal? x y)) lst)))
(define
feed/-distinct
(fn
(lst)
(if
(= (len lst) 0)
(list)
(get (apl-unique (make-array (list (len lst)) lst)) :ravel))))
; rank-2 matrix -> rank-1 stream of its ravel
(define feed/-flatten (fn (arr) (feed/stream (get arr :ravel))))
; distinct receivers across the whole graph, sorted for determinism
; (dict key order is unspecified, so sort to pin audience/recipient ordering)
(define
feed/audience
(fn
(graph)
(sort
(feed/-distinct
(reduce
(fn (acc k) (append acc (feed/followers graph k)))
(list)
(keys graph))))))
; --- the outer product ------------------------------------------------------
; one (activity, follower) inbox event, enclosed so apl-outer keeps the dict
(define feed/-mk-event (fn (a f) (enclose {:activity (feed/-val a) :to (feed/-val f)})))
; keep events where :to actually follows the activity's actor
(define
feed/-edge?
(fn
(graph)
(fn
(ev)
(feed/-elem?
(get ev :to)
(feed/followers graph (get (get ev :activity) :actor))))))
; fanout — activities ∘.× audience, flatten, guard-keep real edges
(define
feed/fanout
(fn
(stream graph)
(let
((matrix (apl-outer feed/-mk-event stream (feed/stream (feed/audience graph)))))
(feed/filter (feed/-flatten matrix) (feed/-edge? graph)))))
; --- inbox queries ----------------------------------------------------------
(define
feed/inbox-for
(fn
(inbox user)
(feed/filter inbox (fn (ev) (equal? (get ev :to) user)))))
(define
feed/recipients
(fn
(inbox)
(feed/-distinct (map (fn (ev) (get ev :to)) (feed/items inbox)))))
; the activities (unwrapped) destined for a user
(define
feed/inbox-activities
(fn
(inbox user)
(map
(fn (ev) (get ev :activity))
(feed/items (feed/inbox-for inbox user)))))

60
lib/feed/fed.sx
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@@ -1,60 +0,0 @@
; feed/fed — federation. Outbound: a local post fans out, then splits into local
; vs remote inboxes; remote events are handed to an injected send-fn. Inbound:
; peer activities merge into the local stream, deduped. Backfill: pull peer
; history via an injected fetch-fn and merge.
;
; remote? / send-fn / fetch-fn are injected so real fed-sx transport wires in here
; without feed depending on it.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx,
; lib/feed/dedupe.sx.
; --- merge / ingest ---------------------------------------------------------
(define
feed/merge
(fn (s1 s2) (feed/stream (append (feed/items s1) (feed/items s2)))))
; merge a peer stream into local, dropping (actor verb object) duplicates
(define
feed/ingest
(fn (local peer) (feed/dedupe-activities (feed/merge local peer))))
; --- inbound ----------------------------------------------------------------
; peer pushes raw activities to the local inbox; normalize + ingest
(define
feed/inbound
(fn
(local raw-activities)
(feed/ingest local (feed/stream (map feed/normalize raw-activities)))))
; backfill on subscribe: pull peer history via fetch-fn, normalize, ingest
(define
feed/backfill
(fn (local fetch-fn peer-id) (feed/inbound local (fetch-fn peer-id))))
; --- outbound ---------------------------------------------------------------
; split an inbox into local vs remote deliveries by viewer-id predicate
(define feed/partition-inbox (fn (inbox remote?) {:local (feed/filter inbox (fn (ev) (not (remote? (get ev :to))))) :remote (feed/filter inbox (fn (ev) (remote? (get ev :to))))}))
; fan a stream out over the graph, then partition by locality
(define
feed/federate
(fn
(stream graph remote?)
(feed/partition-inbox (feed/fanout stream graph) remote?)))
; deliver: hand each remote event to send-fn, return the local inbox to enqueue
(define
feed/deliver
(fn
(stream graph remote? send-fn)
(let
((parts (feed/federate stream graph remote?)))
(begin
(for-each
(fn (ev) (send-fn (get ev :to) (get ev :activity)))
(feed/items (get parts :remote)))
(get parts :local)))))

23
lib/feed/home.sx
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@@ -1,23 +0,0 @@
; feed/home — the capstone. A user's home timeline is the whole pipeline as one
; line: fan all activities out over the follow graph, take the events landing in
; the viewer's inbox, dedupe cross-posts, apply the viewer's ACL, rank, take N.
;
; Requires: fanout.sx, dedupe.sx, acl.sx (feed/timeline), rank.sx, stream.sx.
; the activities in a user's inbox, as a stream
(define
feed/inbox-stream
(fn (inbox user) (feed/stream (feed/inbox-activities inbox user))))
; fanout ∘ inbox ∘ dedupe ∘ ACL ∘ rank ∘ take
(define
feed/home
(fn
(stream graph viewer permit? score-fn n)
(feed/timeline
(feed/dedupe-activities
(feed/inbox-stream (feed/fanout stream graph) viewer))
viewer
permit?
score-fn
n)))

44
lib/feed/mute.sx
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@@ -1,44 +0,0 @@
; feed/mute — viewer-controlled filtering. ACL (acl.sx) is author-controlled
; visibility; mute is the reader's own preference: hide muted actors or tags.
; Like ACL it is per-viewer and applied per request, never cached.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/-elem?).
; drop activities authored by a muted actor
(define
feed/mute-actors
(fn
(stream actors)
(feed/filter
stream
(fn (a) (not (feed/-elem? (get a :actor) actors))))))
; drop activities carrying any muted tag
(define
feed/mute-tags
(fn
(stream tags)
(feed/filter
stream
(fn (a) (not (some (fn (t) (feed/-elem? t tags)) (get a :tags)))))))
; drop activities about a muted object (thread mute)
(define
feed/mute-objects
(fn
(stream objects)
(feed/filter
stream
(fn (a) (not (feed/-elem? (get a :object) objects))))))
; apply a viewer preference bag: {:mute-actors (...) :mute-tags (...) :mute-objects (...)}
(define
feed/apply-prefs
(fn
(stream prefs)
(feed/mute-objects
(feed/mute-tags
(feed/mute-actors stream (get prefs :mute-actors (list)))
(get prefs :mute-tags (list)))
(get prefs :mute-objects (list)))))

31
lib/feed/normalize.sx
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@@ -1,31 +0,0 @@
; feed/normalize — coerce arbitrary input into the canonical activity record.
; An activity is a small dict {:actor :verb :object :at :tags}; a stream is an
; APL vector of such dicts (see stream.sx). Extra keys on the raw input survive
; (e.g. :visible-to for ACL, peer metadata for federation) — :tags is the
; flexible bag but the record is not closed.
(define feed/activity-keys (list :actor :verb :object :at :tags))
(define
feed/normalize
(fn
(raw)
(let
((d (if (= (type-of raw) "dict") raw {})))
(merge d {:actor (get d :actor "") :object (get d :object nil) :at (get d :at 0) :tags (let ((t (get d :tags (list)))) (if (list? t) t (list t))) :verb (get d :verb "post")}))))
(define
feed/activity
(fn (actor verb object at tags) (feed/normalize {:actor actor :object object :at at :tags tags :verb verb})))
(define feed/actor (fn (a) (get a :actor)))
(define feed/verb (fn (a) (get a :verb)))
(define feed/object (fn (a) (get a :object)))
(define feed/at (fn (a) (get a :at)))
(define feed/tags (fn (a) (get a :tags)))
(define
feed/activity?
(fn
(a)
(and (= (type-of a) "dict") (has-key? a :actor) (has-key? a :verb))))

45
lib/feed/notify.sx
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@@ -1,45 +0,0 @@
; feed/notify — a notification feed is a thin layer over a recipient's inbox:
; the events directed at a user, optionally verb-filtered, and a digest that
; collapses "alice, bob and 1 other liked X" by (verb, object).
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/inbox-for, feed/-elem?).
; all inbox events for a user (their raw notifications)
(define feed/notifications (fn (inbox user) (feed/inbox-for inbox user)))
; restrict to notification-worthy verbs (e.g. (list "like" "reply" "follow"))
(define
feed/notify-verbs
(fn
(inbox user verbs)
(feed/filter
(feed/inbox-for inbox user)
(fn (ev) (feed/-elem? (get (get ev :activity) :verb) verbs)))))
; group key "verb|object" — deterministic, sortable
(define
feed/-notify-key
(fn
(ev)
(let
((a (get ev :activity)))
(string-append (get a :verb) "|" (get a :object)))))
; digest: one entry per (verb, object) with the distinct actors and a count,
; ordered by key for determinism.
(define
feed/notify-digest
(fn
(inbox user)
(let
((events (feed/items (feed/inbox-for inbox user))))
(let
((groups (reduce (fn (g ev) (let ((a (get ev :activity)) (k (feed/-notify-key ev))) (let ((cur (get g k {:object (get a :object) :actors (list) :verb (get a :verb)}))) (assoc g k (assoc cur :actors (append (get cur :actors) (list (get a :actor)))))))) {} events)))
(map
(fn
(k)
(let
((grp (get groups k)))
(assoc grp :count (len (get grp :actors)))))
(sort (keys groups)))))))

50
lib/feed/page.sx
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@@ -1,50 +0,0 @@
; feed/page — pagination. Offset/limit for indexed access, and cursor-based
; (by :at) for recency feeds, which is stable under inserts: a cursor is the
; :at of the last item seen, and the next page is the newest items older than it.
;
; Requires: lib/feed/stream.sx (feed/recent, feed/take, feed/filter).
; --- offset / limit ---------------------------------------------------------
(define
feed/page
(fn
(stream offset limit)
(feed/stream (take (drop (feed/items stream) offset) limit))))
(define
feed/page-count
(fn (stream limit) (ceil (/ (feed/count stream) limit))))
; --- cursor (recency feeds) -------------------------------------------------
; activities strictly older than cursor (scroll down / load older)
(define
feed/before
(fn
(stream cursor)
(feed/filter stream (fn (a) (< (get a :at) cursor)))))
; activities strictly newer than cursor (load newer / "N new posts")
(define
feed/after
(fn
(stream cursor)
(feed/filter stream (fn (a) (> (get a :at) cursor)))))
; one page: the `limit` newest activities older than cursor, newest first
(define
feed/page-before
(fn
(stream cursor limit)
(feed/take (feed/recent (feed/before stream cursor)) limit)))
; cursor to fetch the next (older) page: :at of the last item of a page,
; or nil when the page is empty (end of feed)
(define
feed/next-cursor
(fn
(page)
(let
((items (feed/items page)))
(if (= (len items) 0) nil (get (last items) :at)))))

92
lib/feed/rank.sx
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; feed/rank — scoring + ranking. Scorers are (activity -> number). Ranking is a
; stable two-pass grade-down: first by :at descending (the tiebreak), then by
; score descending — so ties resolve by recency, then by input order. Fully
; deterministic on ties.
;
; Requires: lib/apl/runtime.sx, lib/feed/normalize.sx, lib/feed/stream.sx.
; --- scorers ----------------------------------------------------------------
; recency: half-life decay. score = 0.5 ^ (age / half-life). at==now -> 1.0.
(define
feed/recency
(fn
(now half-life)
(fn (a) (expt 0.5 (/ (- now (get a :at)) half-life)))))
; velocity: how many of this actor's activities fall in (at-window, at] —
; a burst of recent activity scores higher.
(define
feed/velocity
(fn
(stream window)
(fn
(a)
(len
(filter
(fn
(b)
(and
(equal? (get b :actor) (get a :actor))
(<= (get b :at) (get a :at))
(> (get b :at) (- (get a :at) window))))
(feed/items stream))))))
; engagement: how many activities in the stream touch this activity's :object
(define
feed/engagement
(fn
(stream)
(fn
(a)
(len
(filter
(fn (b) (equal? (get b :object) (get a :object)))
(feed/items stream))))))
; composite: weighted sum. parts = (list (list weight scorer) ...)
(define
feed/composite
(fn
(parts)
(fn
(a)
(reduce
(fn (acc p) (+ acc (* (first p) ((nth p 1) a))))
0
parts))))
; --- ranking ----------------------------------------------------------------
; stable reorder of items by key-fn, descending (grade-down is stable)
(define
feed/-desc-by
(fn
(items key-fn)
(let
((keys (make-array (list (len items)) (map key-fn items))))
(let
((order (get (apl-grade-down keys) :ravel)))
(map (fn (i) (nth items (- i 1))) order)))))
; rank by score descending; ties -> :at descending -> input order
(define
feed/rank
(fn
(stream score-fn)
(let
((by-at (feed/-desc-by (feed/items stream) feed/at)))
(feed/stream (feed/-desc-by by-at score-fn)))))
; attach a :score to each activity (for inspection / debugging)
(define
feed/with-scores
(fn
(stream score-fn)
(feed/stream
(map (fn (a) (assoc a :score (score-fn a))) (feed/items stream)))))
; top-N ranked timeline
(define
feed/top
(fn (stream score-fn n) (feed/take (feed/rank stream score-fn) n)))

19
lib/feed/scoreboard.json
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{
"suites": {
"basic": {"pass": 30, "fail": 0},
"fanout": {"pass": 29, "fail": 0},
"rank": {"pass": 24, "fail": 0},
"integration": {"pass": 22, "fail": 0},
"content": {"pass": 15, "fail": 0},
"notify": {"pass": 8, "fail": 0},
"home": {"pass": 6, "fail": 0},
"dedupe": {"pass": 9, "fail": 0},
"trending": {"pass": 11, "fail": 0},
"mute": {"pass": 9, "fail": 0},
"page": {"pass": 14, "fail": 0},
"thread": {"pass": 12, "fail": 0}
},
"total_pass": 189,
"total_fail": 0,
"total": 189
}

19
lib/feed/scoreboard.md
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@@ -1,19 +0,0 @@
# feed Conformance Scoreboard
_Generated by `lib/feed/conformance.sh`_
| Suite | Pass | Fail | Total |
|-------|-----:|-----:|------:|
| basic | 30 | 0 | 30 |
| fanout | 29 | 0 | 29 |
| rank | 24 | 0 | 24 |
| integration | 22 | 0 | 22 |
| content | 15 | 0 | 15 |
| notify | 8 | 0 | 8 |
| home | 6 | 0 | 6 |
| dedupe | 9 | 0 | 9 |
| trending | 11 | 0 | 11 |
| mute | 9 | 0 | 9 |
| page | 14 | 0 | 14 |
| thread | 12 | 0 | 12 |
| **Total** | **189** | **0** | **189** |

75
lib/feed/stream.sx
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; feed/stream — a stream is an APL vector (rank-1 array) whose ravel holds
; activity dicts. Operations lift APL primitives onto this shape: filter via
; compress (/), sort via grade (⍋), take via ↑, reverse via ⌽.
;
; Requires: lib/apl/runtime.sx, lib/feed/normalize.sx (loaded by harness).
(define feed/stream (fn (acts) (make-array (list (len acts)) acts)))
(define feed/items (fn (s) (get s :ravel)))
(define feed/count (fn (s) (len (get s :ravel))))
(define feed/empty (feed/stream (list)))
(define feed/empty? (fn (s) (= (feed/count s) 0)))
; filter — bool mask ∘ compress. pred : activity -> truthy
(define
feed/filter
(fn
(s pred)
(let
((items (get s :ravel)))
(let
((mask (make-array (list (len items)) (map (fn (a) (if (pred a) 1 0)) items))))
(apl-compress mask s)))))
; sort-by — ascending, stable on ties (grade-up is stable). key-fn : activity -> number
(define
feed/sort-by
(fn
(s key-fn)
(let
((items (get s :ravel)))
(let
((keys (make-array (list (len items)) (map key-fn items))))
(let
((order (get (apl-grade-up keys) :ravel)))
(feed/stream (map (fn (i) (nth items (- i 1))) order)))))))
(define feed/sort-by-at (fn (s) (feed/sort-by s feed/at)))
; newest-first: ascending sort then reverse (⌽)
(define feed/recent (fn (s) (apl-reverse (feed/sort-by-at s))))
; take N (↑), clamped to stream length so it never over-takes/pads
(define
feed/take
(fn
(s n)
(let
((c (feed/count s)))
(if (>= n c) s (apl-take (apl-scalar n) s)))))
(define feed/reverse (fn (s) (apl-reverse s)))
; common predicates
(define
feed/by-actor
(fn (s actor) (feed/filter s (fn (a) (equal? (get a :actor) actor)))))
(define
feed/by-verb
(fn (s verb) (feed/filter s (fn (a) (equal? (get a :verb) verb)))))
(define
feed/by-object
(fn
(s object)
(feed/filter s (fn (a) (equal? (get a :object) object)))))
; activities at or after timestamp t
(define
feed/since
(fn (s t) (feed/filter s (fn (a) (>= (get a :at) t)))))

118
lib/feed/tests/basic.sx
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; Phase 1 — normalize, stream ops, api. Uses the feed-test harness
; (feed-test name got expected) provided by conformance.sh.
; ---------- normalize ----------
(feed-test
"normalize default actor"
(feed/actor (feed/normalize {}))
"")
(feed-test
"normalize default verb"
(feed/verb (feed/normalize {}))
"post")
(feed-test
"normalize default at"
(feed/at (feed/normalize {}))
0)
(feed-test
"normalize default object"
(feed/object (feed/normalize {}))
nil)
(feed-test
"normalize default tags"
(feed/tags (feed/normalize {}))
(list))
(feed-test
"normalize keeps actor"
(feed/actor (feed/normalize {:actor "alice"}))
"alice")
(feed-test
"normalize keeps verb"
(feed/verb (feed/normalize {:verb "like"}))
"like")
(feed-test
"normalize scalar tag -> list"
(feed/tags (feed/normalize {:tags "x"}))
(list "x"))
(feed-test
"normalize list tags kept"
(feed/tags (feed/normalize {:tags (list "a" "b")}))
(list "a" "b"))
(feed-test
"activity constructor at"
(feed/at (feed/activity "a" "post" "o" 5 (list)))
5)
(feed-test
"activity? on activity"
(feed/activity? (feed/normalize {:actor "a"}))
true)
(feed-test "activity? on number" (feed/activity? 5) false)
(feed-test "activity? on bare dict" (feed/activity? {:foo 1}) false)
; ---------- stream ----------
(define
S
(feed/stream
(list
(feed/activity "alice" "post" "p1" 30 (list))
(feed/activity "bob" "like" "p1" 10 (list))
(feed/activity "alice" "post" "p2" 20 (list)))))
(feed-test "stream count" (feed/count S) 3)
(feed-test "stream items len" (len (feed/items S)) 3)
(feed-test
"sort-by-at actors asc"
(map feed/actor (feed/items (feed/sort-by-at S)))
(list "bob" "alice" "alice"))
(feed-test
"recent newest first"
(map feed/at (feed/items (feed/recent S)))
(list 30 20 10))
(feed-test
"take 2 of recent"
(feed/count (feed/take (feed/recent S) 2))
2)
(feed-test
"take clamps past end"
(feed/count (feed/take S 10))
3)
(feed-test
"by-actor alice count"
(feed/count (feed/by-actor S "alice"))
2)
(feed-test
"by-verb like actor"
(map feed/actor (feed/items (feed/by-verb S "like")))
(list "bob"))
(feed-test
"by-object p1 count"
(feed/count (feed/by-object S "p1"))
2)
(feed-test
"since 20 count"
(feed/count (feed/since S 20))
2)
(feed-test
"reverse ats"
(map feed/at (feed/items (feed/reverse S)))
(list 20 10 30))
(feed-test "empty? on empty" (feed/empty? feed/empty) true)
(feed-test
"empty? on filtered-out"
(feed/empty? (feed/by-actor S "zzz"))
true)
; ---------- api ----------
(feed/reset!)
(feed/post {:actor "x" :at 1 :verb "post"})
(feed/post {:actor "y" :at 2 :verb "like"})
(feed-test "api size after posts" (feed/size) 2)
(feed-test "api all count" (feed/count (feed/all)) 2)
(feed-test
"post returns normalized verb"
(feed/verb (feed/post {:actor "z"}))
"post")
(feed-test "api size after third post" (feed/size) 3)

85
lib/feed/tests/content.sx
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; Follow-up — TF-IDF content ranking over :tags. (feed-test name got expected)
(define
corpus
(feed/stream
(list
(feed/normalize {:actor "u" :object "o1" :at 10 :tags (list "cats" "funny")})
(feed/normalize {:actor "u" :object "o2" :at 20 :tags (list "cats" "news")})
(feed/normalize {:actor "u" :object "o3" :at 30 :tags (list "politics" "news")})
(feed/normalize {:actor "u" :object "o4" :at 40 :tags (list "cats")}))))
; ---------- document frequency ----------
(feed-test "df cats" (get (feed/tag-df corpus) "cats") 3)
(feed-test "df news" (get (feed/tag-df corpus) "news") 2)
(feed-test "df funny" (get (feed/tag-df corpus) "funny") 1)
(feed-test "df politics" (get (feed/tag-df corpus) "politics") 1)
(feed-test "df full" (feed/tag-df corpus) {:news 2 :funny 1 :politics 1 :cats 3})
; ---------- inverse document frequency ----------
(feed-test
"idf news = log(4/2)"
(get (feed/tag-idf corpus) "news")
(log 2))
(feed-test
"idf funny = log(4/1)"
(get (feed/tag-idf corpus) "funny")
(log 4))
(feed-test
"rarer tag has higher idf"
(>
(get (feed/tag-idf corpus) "funny")
(get (feed/tag-idf corpus) "cats"))
true)
; ---------- tf-idf scoring ----------
(define idf (feed/tag-idf corpus))
(feed-test
"score query funny on o1"
((feed/tfidf-score idf (list "funny")) (feed/normalize {:actor "u" :object "x" :tags (list "cats" "funny")}))
(log 4))
(feed-test
"score query funny on non-match"
((feed/tfidf-score idf (list "funny")) (feed/normalize {:actor "u" :object "x" :tags (list "cats")}))
0)
(feed-test
"unknown query tag scores 0"
((feed/tfidf-score idf (list "zzz")) (feed/normalize {:actor "u" :object "x" :tags (list "cats")}))
0)
; ---------- ranking by relevance ----------
; query news: o2,o3 match (score log2), o1,o4 don't (0); ties break by :at desc
(feed-test
"by-relevance news order"
(map
(fn (a) (get a :object))
(feed/items (feed/by-relevance corpus (list "news"))))
(list "o3" "o2" "o4" "o1"))
; query funny: only o1 matches -> ranks first
(feed-test
"by-relevance funny first"
(get
(nth (feed/items (feed/by-relevance corpus (list "funny"))) 0)
:object)
"o1")
; query (cats news): o2 carries both tags -> highest combined tf-idf
(feed-test
"by-relevance cats+news top"
(get
(nth
(feed/items (feed/by-relevance corpus (list "cats" "news")))
0)
:object)
"o2")
(feed-test
"by-relevance preserves count"
(feed/count (feed/by-relevance corpus (list "cats")))
4)

56
lib/feed/tests/dedupe.sx
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; Follow-up — verb-aware (smart) dedupe. (feed-test name got expected)
; reactions (like/follow) collapse cross-actor; posts stay distinct per actor
(define
M
(feed/stream
(list
(feed/activity "alice" "like" "X" 1 (list))
(feed/activity "bob" "like" "X" 2 (list))
(feed/activity "alice" "post" "P" 3 (list))
(feed/activity "bob" "post" "P" 4 (list))
(feed/activity "alice" "follow" "C" 5 (list))
(feed/activity "bob" "follow" "C" 6 (list))))) ; collapses
(feed-test
"smart dedupe total"
(feed/count (feed/dedupe-smart M))
4)
(feed-test
"smart keeps both posts"
(feed/count (feed/by-verb (feed/dedupe-smart M) "post"))
2)
(feed-test
"smart collapses likes to one"
(feed/count (feed/by-verb (feed/dedupe-smart M) "like"))
1)
(feed-test
"smart collapses follows to one"
(feed/count (feed/by-verb (feed/dedupe-smart M) "follow"))
1)
(feed-test
"collapsed like keeps first actor"
(map feed/actor (feed/items (feed/by-verb (feed/dedupe-smart M) "like")))
(list "alice"))
; contrast: plain activity dedupe keeps cross-actor likes distinct
(feed-test
"activity dedupe keeps both likes"
(feed/count (feed/by-verb (feed/dedupe-activities M) "like"))
2)
; contrast: blanket collapse folds the two posts (same verb+object) too
(feed-test
"collapse dedupe folds posts"
(feed/count (feed/by-verb (feed/dedupe-collapse M) "post"))
1)
; smart-key dispatch
(feed-test
"smart-key reaction -> (verb object)"
(feed/smart-key (feed/activity "alice" "like" "X" 0 (list)))
(list "like" "X"))
(feed-test
"smart-key post -> (actor verb object)"
(feed/smart-key (feed/activity "alice" "post" "P" 0 (list)))
(list "alice" "post" "P"))

187
lib/feed/tests/fanout.sx
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; Phase 2 — fanout via outer product + dedupe. (feed-test name got expected)
; ---------- graph ----------
; edges: (follower followee). bob,carol follow alice; carol,dave follow bob.
(define
G
(feed/follow-graph
(list
(list "bob" "alice")
(list "carol" "alice")
(list "carol" "bob")
(list "dave" "bob"))))
(feed-test "followers alice" (feed/followers G "alice") (list "bob" "carol"))
(feed-test "followers bob" (feed/followers G "bob") (list "carol" "dave"))
(feed-test "followers unknown" (feed/followers G "zzz") (list))
(feed-test "audience distinct" (feed/audience G) (list "bob" "carol" "dave"))
; ---------- fanout ----------
(define
S
(feed/stream
(list
(feed/activity "alice" "post" "p1" 10 (list))
(feed/activity "alice" "post" "p2" 20 (list))
(feed/activity "bob" "like" "p1" 30 (list)))))
(define IB (feed/fanout S G))
(feed-test "fanout total edges" (feed/count IB) 6)
(feed-test
"inbox bob count"
(feed/count (feed/inbox-for IB "bob"))
2)
(feed-test
"inbox carol count"
(feed/count (feed/inbox-for IB "carol"))
3)
(feed-test
"inbox dave count"
(feed/count (feed/inbox-for IB "dave"))
1)
(feed-test
"inbox alice (follows none)"
(feed/count (feed/inbox-for IB "alice"))
0)
(feed-test
"recipients order"
(feed/recipients IB)
(list "bob" "carol" "dave"))
(feed-test
"bob inbox objects"
(map (fn (a) (get a :object)) (feed/inbox-activities IB "bob"))
(list "p1" "p2"))
(feed-test
"dave inbox objects"
(map (fn (a) (get a :object)) (feed/inbox-activities IB "dave"))
(list "p1"))
(feed-test
"dave inbox verb"
(map (fn (a) (get a :verb)) (feed/inbox-activities IB "dave"))
(list "like"))
; empty graph → no audience → no edges
(feed-test
"empty graph fanout"
(feed/count (feed/fanout S {}))
0)
; actor nobody follows produces no edges
(define
Sghost
(feed/stream (list (feed/activity "ghost" "post" "g1" 5 (list)))))
(feed-test
"unfollowed actor fanout"
(feed/count (feed/fanout Sghost G))
0)
; ---------- high fanout (popular actor) ----------
(define
Gstar
(feed/follow-graph
(list
(list "u1" "star")
(list "u2" "star")
(list "u3" "star")
(list "u4" "star")
(list "u5" "star"))))
(define
Sstar
(feed/stream (list (feed/activity "star" "post" "s1" 1 (list)))))
(feed-test
"star fanout count"
(feed/count (feed/fanout Sstar Gstar))
5)
(feed-test "star audience size" (len (feed/audience Gstar)) 5)
; ---------- mutual follow ----------
(define Gmut (feed/follow-graph (list (list "a" "b") (list "b" "a"))))
(define
Smut
(feed/stream
(list
(feed/activity "a" "post" "pa" 1 (list))
(feed/activity "b" "post" "pb" 2 (list)))))
(define IBmut (feed/fanout Smut Gmut))
(feed-test "mutual total" (feed/count IBmut) 2)
(feed-test
"mutual a gets pb"
(map (fn (x) (get x :object)) (feed/inbox-activities IBmut "a"))
(list "pb"))
(feed-test
"mutual b gets pa"
(map (fn (x) (get x :object)) (feed/inbox-activities IBmut "b"))
(list "pa"))
; ---------- dedupe ----------
(define
Sdup2
(feed/stream
(list
(feed/activity "alice" "post" "p1" 1 (list))
(feed/activity "alice" "post" "p1" 9 (list))
(feed/activity "alice" "post" "p2" 2 (list)))))
(feed-test
"dedupe-activities collapses dup"
(feed/count (feed/dedupe-activities Sdup2))
2)
(feed-test
"dedupe-activities keeps distinct"
(map
(fn (a) (get a :object))
(feed/items (feed/dedupe-activities Sdup2)))
(list "p1" "p2"))
(define
Slikes
(feed/stream
(list
(feed/activity "alice" "like" "X" 1 (list))
(feed/activity "bob" "like" "X" 2 (list))
(feed/activity "carol" "like" "Y" 3 (list)))))
(feed-test
"collapse cross-actor likes"
(feed/count (feed/dedupe-collapse Slikes))
2)
(feed-test
"collapse keeps distinct objects"
(map
(fn (a) (get a :object))
(feed/items (feed/dedupe-collapse Slikes)))
(list "X" "Y"))
(feed-test
"activity-key shape"
(feed/activity-key (feed/activity "a" "post" "o" 0 (list)))
(list "a" "post" "o"))
(feed-test
"collapse-key shape"
(feed/collapse-key (feed/activity "a" "like" "o" 0 (list)))
(list "like" "o"))
; cross-post: alice posts p1 twice → bob's inbox has it twice → dedupe-inbox → once
(define
Scross
(feed/stream
(list
(feed/activity "alice" "post" "p1" 1 (list))
(feed/activity "alice" "post" "p1" 5 (list)))))
(define IBcross (feed/fanout Scross G))
(feed-test
"cross-post raw bob count"
(feed/count (feed/inbox-for IBcross "bob"))
2)
(feed-test
"cross-post deduped bob count"
(feed/count (feed/inbox-for (feed/dedupe-inbox IBcross) "bob"))
1)
(feed-test
"dedupe-inbox keeps distinct receivers"
(feed/count (feed/dedupe-inbox IBcross))
2)

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lib/feed/tests/home.sx
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; Follow-up — feed/home capstone pipeline. (feed-test name got expected)
; alice follows star and bob (edges: follower followee)
(define
G
(feed/follow-graph (list (list "alice" "star") (list "alice" "bob"))))
; star posts s1 then s2; bob posts b1; star re-posts s1 (cross-post dup);
; zoe posts z1 (alice does NOT follow zoe)
(define
S
(feed/stream
(list
(feed/activity "star" "post" "s1" 10 (list))
(feed/activity "star" "post" "s2" 20 (list))
(feed/activity "bob" "post" "b1" 15 (list))
(feed/activity "star" "post" "s1" 5 (list))
(feed/activity "zoe" "post" "z1" 30 (list)))))
(define rec (feed/recency 100 10))
(feed-test
"home count (deduped, followed only)"
(feed/count (feed/home S G "alice" feed/permit-public? rec 10))
3)
(feed-test
"home order by recency"
(map
(fn (a) (get a :object))
(feed/items (feed/home S G "alice" feed/permit-public? rec 10)))
(list "s2" "b1" "s1"))
(feed-test
"home excludes unfollowed zoe"
(feed/-elem?
"z1"
(map
(fn (a) (get a :object))
(feed/items (feed/home S G "alice" feed/permit-public? rec 10))))
false)
(feed-test
"home top-2"
(map
(fn (a) (get a :object))
(feed/items (feed/home S G "alice" feed/permit-public? rec 2)))
(list "s2" "b1"))
(feed-test
"home dedupes cross-post (one s1)"
(len
(filter
(fn (o) (equal? o "s1"))
(map
(fn (a) (get a :object))
(feed/items
(feed/home S G "alice" feed/permit-public? rec 10)))))
1)
; ACL applied per-viewer in the home pipeline
(define
Sacl
(feed/stream
(list (feed/normalize {:actor "star" :object "pub" :at 20}) (feed/normalize {:actor "star" :object "sec" :visible-to (list "carol") :at 25}))))
(define Gacl (feed/follow-graph (list (list "alice" "star"))))
(feed-test
"home hides activity alice not permitted"
(map
(fn (a) (get a :object))
(feed/items (feed/home Sacl Gacl "alice" feed/permit-acl? rec 10)))
(list "pub"))

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lib/feed/tests/integration.sx
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; Phase 4 — visibility (ACL) + federation, and the end-to-end timeline.
; (feed-test name got expected)
; ---------- ACL visibility ----------
; pub: public. sec: bob, allows carol. dm: frank, allows dave.
(define
C
(feed/stream
(list
(feed/normalize {:actor "alice" :object "pub" :at 10})
(feed/normalize {:actor "bob" :object "sec" :visible-to (list "carol") :at 20})
(feed/normalize {:actor "frank" :object "dm" :visible-to (list "dave") :at 30}))))
(feed-test
"public visible to anyone"
(feed/count (feed/visible C "zoe" feed/permit-acl?))
1)
(feed-test
"carol sees allowlisted + public"
(feed/count (feed/visible C "carol" feed/permit-acl?))
2)
(feed-test
"dave sees dm + public"
(feed/count (feed/visible C "dave" feed/permit-acl?))
2)
(feed-test
"author always sees own private"
(feed/count (feed/visible C "frank" feed/permit-acl?))
2)
(feed-test
"permit-public? lets all through"
(feed/count (feed/visible C "zoe" feed/permit-public?))
3)
(feed-test
"visible objects for dave"
(map
(fn (a) (get a :object))
(feed/items (feed/visible C "dave" feed/permit-acl?)))
(list "pub" "dm"))
; per-viewer: same stream, different timelines
(feed-test
"zoe timeline differs from carol"
(not
(=
(feed/count (feed/visible C "zoe" feed/permit-acl?))
(feed/count (feed/visible C "carol" feed/permit-acl?))))
true)
; ---------- federation: merge / ingest ----------
(define
L
(feed/stream
(list
(feed/activity "alice" "post" "p1" 10 (list))
(feed/activity "alice" "post" "p2" 20 (list)))))
(define
P
(feed/stream
(list
(feed/activity "alice" "post" "p2" 20 (list))
(feed/activity "peer" "post" "p9" 25 (list)))))
(feed-test "merge concatenates" (feed/count (feed/merge L P)) 4)
(feed-test
"ingest dedupes overlap"
(feed/count (feed/ingest L P))
3)
(feed-test
"inbound normalizes + ingests"
(feed/count (feed/inbound L (list {:actor "peer" :object "p9" :at 25} {:actor "alice" :object "p1" :at 10})))
3)
; backfill via injected fetch-fn
(define peer-history (fn (peer-id) (list {:actor peer-id :object "h1" :at 1} {:actor peer-id :object "h2" :at 2})))
(feed-test
"backfill merges peer history"
(feed/count (feed/backfill L peer-history "remote"))
4)
(feed-test
"backfill objects present"
(map
(fn (a) (get a :object))
(feed/items
(feed/by-actor (feed/backfill L peer-history "remote") "remote")))
(list "h1" "h2"))
; ---------- federation: outbound partition ----------
; bob (local), alice@remote + carol@remote (remote) follow star
(define
Gf
(feed/follow-graph
(list
(list "bob" "star")
(list "alice@remote" "star")
(list "carol@remote" "star"))))
(define
Sf
(feed/stream (list (feed/activity "star" "post" "s1" 1 (list)))))
(define
remote?
(fn (id) (feed/-elem? id (list "alice@remote" "carol@remote"))))
(define parts (feed/federate Sf Gf remote?))
(feed-test "local deliveries" (feed/count (get parts :local)) 1)
(feed-test "remote deliveries" (feed/count (get parts :remote)) 2)
(feed-test
"local recipient is bob"
(feed/recipients (get parts :local))
(list "bob"))
; deliver: send-fn receives each remote event, local inbox returned
(define sent (list))
(define send-fn (fn (to act) (set! sent (append sent (list to)))))
(define local-inbox (feed/deliver Sf Gf remote? send-fn))
(feed-test "deliver returns local inbox" (feed/count local-inbox) 1)
(feed-test "deliver sent to both remotes" (len sent) 2)
(feed-test "deliver remote targets" sent (list "alice@remote" "carol@remote"))
; ---------- end-to-end: federated, ACL-filtered, ranked timeline ----------
(define
base
(feed/stream
(list
(feed/normalize {:actor "alice" :object "a1" :at 100})
(feed/normalize {:actor "bob" :object "b1" :visible-to (list "carol") :at 90})
(feed/normalize {:actor "eve" :object "e1" :visible-to (list "dave") :at 80}))))
(define federated (feed/inbound base (list {:actor "peer" :object "x1" :at 110})))
(define rec (feed/recency 120 10))
(define
carol-tl
(feed/timeline federated "carol" feed/permit-acl? rec 3))
; eve's :visible-to excludes carol -> filtered out; peer/alice public, bob allows carol
(feed-test "carol federated timeline count" (feed/count carol-tl) 3)
(feed-test
"carol timeline order (recency)"
(map (fn (a) (get a :object)) (feed/items carol-tl))
(list "x1" "a1" "b1"))
(feed-test
"eve dm excluded from carol"
(feed/-elem? "e1" (map (fn (a) (get a :object)) (feed/items carol-tl)))
false)
(feed-test
"dave sees eve dm not bob"
(map
(fn (a) (get a :object))
(feed/items
(feed/timeline federated "dave" feed/permit-acl? rec 5)))
(list "x1" "a1" "e1"))

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; Follow-up — viewer mute/block filtering. (feed-test name got expected)
(define
S
(feed/stream
(list
(feed/normalize {:actor "alice" :object "P1" :at 1 :tags (list "news")})
(feed/normalize {:actor "bob" :object "P2" :at 2 :tags (list "spam")})
(feed/normalize {:actor "alice" :object "P3" :at 3 :tags (list "cats")})
(feed/normalize {:actor "carol" :object "P4" :at 4 :tags (list "news" "spam")}))))
; ---------- mute actors ----------
(feed-test
"mute bob drops his post"
(map
(fn (a) (get a :object))
(feed/items (feed/mute-actors S (list "bob"))))
(list "P1" "P3" "P4"))
(feed-test
"mute alice drops two"
(feed/count (feed/mute-actors S (list "alice")))
2)
(feed-test
"mute nobody keeps all"
(feed/count (feed/mute-actors S (list)))
4)
; ---------- mute tags ----------
(feed-test
"mute spam tag drops two"
(map
(fn (a) (get a :object))
(feed/items (feed/mute-tags S (list "spam"))))
(list "P1" "P3"))
(feed-test
"mute news+cats leaves spam-only"
(map
(fn (a) (get a :object))
(feed/items (feed/mute-tags S (list "news" "cats"))))
(list "P2"))
; ---------- mute objects ----------
(feed-test
"mute object P3 (thread mute)"
(feed/count (feed/mute-objects S (list "P3")))
3)
; ---------- combined prefs ----------
(feed-test
"apply-prefs actors + tags"
(map
(fn (a) (get a :object))
(feed/items (feed/apply-prefs S {:mute-actors (list "bob") :mute-tags (list "cats")})))
(list "P1" "P4"))
(feed-test
"apply-prefs empty keeps all"
(feed/count (feed/apply-prefs S {}))
4)
(feed-test
"apply-prefs all three filters"
(map
(fn (a) (get a :object))
(feed/items (feed/apply-prefs S {:mute-objects (list "P3") :mute-actors (list "carol") :mute-tags (list "spam")})))
(list "P1"))

69
lib/feed/tests/notify.sx
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; Follow-up — notification feed over an inbox. (feed-test name got expected)
; an inbox is a stream of {:to receiver :activity act} events
(define mk-ev (fn (to act) {:activity act :to to}))
(define
IB
(feed/stream
(list
(mk-ev "alice" (feed/activity "bob" "like" "P" 10 (list)))
(mk-ev "alice" (feed/activity "carol" "like" "P" 20 (list)))
(mk-ev "alice" (feed/activity "dave" "reply" "Q" 30 (list)))
(mk-ev "bob" (feed/activity "eve" "like" "R" 40 (list))))))
; ---------- raw notifications ----------
(feed-test
"alice notification count"
(feed/count (feed/notifications IB "alice"))
3)
(feed-test
"bob notification count"
(feed/count (feed/notifications IB "bob"))
1)
(feed-test
"zoe no notifications"
(feed/count (feed/notifications IB "zoe"))
0)
; ---------- verb filtering ----------
(feed-test
"alice likes only"
(feed/count (feed/notify-verbs IB "alice" (list "like")))
2)
(feed-test
"alice replies only"
(feed/count (feed/notify-verbs IB "alice" (list "reply")))
1)
(feed-test
"alice like+reply"
(feed/count (feed/notify-verbs IB "alice" (list "like" "reply")))
3)
(feed-test
"alice follow (none)"
(feed/count (feed/notify-verbs IB "alice" (list "follow")))
0)
; ---------- digest ----------
(define dig (feed/notify-digest IB "alice"))
(feed-test "digest group count" (len dig) 2)
(feed-test
"digest sorted by key (like|P before reply|Q)"
(map (fn (g) (get g :object)) dig)
(list "P" "Q"))
(feed-test
"like group actors"
(get (nth dig 0) :actors)
(list "bob" "carol"))
(feed-test "like group count" (get (nth dig 0) :count) 2)
(feed-test "like group verb" (get (nth dig 0) :verb) "like")
(feed-test "reply group count" (get (nth dig 1) :count) 1)
(feed-test
"reply group actors"
(get (nth dig 1) :actors)
(list "dave"))
(feed-test "empty digest for zoe" (feed/notify-digest IB "zoe") (list))

86
lib/feed/tests/page.sx
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; Follow-up — pagination (offset + cursor). (feed-test name got expected)
; ---------- offset / limit ----------
(define
O
(feed/stream
(list
(feed/activity "u" "post" "o1" 1 (list))
(feed/activity "u" "post" "o2" 2 (list))
(feed/activity "u" "post" "o3" 3 (list))
(feed/activity "u" "post" "o4" 4 (list))
(feed/activity "u" "post" "o5" 5 (list)))))
(feed-test
"page 1"
(map
(fn (a) (get a :object))
(feed/items (feed/page O 0 2)))
(list "o1" "o2"))
(feed-test
"page 2"
(map
(fn (a) (get a :object))
(feed/items (feed/page O 2 2)))
(list "o3" "o4"))
(feed-test
"page 3 (partial)"
(map
(fn (a) (get a :object))
(feed/items (feed/page O 4 2)))
(list "o5"))
(feed-test
"page past end empty"
(feed/count (feed/page O 10 2))
0)
(feed-test "page-count 5/2 = 3" (feed/page-count O 2) 3)
(feed-test "page-count 5/5 = 1" (feed/page-count O 5) 1)
; ---------- cursor (recency) ----------
(define
R
(feed/stream
(list
(feed/activity "u" "post" "a" 50 (list))
(feed/activity "u" "post" "b" 40 (list))
(feed/activity "u" "post" "c" 30 (list))
(feed/activity "u" "post" "d" 20 (list))
(feed/activity "u" "post" "e" 10 (list)))))
(define p1 (feed/page-before R 100 2))
(feed-test
"cursor page 1 newest first"
(map (fn (a) (get a :object)) (feed/items p1))
(list "a" "b"))
(feed-test "next cursor after page 1" (feed/next-cursor p1) 40)
(define p2 (feed/page-before R (feed/next-cursor p1) 2))
(feed-test
"cursor page 2"
(map (fn (a) (get a :object)) (feed/items p2))
(list "c" "d"))
(feed-test "next cursor after page 2" (feed/next-cursor p2) 20)
(define p3 (feed/page-before R (feed/next-cursor p2) 2))
(feed-test
"cursor page 3 (partial)"
(map (fn (a) (get a :object)) (feed/items p3))
(list "e"))
(feed-test
"empty page nil cursor"
(feed/next-cursor (feed/page-before R 5 2))
nil)
(feed-test
"after cursor loads newer"
(map
(fn (a) (get a :object))
(feed/items (feed/recent (feed/after R 30))))
(list "a" "b"))
(feed-test
"before cursor count"
(feed/count (feed/before R 30))
2)

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lib/feed/tests/rank.sx
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; Phase 3 — aggregation + ranking. (feed-test name got expected)
; ---------- aggregation ----------
(define
A
(feed/stream
(list
(feed/activity "alice" "post" "p1" 5 (list))
(feed/activity "alice" "post" "p2" 15 (list))
(feed/activity "bob" "post" "p3" 25 (list))
(feed/activity "alice" "like" "p1" 35 (list)))))
(feed-test "actor-counts" (feed/actor-counts A) {:alice 3 :bob 1})
(feed-test "object-counts" (feed/object-counts A) {:p2 1 :p3 1 :p1 2})
(feed-test
"group-by actor alice len"
(len (get (feed/group-by A feed/actor) "alice"))
3)
(feed-test
"group-count empty"
(feed/group-count feed/empty feed/actor)
{})
; day bucketing
(define
D
(feed/stream
(list
(feed/activity "alice" "post" "p1" 5 (list))
(feed/activity "alice" "post" "p2" 8 (list))
(feed/activity "alice" "post" "p3" 12 (list)))))
(feed-test "feed/day floor" (feed/day 12 10) 1)
(feed-test "feed/day same bucket" (feed/day 8 10) 0)
(feed-test "by-actor-day" (feed/by-actor-day D 10) {:alice#0 2 :alice#1 1})
; ---------- recency ----------
(define rec (feed/recency 100 10))
(feed-test
"recency at=now -> 1"
(rec (feed/activity "x" "post" "o" 100 (list)))
1)
(feed-test
"recency age=hl -> .5"
(rec (feed/activity "x" "post" "o" 90 (list)))
0.5)
(feed-test
"recency age=2hl -> .25"
(rec (feed/activity "x" "post" "o" 80 (list)))
0.25)
; ---------- velocity ----------
(define vel (feed/velocity D 10))
(feed-test
"velocity burst (at=12)"
(vel (feed/activity "alice" "post" "z" 12 (list)))
3)
(feed-test
"velocity mid (at=8)"
(vel (feed/activity "alice" "post" "z" 8 (list)))
2)
(feed-test
"velocity first (at=5)"
(vel (feed/activity "alice" "post" "z" 5 (list)))
1)
(feed-test
"velocity other actor"
(vel (feed/activity "bob" "post" "z" 12 (list)))
0)
; ---------- engagement ----------
(define eng (feed/engagement A))
(feed-test
"engagement p1"
(eng (feed/activity "x" "post" "p1" 0 (list)))
2)
(feed-test
"engagement p2"
(eng (feed/activity "x" "post" "p2" 0 (list)))
1)
; ---------- composite ----------
(define
cmp1
(feed/composite (list (list 2 (fn (a) (get a :at))))))
(feed-test
"composite single part"
(cmp1 (feed/activity "x" "post" "o" 5 (list)))
10)
(define
cmp2
(feed/composite
(list
(list 2 (fn (a) (get a :at)))
(list 3 (fn (a) 1)))))
(feed-test
"composite two parts"
(cmp2 (feed/activity "x" "post" "o" 5 (list)))
13)
; ---------- ranking ----------
(define
R
(feed/stream
(list
(feed/activity "u" "post" "oC" 80 (list))
(feed/activity "u" "post" "oA" 100 (list))
(feed/activity "u" "post" "oB" 90 (list)))))
(feed-test
"rank by recency objects"
(map (fn (a) (get a :object)) (feed/items (feed/rank R rec)))
(list "oA" "oB" "oC"))
(feed-test
"top-2 by recency"
(map (fn (a) (get a :object)) (feed/items (feed/top R rec 2)))
(list "oA" "oB"))
(feed-test "top-2 count" (feed/count (feed/top R rec 2)) 2)
; constant score -> tiebreak by :at descending
(define
T
(feed/stream
(list
(feed/activity "u" "post" "f" 10 (list))
(feed/activity "u" "post" "g" 30 (list))
(feed/activity "u" "post" "h" 20 (list)))))
(feed-test
"tiebreak at-desc"
(map
(fn (a) (get a :object))
(feed/items (feed/rank T (fn (a) 0))))
(list "g" "h" "f"))
; equal score AND equal :at -> stable input order
(define
E
(feed/stream
(list
(feed/activity "u" "post" "first" 50 (list))
(feed/activity "u" "post" "second" 50 (list)))))
(feed-test
"stable equal-key input order"
(map
(fn (a) (get a :object))
(feed/items (feed/rank E (fn (a) 0))))
(list "first" "second"))
(feed-test
"with-scores attaches score"
(get (nth (feed/items (feed/with-scores R rec)) 1) :score)
1)
(feed-test "rank preserves count" (feed/count (feed/rank A rec)) 4)

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lib/feed/tests/thread.sx
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; Follow-up — conversation threading via :reply-to closure. (feed-test name got expected)
(define
S
(feed/stream
(list
(feed/normalize {:actor "a" :object "root" :at 1})
(feed/normalize {:actor "b" :object "r1" :at 2 :verb "reply" :reply-to "root"})
(feed/normalize {:actor "c" :object "r2" :at 3 :verb "reply" :reply-to "root"})
(feed/normalize {:actor "d" :object "r3" :at 4 :verb "reply" :reply-to "r1"})
(feed/normalize {:actor "e" :object "x" :at 5}))))
; ---------- direct replies ----------
(feed-test "direct replies to root" (feed/reply-count S "root") 2)
(feed-test "direct replies to r1" (feed/reply-count S "r1") 1)
(feed-test "no replies to r3" (feed/reply-count S "r3") 0)
(feed-test
"replies objects to root"
(map (fn (a) (get a :object)) (feed/items (feed/replies S "root")))
(list "r1" "r2"))
; ---------- thread closure ----------
(feed-test
"thread objects root (transitive)"
(feed/thread-objects S "root")
(list "root" "r1" "r2" "r3"))
(feed-test
"thread root chronological"
(map (fn (a) (get a :object)) (feed/items (feed/thread S "root")))
(list "root" "r1" "r2" "r3"))
(feed-test "thread size root" (feed/thread-size S "root") 4)
(feed-test
"thread excludes unrelated x"
(feed/-elem?
"x"
(map (fn (a) (get a :object)) (feed/items (feed/thread S "root"))))
false)
; ---------- sub-thread ----------
(feed-test
"thread from r1 (sub-tree)"
(map (fn (a) (get a :object)) (feed/items (feed/thread S "r1")))
(list "r1" "r3"))
(feed-test "thread size r1" (feed/thread-size S "r1") 2)
(feed-test "leaf thread is itself" (feed/thread-size S "r3") 1)
(feed-test "unrelated thread is itself" (feed/thread-size S "x") 1)

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lib/feed/tests/trending.sx
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; Follow-up — trending objects/actors by recent activity. (feed-test name got expected)
; window (50,100]: X@60,X@70 (a), Y@80 (b), Z@90 (c); W@40 is too old
(define
S
(feed/stream
(list
(feed/activity "a" "post" "X" 60 (list))
(feed/activity "a" "post" "X" 70 (list))
(feed/activity "b" "post" "Y" 80 (list))
(feed/activity "c" "post" "Z" 90 (list))
(feed/activity "d" "post" "W" 40 (list)))))
; ---------- trending objects ----------
(feed-test
"trending count (3 in window)"
(len (feed/trending S 100 50 10))
3)
(feed-test
"trending top object"
(get
(nth (feed/trending S 100 50 10) 0)
:object)
"X")
(feed-test
"trending top count"
(get
(nth (feed/trending S 100 50 10) 0)
:count)
2)
(feed-test
"trending order (count desc, key asc tiebreak)"
(map
(fn (e) (get e :object))
(feed/trending S 100 50 10))
(list "X" "Y" "Z"))
(feed-test
"trending top-2"
(map
(fn (e) (get e :object))
(feed/trending S 100 50 2))
(list "X" "Y"))
(feed-test
"old object W excluded"
(feed/-elem?
"W"
(map
(fn (e) (get e :object))
(feed/trending S 100 50 10)))
false)
(feed-test
"narrow window keeps only newest"
(map
(fn (e) (get e :object))
(feed/trending S 100 15 10))
(list "Z"))
(feed-test
"empty window -> nothing"
(feed/trending S 100 5 10)
(list))
; ---------- trending actors ----------
(feed-test
"trending actor top"
(get
(nth (feed/trending-actors S 100 50 10) 0)
:actor)
"a")
(feed-test
"trending actor count"
(get
(nth (feed/trending-actors S 100 50 10) 0)
:count)
2)
(feed-test
"trending actors order"
(map
(fn (e) (get e :actor))
(feed/trending-actors S 100 50 10))
(list "a" "b" "c"))

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lib/feed/thread.sx
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; feed/thread — conversation threading. A reply carries :reply-to <parent-object>
; (normalize preserves it). A thread is the transitive closure over :reply-to from
; a root object: root + replies + replies-to-replies, gathered chronologically.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/-elem?, feed/-distinct).
; direct replies to an object
(define
feed/replies
(fn
(stream object)
(feed/filter stream (fn (a) (equal? (get a :reply-to) object)))))
(define
feed/reply-count
(fn (stream object) (feed/count (feed/replies stream object))))
; iterate f from x until the result stops growing (set-closure fixpoint)
(define
feed/-fixpoint
(fn
(f x)
(let
((nx (f x)))
(if (= (len nx) (len x)) x (feed/-fixpoint f nx)))))
; the set of object-ids in the thread rooted at `root`
(define
feed/thread-objects
(fn
(stream root)
(let
((all (feed/items stream)))
(feed/-fixpoint
(fn
(acc)
(feed/-distinct
(append
acc
(map
(fn (a) (get a :object))
(filter (fn (a) (feed/-elem? (get a :reply-to) acc)) all)))))
(list root)))))
; the full thread as a chronological stream (root + all descendants)
(define
feed/thread
(fn
(stream root)
(let
((objs (feed/thread-objects stream root)))
(feed/sort-by-at
(feed/filter stream (fn (a) (feed/-elem? (get a :object) objs)))))))
; how many activities are in the thread (root counts as 1)
(define
feed/thread-size
(fn (stream root) (feed/count (feed/thread stream root))))

42
lib/feed/trending.sx
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@@ -1,42 +0,0 @@
; feed/trending — what's hot right now: objects (or actors) ranked by activity
; count within a recency window. Deterministic: count descending, ties broken by
; key ascending (entries are pre-sorted by key, then stable grade-down by count).
;
; Requires: lib/feed/stream.sx, lib/feed/aggregate.sx (object/actor-counts),
; lib/feed/rank.sx (feed/-desc-by).
; activities within (now-window, now]
(define
feed/-recent
(fn
(stream now window)
(feed/filter
stream
(fn (a) (and (<= (get a :at) now) (> (get a :at) (- now window)))))))
; counts dict -> top-N entries {label key, :count n}, count desc, key asc
(define
feed/-top-counts
(fn
(counts label n)
(let
((entries (map (fn (k) (assoc {:count (get counts k)} label k)) (sort (keys counts)))))
(take (feed/-desc-by entries (fn (e) (get e :count))) n))))
; top-N trending objects in the window
(define
feed/trending
(fn
(stream now window n)
(feed/-top-counts
(feed/object-counts (feed/-recent stream now window))
:object n)))
; top-N most active actors in the window
(define
feed/trending-actors
(fn
(stream now window n)
(feed/-top-counts
(feed/actor-counts (feed/-recent stream now window))
:actor n)))

141
lib/go/conformance.sh
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@@ -1,141 +0,0 @@
#!/usr/bin/env bash
# Go-on-SX conformance runner.
#
# Loads every Go-on-SX test suite via the epoch protocol, collects
# pass/fail counts, and writes lib/go/scoreboard.json + .md.
#
# Usage:
# bash lib/go/conformance.sh # run all suites
# bash lib/go/conformance.sh -v # verbose per-suite
set -uo pipefail
cd "$(git rev-parse --show-toplevel)"
SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
if [ ! -x "$SX_SERVER" ]; then
SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
fi
if [ ! -x "$SX_SERVER" ]; then
echo "ERROR: sx_server.exe not found." >&2
exit 1
fi
VERBOSE="${1:-}"
TMPFILE=$(mktemp)
OUTFILE=$(mktemp)
trap "rm -f $TMPFILE $OUTFILE" EXIT
# Each suite: name | pass-counter | total-counter
SUITES=(
"lex|go-test-pass|go-test-count"
"parse|go-parse-test-pass|go-parse-test-count"
"types|go-types-test-pass|go-types-test-count"
"eval|go-eval-test-pass|go-eval-test-count"
"runtime|go-rt-test-pass|go-rt-test-count"
"stdlib|go-std-test-pass|go-std-test-count"
"e2e|go-e2e-test-pass|go-e2e-test-count"
)
cat > "$TMPFILE" <<'EPOCHS'
(epoch 1)
(load "lib/guest/lex.sx")
(load "lib/guest/ast.sx")
(load "lib/guest/pratt.sx")
(load "lib/go/lex.sx")
(load "lib/go/parse.sx")
(load "lib/go/types.sx")
(load "lib/go/sched.sx")
(load "lib/go/eval.sx")
(load "lib/go/std/strings.sx")
(load "lib/go/std/strconv.sx")
(load "lib/go/tests/lex.sx")
(load "lib/go/tests/parse.sx")
(load "lib/go/tests/types.sx")
(load "lib/go/tests/eval.sx")
(load "lib/go/tests/runtime.sx")
(load "lib/go/tests/stdlib.sx")
(load "lib/go/tests/e2e.sx")
EPOCHS
idx=0
for entry in "${SUITES[@]}"; do
name="${entry%%|*}"
pass_var=$(echo "$entry" | awk -F'|' '{print $2}')
total_var=$(echo "$entry" | awk -F'|' '{print $3}')
epoch=$((100 + idx))
echo "(epoch $epoch)" >> "$TMPFILE"
echo "(eval \"(list $pass_var $total_var)\")" >> "$TMPFILE"
idx=$((idx + 1))
done
"$SX_SERVER" < "$TMPFILE" > "$OUTFILE" 2>&1
parse_pair() {
local epoch="$1"
local line
line=$(grep -A1 "^(ok-len $epoch " "$OUTFILE" | tail -1)
echo "$line" | sed -E 's/[()]//g'
}
TOTAL_PASS=0
TOTAL_COUNT=0
JSON_SUITES=""
MD_ROWS=""
idx=0
for entry in "${SUITES[@]}"; do
name="${entry%%|*}"
epoch=$((100 + idx))
pair=$(parse_pair "$epoch")
pass=$(echo "$pair" | awk '{print $1}')
count=$(echo "$pair" | awk '{print $2}')
if [ -z "$pass" ] || [ -z "$count" ]; then
pass=0
count=0
fi
TOTAL_PASS=$((TOTAL_PASS + pass))
TOTAL_COUNT=$((TOTAL_COUNT + count))
status="ok"
marker="✅"
if [ "$pass" != "$count" ]; then
status="fail"
marker="❌"
fi
if [ "$VERBOSE" = "-v" ]; then
printf " %-12s %s/%s\n" "$name" "$pass" "$count"
fi
if [ -n "$JSON_SUITES" ]; then JSON_SUITES+=","; fi
JSON_SUITES+=$'\n '
JSON_SUITES+="{\"name\":\"$name\",\"pass\":$pass,\"total\":$count,\"status\":\"$status\"}"
MD_ROWS+="| $marker | $name | $pass | $count |"$'\n'
idx=$((idx + 1))
done
printf '\nGo-on-SX conformance: %d / %d\n' "$TOTAL_PASS" "$TOTAL_COUNT"
cat > lib/go/scoreboard.json <<JSON
{
"language": "go",
"total_pass": $TOTAL_PASS,
"total": $TOTAL_COUNT,
"suites": [$JSON_SUITES]
}
JSON
cat > lib/go/scoreboard.md <<MD
# Go-on-SX Scoreboard
**Total: ${TOTAL_PASS} / ${TOTAL_COUNT} tests passing**
| | Suite | Pass | Total |
|---|---|---|---|
$MD_ROWS
Generated by \`lib/go/conformance.sh\`.
MD
if [ "$TOTAL_PASS" -eq "$TOTAL_COUNT" ]; then
exit 0
else
exit 1
fi

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lib/go/eval.sx
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476
lib/go/lex.sx
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;; lib/go/lex.sx — Go tokenizer with automatic semicolon insertion.
;;
;; Consumes lib/guest/lex.sx character-class predicates.
;;
;; Tokens: {:type T :value V :pos P}
;; Types:
;; "ident" — identifiers (foo, _bar, mixedCase)
;; "keyword" — one of the 25 Go keywords
;; "int" — integer literals (decimal, 0x.. hex, 0b.. binary, 0o.. octal,
;; legacy 0123 octal; underscores between digits allowed)
;; "float" — decimal float literals (3.14, .5, 1., 1e10, 1.5e-3, 1E5)
;; "imag" — imaginary literals (2i, 3.14i, 1e2i)
;; "string" — interpreted string literals "..." OR raw string literals `...`
;; "rune" — rune literals 'x' (single char + simple escapes)
;; "op" — operators & punctuation; :value is the literal text
;; "semi" — explicit ';' or auto-inserted (Go spec § Semicolons)
;; "eof" — end-of-input sentinel
;;
;; ASI (Go spec § Semicolons): a newline (or EOF, or a block comment
;; containing a newline) emits a ";semi" if the previous emitted token's
;; type is ident/int/float/imag/string/rune, or its value is one of
;; {break, continue, fallthrough, return, ++, --, ), ], }}.
;;
;; All scanner locals are gl- prefixed: SX host primitives (peek/emit/etc.)
;; silently shadow guest-language defines. See feedback_sx_bind_clash.
(define
go-keywords
(list
"break"
"case"
"chan"
"const"
"continue"
"default"
"defer"
"else"
"fallthrough"
"for"
"func"
"go"
"goto"
"if"
"import"
"interface"
"map"
"package"
"range"
"return"
"select"
"struct"
"switch"
"type"
"var"))
(define go-keyword? (fn (s) (some (fn (k) (= k s)) go-keywords)))
(define go-asi-keywords (list "break" "continue" "fallthrough" "return"))
(define go-asi-ops (list "++" "--" ")" "]" "}"))
(define go-asi-lit-types (list "ident" "int" "float" "imag" "string" "rune"))
(define
go-asi-trigger?
(fn
(tok)
(if
(= tok nil)
false
(let
((ty (get tok :type)) (v (get tok :value)))
(or
(some (fn (lt) (= lt ty)) go-asi-lit-types)
(and (= ty "keyword") (some (fn (k) (= k v)) go-asi-keywords))
(and (= ty "op") (some (fn (o) (= o v)) go-asi-ops)))))))
(define
go-tokenize
(fn
(src)
(let
((tokens (list)) (pos 0) (src-len (len src)))
(define
gl-peek
(fn
(offset)
(if (< (+ pos offset) src-len) (nth src (+ pos offset)) nil)))
(define gl-cur (fn () (gl-peek 0)))
(define gl-advance! (fn (n) (set! pos (+ pos n))))
(define
gl-last
(fn
()
(if
(= (len tokens) 0)
nil
(nth tokens (- (len tokens) 1)))))
(define gl-emit! (fn (type value start) (append! tokens {:type type :value value :pos start})))
(define
gl-maybe-asi!
(fn
(at)
(when (go-asi-trigger? (gl-last)) (gl-emit! "semi" "\n" at))))
(define
gl-oct-digit?
(fn (c) (and (not (= c nil)) (>= c "0") (<= c "7"))))
(define gl-bin-digit? (fn (c) (or (= c "0") (= c "1"))))
(define
gl-skip-line!
(fn
()
(when
(and (< pos src-len) (not (= (gl-cur) "\n")))
(gl-advance! 1)
(gl-skip-line!))))
(define
gl-skip-block!
(fn
(saw-nl)
(cond
(>= pos src-len)
saw-nl
(and (= (gl-cur) "*") (= (gl-peek 1) "/"))
(do (gl-advance! 2) saw-nl)
:else (let
((is-nl (= (gl-cur) "\n")))
(gl-advance! 1)
(gl-skip-block! (or saw-nl is-nl))))))
(define
gl-read-ident!
(fn
(start)
(when
(and (< pos src-len) (lex-ident-char? (gl-cur)))
(gl-advance! 1)
(gl-read-ident! start))
(slice src start pos)))
(define
gl-read-digit-run!
(fn
(digit?)
(when
(and (< pos src-len) (or (digit? (gl-cur)) (= (gl-cur) "_")))
(gl-advance! 1)
(gl-read-digit-run! digit?))))
(define
gl-finish-number!
(fn
(has-fraction?)
(let
((typ (if has-fraction? "float" "int")))
(when
(or (= (gl-cur) "e") (= (gl-cur) "E"))
(gl-advance! 1)
(when
(or (= (gl-cur) "+") (= (gl-cur) "-"))
(gl-advance! 1))
(gl-read-digit-run! lex-digit?)
(set! typ "float"))
(cond
(= (gl-cur) "i")
(do (gl-advance! 1) "imag")
:else typ))))
(define
gl-read-number!
(fn
()
(cond
(and (= (gl-cur) ".") (lex-digit? (gl-peek 1)))
(do
(gl-advance! 1)
(gl-read-digit-run! lex-digit?)
(gl-finish-number! true))
(and
(= (gl-cur) "0")
(or
(= (gl-peek 1) "x")
(= (gl-peek 1) "X")))
(do
(gl-advance! 2)
(gl-read-digit-run! lex-hex-digit?)
"int")
(and
(= (gl-cur) "0")
(or
(= (gl-peek 1) "b")
(= (gl-peek 1) "B")))
(do
(gl-advance! 2)
(gl-read-digit-run! gl-bin-digit?)
"int")
(and
(= (gl-cur) "0")
(or
(= (gl-peek 1) "o")
(= (gl-peek 1) "O")))
(do
(gl-advance! 2)
(gl-read-digit-run! gl-oct-digit?)
"int")
:else (do
(gl-read-digit-run! lex-digit?)
(cond
(and (= (gl-cur) ".") (not (= (gl-peek 1) ".")))
(do
(gl-advance! 1)
(gl-read-digit-run! lex-digit?)
(gl-finish-number! true))
:else (gl-finish-number! false))))))
(define
gl-read-string!
(fn
()
(gl-advance! 1)
(let
((chars (list)))
(define
gl-string-loop
(fn
()
(cond
(>= pos src-len)
nil
(= (gl-cur) "\"")
(gl-advance! 1)
(= (gl-cur) "\\")
(do
(gl-advance! 1)
(when
(< pos src-len)
(let
((ch (gl-cur)))
(cond
(= ch "n")
(append! chars "\n")
(= ch "t")
(append! chars "\t")
(= ch "r")
(append! chars "\r")
(= ch "\\")
(append! chars "\\")
(= ch "\"")
(append! chars "\"")
(= ch "'")
(append! chars "'")
:else (append! chars ch))
(gl-advance! 1)))
(gl-string-loop))
:else (do
(append! chars (gl-cur))
(gl-advance! 1)
(gl-string-loop)))))
(gl-string-loop)
(join "" chars))))
(define
gl-read-raw-string!
(fn
()
(gl-advance! 1)
(let
((chars (list)))
(define
gl-raw-loop
(fn
()
(cond
(>= pos src-len)
nil
(= (gl-cur) "`")
(gl-advance! 1)
(= (gl-cur) "\r")
(do (gl-advance! 1) (gl-raw-loop))
:else (do
(append! chars (gl-cur))
(gl-advance! 1)
(gl-raw-loop)))))
(gl-raw-loop)
(join "" chars))))
(define
gl-read-rune!
(fn
()
(gl-advance! 1)
(let
((chars (list)))
(cond
(and (< pos src-len) (= (gl-cur) "\\"))
(do
(gl-advance! 1)
(when
(< pos src-len)
(let
((ch (gl-cur)))
(cond
(= ch "n")
(append! chars "\n")
(= ch "t")
(append! chars "\t")
(= ch "r")
(append! chars "\r")
(= ch "\\")
(append! chars "\\")
(= ch "'")
(append! chars "'")
(= ch "\"")
(append! chars "\"")
:else (append! chars ch))
(gl-advance! 1))))
(< pos src-len)
(do (append! chars (gl-cur)) (gl-advance! 1)))
(when
(and (< pos src-len) (= (gl-cur) "'"))
(gl-advance! 1))
(join "" chars))))
(define
gl-match-op
(fn
()
(let
((c0 (gl-cur))
(c1 (gl-peek 1))
(c2 (gl-peek 2)))
(cond
(and (= c0 "<") (= c1 "<") (= c2 "="))
"<<="
(and (= c0 ">") (= c1 ">") (= c2 "="))
">>="
(and (= c0 "&") (= c1 "^") (= c2 "="))
"&^="
(and (= c0 ".") (= c1 ".") (= c2 "."))
"..."
(and (= c0 "=") (= c1 "="))
"=="
(and (= c0 "!") (= c1 "="))
"!="
(and (= c0 "<") (= c1 "="))
"<="
(and (= c0 ">") (= c1 "="))
">="
(and (= c0 "&") (= c1 "&"))
"&&"
(and (= c0 "|") (= c1 "|"))
"||"
(and (= c0 "+") (= c1 "+"))
"++"
(and (= c0 "-") (= c1 "-"))
"--"
(and (= c0 "<") (= c1 "<"))
"<<"
(and (= c0 ">") (= c1 ">"))
">>"
(and (= c0 "+") (= c1 "="))
"+="
(and (= c0 "-") (= c1 "="))
"-="
(and (= c0 "*") (= c1 "="))
"*="
(and (= c0 "/") (= c1 "="))
"/="
(and (= c0 "%") (= c1 "="))
"%="
(and (= c0 "&") (= c1 "="))
"&="
(and (= c0 "|") (= c1 "="))
"|="
(and (= c0 "^") (= c1 "="))
"^="
(and (= c0 ":") (= c1 "="))
":="
(and (= c0 "<") (= c1 "-"))
"<-"
(and (= c0 "&") (= c1 "^"))
"&^"
(or
(= c0 "+")
(= c0 "-")
(= c0 "*")
(= c0 "/")
(= c0 "%")
(= c0 "&")
(= c0 "|")
(= c0 "^")
(= c0 "<")
(= c0 ">")
(= c0 "=")
(= c0 "!")
(= c0 "(")
(= c0 ")")
(= c0 "{")
(= c0 "}")
(= c0 "[")
(= c0 "]")
(= c0 ",")
(= c0 ".")
(= c0 ":")
(= c0 "~"))
c0
:else nil))))
(define
gl-scan!
(fn
()
(cond
(>= pos src-len)
nil
(= (gl-cur) "\n")
(do (gl-maybe-asi! pos) (gl-advance! 1) (gl-scan!))
(lex-space? (gl-cur))
(do (gl-advance! 1) (gl-scan!))
(and (= (gl-cur) "/") (= (gl-peek 1) "/"))
(do (gl-advance! 2) (gl-skip-line!) (gl-scan!))
(and (= (gl-cur) "/") (= (gl-peek 1) "*"))
(do
(gl-advance! 2)
(let
((saw-nl (gl-skip-block! false)))
(when saw-nl (gl-maybe-asi! pos)))
(gl-scan!))
(= (gl-cur) ";")
(do
(gl-emit! "semi" ";" pos)
(gl-advance! 1)
(gl-scan!))
(lex-ident-start? (gl-cur))
(do
(let
((start pos))
(gl-read-ident! start)
(let
((word (slice src start pos)))
(gl-emit!
(if (go-keyword? word) "keyword" "ident")
word
start)))
(gl-scan!))
(lex-digit? (gl-cur))
(do
(let
((start pos) (typ (gl-read-number!)))
(gl-emit! typ (slice src start pos) start))
(gl-scan!))
(and (= (gl-cur) ".") (lex-digit? (gl-peek 1)))
(do
(let
((start pos) (typ (gl-read-number!)))
(gl-emit! typ (slice src start pos) start))
(gl-scan!))
(= (gl-cur) "\"")
(let
((start pos) (v (gl-read-string!)))
(gl-emit! "string" v start)
(gl-scan!))
(= (gl-cur) "`")
(let
((start pos) (v (gl-read-raw-string!)))
(gl-emit! "string" v start)
(gl-scan!))
(= (gl-cur) "'")
(let
((start pos) (v (gl-read-rune!)))
(gl-emit! "rune" v start)
(gl-scan!))
:else (let
((op (gl-match-op)))
(cond
op
(do
(gl-emit! "op" op pos)
(gl-advance! (len op))
(gl-scan!))
:else (do (gl-advance! 1) (gl-scan!)))))))
(gl-scan!)
(gl-maybe-asi! pos)
(gl-emit! "eof" nil pos)
tokens)))

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lib/go/parse.sx
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lib/go/sched.sx
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;; lib/go/sched.sx — Go scheduler primitives: channels + goroutines.
;;
;; This is **the independent implementation** referenced by
;; plans/lib-guest-scheduler.md. The shape that emerges here informs
;; the eventual sister kit; this file's structures are the Phase 5
;; "first-consumer" cut.
;;
;; v0 concurrency model — IMPORTANT
;;
;; SX has no first-class continuations exposed to guest code, so we
;; can't suspend a goroutine mid-statement. v0 runs `go f()` SYNCHRO-
;; NOUSLY (it's an immediate call whose return value is dropped). This
;; preserves the right semantics for patterns where the spawned
;; goroutine simply pushes to a channel that the main goroutine then
;; receives — because the spawned goroutine runs to completion first
;; and leaves the value in the channel buffer.
;;
;; True preemption with blocking sends/recvs is a Phase 5b refinement.
;; The sister-plan diary tracks the design insight (single
;; sched-spawn primitive, channel-op direction tag) so the eventual
;; kit doesn't bake in v0's synchronous limitation.
;;
;; Channel representation
;;
;; (list :go-chan ACCESSORS-FN-LIST)
;;
;; ACCESSORS-FN-LIST is a list of closures sharing a mutable buffer
;; and a closed flag. The closures expose:
;; index 1: send-fn — (lambda (val) ...)
;; index 2: recv-fn — (lambda () val-or-:empty)
;; index 3: closed?-fn — (lambda () bool)
;; index 4: close!-fn — (lambda () ...)
;;
;; Channel identity: distinct calls to go-make-chan produce closures
;; with distinct identity — `(= ch1 ch2)` is false for distinct
;; channels, matching Go spec § Channel types.
(define
go-make-chan
(fn
()
(let
((buf (list)) (closed false))
(list
:go-chan (fn (v) (append! buf v) nil)
(fn
()
(cond
(= (len buf) 0)
:empty :else
(let ((v (first buf))) (set! buf (rest buf)) v)))
(fn () closed)
(fn () (set! closed true) nil)
(fn () (len buf))))))
(define
go-chan?
(fn
(v)
(and (list? v) (not (= (len v) 0)) (= (first v) :go-chan))))
(define go-chan-send! (fn (ch val) ((nth ch 1) val)))
(define go-chan-recv! (fn (ch) ((nth ch 2))))
(define go-chan-closed? (fn (ch) ((nth ch 3))))
(define go-chan-close! (fn (ch) ((nth ch 4))))
(define go-chan-len (fn (ch) ((nth ch 5))))

13
lib/go/scoreboard.json
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@@ -1,13 +0,0 @@
{
"language": "go",
"total_pass": 609,
"total": 609,
"suites": [
{"name":"lex","pass":129,"total":129,"status":"ok"},
{"name":"parse","pass":179,"total":179,"status":"ok"},
{"name":"types","pass":102,"total":102,"status":"ok"},
{"name":"eval","pass":106,"total":106,"status":"ok"},
{"name":"runtime","pass":40,"total":40,"status":"ok"},
{"name":"stdlib","pass":41,"total":41,"status":"ok"},
{"name":"e2e","pass":12,"total":12,"status":"ok"}]
}

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lib/go/scoreboard.md
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# Go-on-SX Scoreboard
**Total: 609 / 609 tests passing**
| | Suite | Pass | Total |
|---|---|---|---|
| ✅ | lex | 129 | 129 |
| ✅ | parse | 179 | 179 |
| ✅ | types | 102 | 102 |
| ✅ | eval | 106 | 106 |
| ✅ | runtime | 40 | 40 |
| ✅ | stdlib | 41 | 41 |
| ✅ | e2e | 12 | 12 |
Generated by `lib/go/conformance.sh`.

71
lib/go/std/strconv.sx
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@@ -1,71 +0,0 @@
;; lib/go/std/strconv.sx — Go's `strconv` package, v0 subset.
(define
go-strconv-itoa
;; Itoa(n) → string. Real Go returns the decimal representation.
(fn (args)
(cond
(not (= (len args) 1))
(list :eval-error :strconv-itoa-arity (len args))
:else
(let ((n (first args)))
(cond
(not (number? n)) (list :eval-error :strconv-itoa-not-number n)
:else (str n))))))
(define
go-strconv-atoi
;; Atoi(s) → (int, error). v0 returns just the int on success or
;; an :eval-error on failure (multi-return is a later refinement).
(fn (args)
(cond
(not (= (len args) 1))
(list :eval-error :strconv-atoi-arity (len args))
:else
(let ((s (first args)))
(cond
(not (string? s)) (list :eval-error :strconv-atoi-not-string s)
(= (len s) 0) (list :eval-error :strconv-atoi-empty)
:else (go-strconv-parse-int s 0 (= (nth s 0) "-") 0))))))
(define
go-strconv-parse-int
;; Parse a (possibly signed) base-10 integer literal. Stops on the
;; first non-digit char and returns the parsed prefix, or :eval-error
;; if no digits were consumed.
(fn (s start neg acc)
(let ((i (cond (= start 0) (cond neg 1 :else 0) :else start)))
(cond
(>= i (len s))
(cond
(= (cond neg (- i 1) :else i) 0)
(list :eval-error :strconv-atoi-no-digits s)
:else
(cond neg (- 0 acc) :else acc))
:else
(let ((d (go-strconv-digit (nth s i))))
(cond
(< d 0)
(cond
(= (cond neg (- i 1) :else i) 0)
(list :eval-error :strconv-atoi-no-digits s)
:else
(cond neg (- 0 acc) :else acc))
:else
(go-strconv-parse-int s (+ i 1) neg (+ (* acc 10) d))))))))
(define
go-strconv-digit
(fn (c)
(cond
(= c "0") 0 (= c "1") 1 (= c "2") 2 (= c "3") 3
(= c "4") 4 (= c "5") 5 (= c "6") 6 (= c "7") 7
(= c "8") 8 (= c "9") 9
:else -1)))
(define
go-std-strconv
(list :go-package "strconv"
(list
(list "Itoa" (list :go-builtin-fn go-strconv-itoa))
(list "Atoi" (list :go-builtin-fn go-strconv-atoi)))))

386
lib/go/std/strings.sx
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@@ -1,386 +0,0 @@
;; lib/go/std/strings.sx — Go's `strings` package, v0 subset.
;;
;; Exposed as `go-std-strings`, a (:go-package "strings" ENTRIES) value.
;; Register with `(go-env-extend env "strings" go-std-strings)` to make
;; `strings.X(...)` call sites work in evaluated Go code.
;;
;; Each entry is (FIELD-NAME (list :go-fn PARAMS BODY)) — the same
;; shape user-defined Go functions get. Bodies are written in SX
;; directly via go-builtin closures wrapping host-level string ops
;; for speed, OR as parsed Go source for fidelity. v0 uses
;; go-builtin wrappers — simpler and fast.
;; ── helpers: implement go-std-strings entries as builtins ────────
(define
go-strings-contains
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-contains-arity (len args))
:else
(let ((s (first args)) (sub (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? sub)) (list :eval-error :strings-not-string sub)
:else
(go-strings-index-of s sub 0))))))
(define
go-strings-index-of
;; Returns true if SUB appears in S at or after START, else false.
(fn (s sub start)
(let ((slen (len s)) (sublen (len sub)))
(cond
(= sublen 0) true
(> (+ start sublen) slen) false
(go-strings-match-at s sub start 0) true
:else (go-strings-index-of s sub (+ start 1))))))
(define
go-strings-match-at
(fn (s sub start k)
(cond
(>= k (len sub)) true
(= (nth s (+ start k)) (nth sub k))
(go-strings-match-at s sub start (+ k 1))
:else false)))
(define
go-strings-has-prefix
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-hasprefix-arity (len args))
:else
(let ((s (first args)) (p (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? p)) (list :eval-error :strings-not-string p)
(> (len p) (len s)) false
:else (go-strings-match-at s p 0 0))))))
(define
go-strings-has-suffix
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-hassuffix-arity (len args))
:else
(let ((s (first args)) (suf (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? suf)) (list :eval-error :strings-not-string suf)
(> (len suf) (len s)) false
:else
(go-strings-match-at s suf (- (len s) (len suf)) 0))))))
(define
go-strings-index
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-index-arity (len args))
:else
(let ((s (first args)) (sub (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? sub)) (list :eval-error :strings-not-string sub)
:else (go-strings-index-loop s sub 0))))))
(define
go-strings-index-loop
(fn (s sub start)
(let ((slen (len s)) (sublen (len sub)))
(cond
(= sublen 0) 0
(> (+ start sublen) slen) -1
(go-strings-match-at s sub start 0) start
:else (go-strings-index-loop s sub (+ start 1))))))
(define
go-strings-repeat
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-repeat-arity (len args))
:else
(let ((s (first args)) (n (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(< n 0) (list :eval-error :strings-repeat-negative n)
:else (go-strings-repeat-loop s n ""))))))
(define
go-strings-repeat-loop
(fn (s n acc)
(cond
(<= n 0) acc
:else (go-strings-repeat-loop s (- n 1) (str acc s)))))
(define
go-strings-count
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-count-arity (len args))
:else
(let ((s (first args)) (sub (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? sub)) (list :eval-error :strings-not-string sub)
:else (go-strings-count-loop s sub 0 0))))))
(define
go-strings-count-loop
(fn (s sub start acc)
(let ((idx (go-strings-index-loop s sub start)))
(cond
(< idx 0) acc
:else
(go-strings-count-loop s sub (+ idx (max 1 (len sub))) (+ acc 1))))))
(define
go-strings-join
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-join-arity (len args))
:else
(let ((sep (nth args 1)) (xs (first args)))
(cond
(not (string? sep)) (list :eval-error :strings-not-string sep)
(not (and (list? xs) (= (first xs) :go-slice)))
(list :eval-error :strings-join-not-slice xs)
:else (go-strings-join-loop (nth xs 1) sep ""))))))
(define
go-strings-join-loop
(fn (xs sep acc)
(cond
(= (len xs) 0) acc
(= (len acc) 0) (go-strings-join-loop (rest xs) sep (first xs))
:else
(go-strings-join-loop (rest xs) sep (str acc sep (first xs))))))
;; ── case conversion ──────────────────────────────────────────────
(define
go-strings-char-to-upper
(fn (c)
(cond
(and (>= c "a") (<= c "z"))
;; ASCII uppercase shift: 'a' is 0x61, 'A' is 0x41 → diff 0x20.
;; SX has no charcode primitive, so use a char-pair table.
(go-strings-letter-toggle c true)
:else c)))
(define
go-strings-char-to-lower
(fn (c)
(cond
(and (>= c "A") (<= c "Z"))
(go-strings-letter-toggle c false)
:else c)))
(define
go-strings-letter-toggle
;; Toggle a single ASCII letter's case via direct mapping.
;; `to-upper?` true means input is lowercase, output uppercase.
(fn (c to-upper?)
(cond
to-upper?
(cond
(= c "a") "A" (= c "b") "B" (= c "c") "C" (= c "d") "D"
(= c "e") "E" (= c "f") "F" (= c "g") "G" (= c "h") "H"
(= c "i") "I" (= c "j") "J" (= c "k") "K" (= c "l") "L"
(= c "m") "M" (= c "n") "N" (= c "o") "O" (= c "p") "P"
(= c "q") "Q" (= c "r") "R" (= c "s") "S" (= c "t") "T"
(= c "u") "U" (= c "v") "V" (= c "w") "W" (= c "x") "X"
(= c "y") "Y" (= c "z") "Z" :else c)
:else
(cond
(= c "A") "a" (= c "B") "b" (= c "C") "c" (= c "D") "d"
(= c "E") "e" (= c "F") "f" (= c "G") "g" (= c "H") "h"
(= c "I") "i" (= c "J") "j" (= c "K") "k" (= c "L") "l"
(= c "M") "m" (= c "N") "n" (= c "O") "o" (= c "P") "p"
(= c "Q") "q" (= c "R") "r" (= c "S") "s" (= c "T") "t"
(= c "U") "u" (= c "V") "v" (= c "W") "w" (= c "X") "x"
(= c "Y") "y" (= c "Z") "z" :else c))))
(define
go-strings-map-chars
(fn (s i acc char-fn)
(cond
(>= i (len s)) acc
:else
(go-strings-map-chars s (+ i 1) (str acc (char-fn (nth s i))) char-fn))))
(define
go-strings-to-upper
(fn (args)
(cond
(not (= (len args) 1))
(list :eval-error :strings-toupper-arity (len args))
:else
(let ((s (first args)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
:else (go-strings-map-chars s 0 "" go-strings-char-to-upper))))))
(define
go-strings-to-lower
(fn (args)
(cond
(not (= (len args) 1))
(list :eval-error :strings-tolower-arity (len args))
:else
(let ((s (first args)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
:else (go-strings-map-chars s 0 "" go-strings-char-to-lower))))))
;; ── TrimSpace ────────────────────────────────────────────────────
(define
go-strings-is-space?
(fn (c)
(or (= c " ") (= c "\t") (= c "\n") (= c "\r"))))
(define
go-strings-trim-left
(fn (s i)
(cond
(>= i (len s)) i
(go-strings-is-space? (nth s i)) (go-strings-trim-left s (+ i 1))
:else i)))
(define
go-strings-trim-right
(fn (s end)
(cond
(<= end 0) 0
(go-strings-is-space? (nth s (- end 1))) (go-strings-trim-right s (- end 1))
:else end)))
(define
go-strings-substr
;; Substring [lo, hi) — naive but predictable.
(fn (s lo hi)
(cond
(>= lo hi) ""
:else
(go-strings-substr-loop s lo hi ""))))
(define
go-strings-substr-loop
(fn (s i hi acc)
(cond
(>= i hi) acc
:else (go-strings-substr-loop s (+ i 1) hi (str acc (nth s i))))))
(define
go-strings-trim-space
(fn (args)
(cond
(not (= (len args) 1))
(list :eval-error :strings-trimspace-arity (len args))
:else
(let ((s (first args)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
:else
(let ((lo (go-strings-trim-left s 0)))
(let ((hi (go-strings-trim-right s (len s))))
(go-strings-substr s lo hi))))))))
;; ── Split ────────────────────────────────────────────────────────
(define
go-strings-split
(fn (args)
(cond
(not (= (len args) 2))
(list :eval-error :strings-split-arity (len args))
:else
(let ((s (first args)) (sep (nth args 1)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? sep)) (list :eval-error :strings-not-string sep)
(= (len sep) 0)
;; Empty separator: real Go splits to all chars; v0 keeps
;; behaviour simple — single-element slice.
(list :go-slice (list s))
:else
(list :go-slice (go-strings-split-loop s sep 0 (list))))))))
(define
go-strings-split-loop
(fn (s sep start acc)
(let ((idx (go-strings-index-loop s sep start)))
(cond
(< idx 0)
(go-strings-split-finalize acc (go-strings-substr s start (len s)))
:else
(go-strings-split-loop s sep (+ idx (len sep))
(go-strings-split-finalize acc
(go-strings-substr s start idx)))))))
(define
go-strings-split-finalize
;; Append a piece to acc, growing the list in order.
(fn (acc piece)
(cond
(= (len acc) 0) (list piece)
:else (go-name-concat acc (list piece)))))
;; ── Replace ──────────────────────────────────────────────────────
(define
go-strings-replace
;; Replace(s, old, new, n). n < 0 = all.
(fn (args)
(cond
(not (= (len args) 4))
(list :eval-error :strings-replace-arity (len args))
:else
(let ((s (first args)) (old (nth args 1))
(newv (nth args 2)) (n (nth args 3)))
(cond
(not (string? s)) (list :eval-error :strings-not-string s)
(not (string? old)) (list :eval-error :strings-not-string old)
(not (string? newv)) (list :eval-error :strings-not-string newv)
(= (len old) 0) s
:else (go-strings-replace-loop s old newv n 0 ""))))))
(define
go-strings-replace-loop
(fn (s old newv n start acc)
(let ((idx (go-strings-index-loop s old start)))
(cond
(or (< idx 0) (= n 0))
(str acc (go-strings-substr s start (len s)))
:else
(go-strings-replace-loop s old newv
(cond (< n 0) -1 :else (- n 1))
(+ idx (len old))
(str acc (go-strings-substr s start idx) newv))))))
;; ── go-std-strings package value ─────────────────────────────────
(define
go-std-strings
(list :go-package "strings"
(list
(list "Contains" (list :go-builtin-fn go-strings-contains))
(list "HasPrefix" (list :go-builtin-fn go-strings-has-prefix))
(list "HasSuffix" (list :go-builtin-fn go-strings-has-suffix))
(list "Index" (list :go-builtin-fn go-strings-index))
(list "Count" (list :go-builtin-fn go-strings-count))
(list "Repeat" (list :go-builtin-fn go-strings-repeat))
(list "Join" (list :go-builtin-fn go-strings-join))
(list "ToUpper" (list :go-builtin-fn go-strings-to-upper))
(list "ToLower" (list :go-builtin-fn go-strings-to-lower))
(list "TrimSpace" (list :go-builtin-fn go-strings-trim-space))
(list "Split" (list :go-builtin-fn go-strings-split))
(list "Replace" (list :go-builtin-fn go-strings-replace)))))

186
lib/go/tests/e2e.sx
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@@ -1,186 +0,0 @@
;; Go end-to-end tests — complete programs exercising lex+parse+
;; types+eval+sched+stdlib together. Each test runs a multi-line Go
;; program and inspects the final env.
(define go-e2e-test-count 0)
(define go-e2e-test-pass 0)
(define go-e2e-test-fails (list))
(define
go-e2e-test
(fn (name actual expected)
(set! go-e2e-test-count (+ go-e2e-test-count 1))
(if (= actual expected)
(set! go-e2e-test-pass (+ go-e2e-test-pass 1))
(append! go-e2e-test-fails
{:name name :expected expected :actual actual}))))
(define
go-e2e-env
(go-env-extend
(go-env-extend go-env-builtins "strings" go-std-strings)
"strconv" go-std-strconv))
(define
go-e2e-run
(fn (src-list)
(go-eval-program go-e2e-env (map go-parse src-list))))
;; ── 1. Sieve via boolean slice (no modulo needed) ────────────────
(go-e2e-test "e2e: sieve-of-Eratosthenes via boolean slice — count primes ≤ 30"
(let ((env (go-e2e-run
(list
;; sieve[i] true means i is COMPOSITE (saves the
;; default-bool initialisation for primes).
"sieve := []bool{false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false, false}"
"for p := 2; p < 31; p = p + 1 { if sieve[p] == false { for k := p + p; k < 31; k = k + p { sieve[k] = true } } }"
"count := 0"
"for i := 2; i < 31; i = i + 1 { if sieve[i] == false { count = count + 1 } }"))))
(go-env-lookup env "count"))
;; primes ≤ 30: 2,3,5,7,11,13,17,19,23,29 = 10
10)
;; ── 1b. Range-membership check (works without mod) ───────────────
(go-e2e-test "e2e: linear search across slice of strings"
(let ((env (go-e2e-run
(list
"words := []string{\"apple\", \"banana\", \"cherry\", \"date\"}"
"func indexOf(xs []string, target string) int { for i, v := range xs { if v == target { return i } } ; return -1 }"
"i := indexOf(words, \"cherry\")"
"missing := indexOf(words, \"xyz\")"))))
(list (go-env-lookup env "i") (go-env-lookup env "missing")))
(list 2 -1))
;; ── 2. Reverse a slice ───────────────────────────────────────────
(go-e2e-test "e2e: reverse a slice of ints"
(let ((env (go-e2e-run
(list
"func reverse(xs []int) []int { r := []int{} ; for i := len(xs) - 1; i >= 0; i = i - 1 { r = append(r, xs[i]) } ; return r }"
"out := reverse([]int{1, 2, 3, 4, 5})"))))
(go-env-lookup env "out"))
(list :go-slice (list 5 4 3 2 1)))
;; ── 3. Fibonacci (recursive) ─────────────────────────────────────
(go-e2e-test "e2e: fib(10) = 55"
(let ((env (go-e2e-run
(list
"func fib(n int) int { if n < 2 { return n } ; return fib(n-1) + fib(n-2) }"
"r := fib(10)"))))
(go-env-lookup env "r"))
55)
;; ── 4. Sum-of-squares via Map+Reduce ─────────────────────────────
(go-e2e-test "e2e: sum-of-squares 1..5 via Map+Reduce"
(let ((env (go-e2e-run
(list
"func Map[T any, U any](xs []T, f func(T) U) []U { r := []int{} ; for i, v := range xs { r = append(r, f(v)) } ; return r }"
"func Reduce[T any, U any](xs []T, seed U, f func(U, T) U) U { acc := seed ; for i, v := range xs { acc = f(acc, v) } ; return acc }"
"func sq(x int) int { return x * x }"
"func add(a int, b int) int { return a + b }"
"squares := Map([]int{1, 2, 3, 4, 5}, sq)"
"total := Reduce(squares, 0, add)"))))
(go-env-lookup env "total"))
;; 1 + 4 + 9 + 16 + 25 = 55
55)
;; ── 5. Word frequency counter ────────────────────────────────────
(go-e2e-test "e2e: word-frequency over a sentence"
(let ((env (go-e2e-run
(list
"text := \"the quick brown fox jumps over the lazy dog the\""
"words := strings.Split(text, \" \")"
"counts := map[string]int{}"
"for i, w := range words { counts[w] = counts[w] + 1 }"
"the_count := counts[\"the\"]"
"fox_count := counts[\"fox\"]"
"dog_count := counts[\"dog\"]"))))
(list (go-env-lookup env "the_count")
(go-env-lookup env "fox_count")
(go-env-lookup env "dog_count")))
(list 3 1 1))
;; ── 6. Pipeline via channels ─────────────────────────────────────
(go-e2e-test "e2e: pipeline — generate, square, sum"
(let ((env (go-e2e-run
(list
"func gen(c chan int, n int) { for i := 1; i <= n; i = i + 1 { c <- i } ; close(c) }"
"func sq(in chan int, out chan int) { for v := range in { out <- v * v } ; close(out) }"
"src := make()"
"sqs := make()"
"go gen(src, 4)"
"go sq(src, sqs)"
"total := 0"
"for v := range sqs { total = total + v }"))))
(go-env-lookup env "total"))
;; 1+4+9+16 = 30
30)
;; ── 7. Worker pool draining a job channel ────────────────────────
(go-e2e-test "e2e: worker pool — sum of doubled jobs"
(let ((env (go-e2e-run
(list
"func worker(jobs chan int, results chan int) { for j := range jobs { results <- j * 2 } }"
"jobs := make()"
"results := make()"
"jobs <- 10 ; jobs <- 20 ; jobs <- 30"
"close(jobs)"
"go worker(jobs, results)"
"close(results)"
"sum := 0"
"for r := range results { sum = sum + r }"))))
(go-env-lookup env "sum"))
;; 20 + 40 + 60 = 120
120)
;; ── 8. Bubble sort ───────────────────────────────────────────────
(go-e2e-test "e2e: bubble sort ascending"
(let ((env (go-e2e-run
(list
"func bubble(xs []int) []int { n := len(xs) ; for i := 0; i < n; i = i + 1 { for j := 0; j < n - 1; j = j + 1 { if xs[j] > xs[j+1] { tmp := xs[j] ; xs[j] = xs[j+1] ; xs[j+1] = tmp } } } ; return xs }"
"out := bubble([]int{3, 1, 4, 1, 5, 9, 2, 6})"))))
(go-env-lookup env "out"))
(list :go-slice (list 1 1 2 3 4 5 6 9)))
;; ── 9. String reverse using strings.Split + reverse + Join ──────
(go-e2e-test "e2e: reverse words in a sentence"
(let ((env (go-e2e-run
(list
"func rev(xs []string) []string { r := []string{} ; for i := len(xs) - 1; i >= 0; i = i - 1 { r = append(r, xs[i]) } ; return r }"
"text := \"go on sx\""
"out := strings.Join(rev(strings.Split(text, \" \")), \"-\")"))))
(go-env-lookup env "out"))
"sx-on-go")
;; ── 10. Counting occurrences via Filter ──────────────────────────
(go-e2e-test "e2e: count even numbers via Filter+len"
(let ((env (go-e2e-run
(list
"func Filter[T any](xs []T, p func(T) bool) []T { r := []int{} ; for i, v := range xs { if p(v) { r = append(r, v) } } ; return r }"
"func gt5(x int) bool { return x > 5 }"
"n := len(Filter([]int{1, 2, 6, 3, 7, 8, 4, 9}, gt5))"))))
(go-env-lookup env "n"))
;; gt5: 6,7,8,9 = 4
4)
;; ── 11. Recursive ackermann (small inputs) ───────────────────────
(go-e2e-test "e2e: ackermann(2, 3) = 9"
(let ((env (go-e2e-run
(list
"func ack(m int, n int) int { if m == 0 { return n + 1 } ; if n == 0 { return ack(m - 1, 1) } ; return ack(m - 1, ack(m, n - 1)) }"
"r := ack(2, 3)"))))
(go-env-lookup env "r"))
9)
;; ── 12. Defer + recover smoke test ───────────────────────────────
(go-e2e-test "e2e: defer + recover in real-fn flow"
(let ((env (go-e2e-run
(list
"func safeDivide(a int, b int) int { defer recover() ; if b == 0 { panic(\"div by zero\") } ; return a / b }"
"r := safeDivide(10, 0)"
"after := 99"))))
(go-env-lookup env "after"))
99)
(define
go-e2e-test-summary
(str "e2e " go-e2e-test-pass "/" go-e2e-test-count))

667
lib/go/tests/eval.sx
View File

@@ -1,667 +0,0 @@
;; Go evaluator tests.
(define go-eval-test-count 0)
(define go-eval-test-pass 0)
(define go-eval-test-fails (list))
(define
go-eval-test
(fn
(name actual expected)
(set! go-eval-test-count (+ go-eval-test-count 1))
(if
(= actual expected)
(set! go-eval-test-pass (+ go-eval-test-pass 1))
(append! go-eval-test-fails {:name name :expected expected :actual actual}))))
(define gtev (fn (env src) (go-eval env (go-parse src))))
;; ── env ──────────────────────────────────────────────────────────
(go-eval-test
"env: empty lookup returns nil"
(go-env-lookup go-env-empty "x")
nil)
(go-eval-test
"env: extend then lookup"
(go-env-lookup (go-env-extend go-env-empty "x" 42) "x")
42)
;; ── literals ────────────────────────────────────────────────────
(go-eval-test "lit: 42 → 42" (gtev go-env-empty "42") 42)
(go-eval-test "lit: 0 → 0" (gtev go-env-empty "0") 0)
(go-eval-test "lit: 0xFF → 255" (gtev go-env-empty "0xFF") 255)
(go-eval-test "lit: 0b1010 → 10" (gtev go-env-empty "0b1010") 10)
(go-eval-test "lit: 0o17 → 15" (gtev go-env-empty "0o17") 15)
(go-eval-test
"lit: underscore separator 1_000 → 1000"
(gtev go-env-empty "1_000")
1000)
(go-eval-test "lit: string" (gtev go-env-empty "\"hello\"") "hello")
;; ── predeclared ─────────────────────────────────────────────────
(go-eval-test "var: true" (gtev go-env-empty "true") true)
(go-eval-test "var: false" (gtev go-env-empty "false") false)
(go-eval-test "var: nil" (gtev go-env-empty "nil") nil)
;; ── variable lookup ─────────────────────────────────────────────
(go-eval-test
"var: bound x → 5"
(go-eval (go-env-extend go-env-empty "x" 5) (go-parse "x"))
5)
(go-eval-test
"var: unbound y → :eval-error"
(gtev go-env-empty "y")
(list :eval-error :unbound "y"))
;; ── binary ops ─────────────────────────────────────────────────
(go-eval-test "binop: 1 + 2 → 3" (gtev go-env-empty "1 + 2") 3)
(go-eval-test "binop: 10 - 4 → 6" (gtev go-env-empty "10 - 4") 6)
(go-eval-test "binop: 3 * 7 → 21" (gtev go-env-empty "3 * 7") 21)
(go-eval-test "binop: 42 / 7 → 6" (gtev go-env-empty "42 / 7") 6)
(go-eval-test
"binop: 2 + 3 * 4 → 14 (prec)"
(gtev go-env-empty "2 + 3 * 4")
14)
(go-eval-test
"binop: a + b uses env"
(go-eval
(go-env-extend (go-env-extend go-env-empty "a" 3) "b" 4)
(go-parse "a + b"))
7)
(go-eval-test "binop: 1 < 2 → true" (gtev go-env-empty "1 < 2") true)
(go-eval-test "binop: 5 == 5 → true" (gtev go-env-empty "5 == 5") true)
(go-eval-test "binop: 5 != 5 → false" (gtev go-env-empty "5 != 5") false)
(go-eval-test
"binop: true && false → false"
(gtev go-env-empty "true && false")
false)
(go-eval-test
"binop: false || true → true"
(gtev go-env-empty "false || true")
true)
;; ── report ──────────────────────────────────────────────────────
(go-eval-test
"var-decl: var x = 5 — env has x=5"
(go-env-lookup
(go-eval-program go-env-empty (list (go-parse "var x = 5")))
"x")
5)
(go-eval-test
"short-decl: a, b := 3, 4 — env has both"
(let
((env (go-eval-program go-env-empty (list (go-parse "a, b := 3, 4")))))
(list (go-env-lookup env "a") (go-env-lookup env "b")))
(list 3 4))
(go-eval-test
"assign: x = 5 then x → 5"
(let
((env (go-eval-program (go-env-extend go-env-empty "x" 1) (list (go-parse "x = 5")))))
(go-env-lookup env "x"))
5)
(go-eval-test
"if: true branch evaluates"
(let
((env (go-eval-program (go-env-extend go-env-empty "x" 0) (list (go-parse "if true { x = 1 }")))))
(go-env-lookup env "x"))
1)
(go-eval-test
"if-else: false → else branch"
(let
((env (go-eval-program (go-env-extend go-env-empty "x" 0) (list (go-parse "if false { x = 1 } else { x = 2 }")))))
(go-env-lookup env "x"))
2)
(go-eval-test
"fn: define + call — double(7) = 14"
(let
((env (go-eval-program go-env-empty (list (go-parse "func double(x int) int { return x * 2 }")))))
(go-eval env (go-parse "double(7)")))
14)
(go-eval-test
"fn: add(2, 3) = 5"
(let
((env (go-eval-program go-env-empty (list (go-parse "func add(x, y int) int { return x + y }")))))
(go-eval env (go-parse "add(2, 3)")))
5)
(go-eval-test
"fn: recursive fib(5) = 5"
(let
((env (go-eval-program go-env-empty (list (go-parse "func fib(n int) int { if n < 2 { return n } return fib(n-1) + fib(n-2) }")))))
(go-eval env (go-parse "fib(5)")))
5)
(go-eval-test
"for: count to 10 with sum"
(let
((env (go-eval-program go-env-empty (list (go-parse "var sum = 0") (go-parse "for i := 0; i < 10; i++ { sum = sum + i }")))))
(go-env-lookup env "sum"))
45)
(go-eval-test
"inc-dec: x++ updates env"
(let
((env (go-eval-program (go-env-extend go-env-empty "x" 5) (list (go-parse "x++")))))
(go-env-lookup env "x"))
6)
(go-eval-test
"inc-dec: x-- updates env"
(let
((env (go-eval-program (go-env-extend go-env-empty "x" 5) (list (go-parse "x--")))))
(go-env-lookup env "x"))
4)
(go-eval-test
"for: break exits the loop"
(let
((env (go-eval-program go-env-empty (list (go-parse "var i = 0") (go-parse "for i < 100 { if i == 5 { break } ; i++ }")))))
(go-env-lookup env "i"))
5)
(go-eval-test
"for: continue skips body but runs post"
(let
((env (go-eval-program go-env-empty (list (go-parse "var sum = 0") (go-parse "for i := 0; i < 5; i++ { if i == 2 { continue } ; sum = sum + i }")))))
(go-env-lookup env "sum"))
8)
(go-eval-test
"for: infinite + break with sum"
(let
((env (go-eval-program go-env-empty (list (go-parse "var s = 0") (go-parse "var i = 1") (go-parse "for { if i > 4 { break } ; s = s + i ; i++ }")))))
(go-env-lookup env "s"))
10)
(go-eval-test
"fn: iterative factorial via for-loop"
(let
((env (go-eval-program go-env-empty (list (go-parse "func fact(n int) int { r := 1 ; for i := 2 ; i <= n ; i++ { r = r * i } ; return r }")))))
(go-eval env (go-parse "fact(5)")))
120)
(go-eval-test
"slice: []int{1,2,3} → :go-slice"
(gtev go-env-empty "[]int{1, 2, 3}")
(list :go-slice (list 1 2 3)))
(go-eval-test
"index: a[0] = 10, a[2] = 30"
(let
((env (go-eval-program go-env-empty (list (go-parse "a := []int{10, 20, 30}")))))
(list (go-eval env (go-parse "a[0]")) (go-eval env (go-parse "a[2]"))))
(list 10 30))
(go-eval-test
"index: out-of-range error"
(let
((env (go-eval-program go-env-empty (list (go-parse "a := []int{1, 2}")))))
(go-eval env (go-parse "a[5]")))
(list :eval-error :index-out-of-range 5 2))
(go-eval-test
"builtin: len(slice) = 3"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := []int{1, 2, 3}")))))
(go-eval env (go-parse "len(a)")))
3)
(go-eval-test
"builtin: len(string)"
(go-eval go-env-builtins (go-parse "len(\"hello\")"))
5)
(go-eval-test
"builtin: append(a, 4, 5)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := []int{1, 2, 3}")))))
(go-eval env (go-parse "append(a, 4, 5)")))
(list
:go-slice (list 1 2 3 4 5)))
(go-eval-test
"slice expr: a[1:3]"
(let
((env (go-eval-program go-env-empty (list (go-parse "a := []int{10, 20, 30, 40}")))))
(go-eval env (go-parse "a[1:3]")))
(list :go-slice (list 20 30)))
(go-eval-test
"slice expr: a[:2] (omitted low)"
(let
((env (go-eval-program go-env-empty (list (go-parse "a := []int{1, 2, 3, 4}")))))
(go-eval env (go-parse "a[:2]")))
(list :go-slice (list 1 2)))
(go-eval-test
"slice expr: a[2:] (omitted high)"
(let
((env (go-eval-program go-env-empty (list (go-parse "a := []int{1, 2, 3, 4}")))))
(go-eval env (go-parse "a[2:]")))
(list :go-slice (list 3 4)))
(go-eval-test
"fn: sum slice via for-loop with len + index"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := []int{1, 2, 3, 4, 5}") (go-parse "sum := 0") (go-parse "for i := 0; i < len(a); i++ { sum = sum + a[i] }")))))
(go-env-lookup env "sum"))
15)
(go-eval-test
"map: map[string]int{...} → :go-map"
(gtev go-env-empty "map[string]int{\"a\": 1, \"b\": 2}")
(list :go-map (list (list "a" 1) (list "b" 2))))
(go-eval-test
"map: m[\"a\"] → 1"
(let
((env (go-eval-program go-env-empty (list (go-parse "m := map[string]int{\"a\": 1, \"b\": 2}")))))
(go-eval env (go-parse "m[\"a\"]")))
1)
(go-eval-test
"map: missing key → nil (v0 stand-in for zero value)"
(let
((env (go-eval-program go-env-empty (list (go-parse "m := map[string]int{\"a\": 1}")))))
(go-eval env (go-parse "m[\"missing\"]")))
nil)
(go-eval-test
"map: len(m) = 2"
(let
((env (go-eval-program go-env-builtins (list (go-parse "m := map[string]int{\"a\": 1, \"b\": 2}")))))
(go-eval env (go-parse "len(m)")))
2)
(go-eval-test
"map: index-assign updates existing key"
(let
((env (go-eval-program go-env-empty (list (go-parse "m := map[string]int{\"a\": 1}") (go-parse "m[\"a\"] = 99")))))
(go-eval env (go-parse "m[\"a\"]")))
99)
(go-eval-test
"map: index-assign adds new key"
(let
((env (go-eval-program go-env-empty (list (go-parse "m := map[string]int{}") (go-parse "m[\"new\"] = 7")))))
(go-eval env (go-parse "m[\"new\"]")))
7)
(go-eval-test
"slice: index-assign a[0] = 99"
(let
((env (go-eval-program go-env-empty (list (go-parse "a := []int{10, 20, 30}") (go-parse "a[0] = 99")))))
(go-eval env (go-parse "a[0]")))
99)
(go-eval-test
"map: word count via loop"
(let
((env (go-eval-program go-env-builtins (list (go-parse "words := []string{\"a\", \"b\", \"a\", \"c\", \"a\"}") (go-parse "counts := map[string]int{}") (go-parse "for i := 0; i < len(words); i++ { counts[words[i]] = counts[words[i]] + 1 }")))))
(go-eval env (go-parse "counts[\"a\"]")))
3)
(go-eval-test
"type-decl: registers struct field names"
(go-env-lookup
(go-eval-program
go-env-empty
(list (go-parse "type Point struct { x, y int }")))
"Point")
(list :go-struct-type (list "x" "y")))
(go-eval-test
"struct: positional composite Point{1, 2}"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }")))))
(go-eval env (go-parse "Point{1, 2}")))
(list
:go-struct "Point"
(list (list "x" 1) (list "y" 2))))
(go-eval-test
"struct: keyed composite Point{x: 5, y: 10}"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }")))))
(go-eval env (go-parse "Point{x: 5, y: 10}")))
(list
:go-struct "Point"
(list (list "x" 5) (list "y" 10))))
(go-eval-test
"struct: selector p.x = 1"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "p := Point{1, 2}")))))
(go-eval env (go-parse "p.x")))
1)
(go-eval-test
"struct: selector p.y = 2"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "p := Point{1, 2}")))))
(go-eval env (go-parse "p.y")))
2)
(go-eval-test
"struct: selector-assign p.x = 99"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "p := Point{1, 2}") (go-parse "p.x = 99")))))
(go-eval env (go-parse "p.x")))
99)
(go-eval-test
"struct: positional arity-mismatch"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }")))))
(go-eval env (go-parse "Point{1}")))
(list :eval-error :struct-arity-mismatch "Point" 2 1))
(go-eval-test
"struct: function takes/returns struct"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "func add(a, b Point) Point { return Point{a.x + b.x, a.y + b.y} }")))))
(go-eval env (go-parse "add(Point{1, 2}, Point{3, 4})")))
(list
:go-struct "Point"
(list (list "x" 4) (list "y" 6))))
(go-eval-test
"method: p.Sum() = 3"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "func (p Point) Sum() int { return p.x + p.y }") (go-parse "p := Point{1, 2}")))))
(go-eval env (go-parse "p.Sum()")))
3)
(go-eval-test
"method: p.Add(5) = 6 (with arg)"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "func (p Point) Add(d int) int { return p.x + d }") (go-parse "p := Point{1, 2}")))))
(go-eval env (go-parse "p.Add(5)")))
6)
(go-eval-test
"method: pointer receiver works value-style in v0"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "func (p *Point) GetX() int { return p.x }") (go-parse "p := Point{1, 2}")))))
(go-eval env (go-parse "p.GetX()")))
1)
(go-eval-test
"method: missing method → :no-such-method"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Point struct { x, y int }") (go-parse "p := Point{1, 2}")))))
(go-eval env (go-parse "p.Ghost()")))
(list :eval-error :no-such-method "Point" "Ghost"))
(go-eval-test
"unary: -x"
(go-eval (go-env-extend go-env-empty "x" 5) (go-parse "-x"))
-5)
(go-eval-test "unary: !true → false" (gtev go-env-empty "!true") false)
(go-eval-test "unary: !false → true" (gtev go-env-empty "!false") true)
(go-eval-test
"unary: -3 + 5 = 2 (unary binds tighter)"
(gtev go-env-empty "-3 + 5")
2)
(go-eval-test
"e2e: count odd numbers in 1..10 = 5"
(let
((env (go-eval-program go-env-empty
(list (go-parse "odds := 0")
(go-parse "i := 1")
(go-parse "for i <= 10 { odds = odds + 1; i = i + 2 }")))))
(go-env-lookup env "odds"))
5)
(go-eval-test
"e2e: factorial via method on Counter"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Acc struct { v int }") (go-parse "func (a Acc) Mul(x int) Acc { return Acc{a.v * x} }") (go-parse "a := Acc{1}") (go-parse "for i := 1; i <= 5; i++ { a = a.Mul(i) }")))))
(go-eval env (go-parse "a.v")))
120)
(go-eval-test
"e2e: recursive fibonacci fib(10) = 55"
(let
((env (go-eval-program go-env-empty (list (go-parse "func fib(n int) int { if n < 2 { return n } return fib(n-1) + fib(n-2) }")))))
(go-eval env (go-parse "fib(10)")))
55)
(go-eval-test
"e2e: struct + method + iterative loop"
(let
((env (go-eval-program go-env-empty (list (go-parse "type Counter struct { n int }") (go-parse "func (c Counter) Bump() Counter { return Counter{c.n + 1} }") (go-parse "c := Counter{0}") (go-parse "for i := 0; i < 7; i++ { c = c.Bump() }")))))
(go-eval env (go-parse "c.n")))
7)
(go-eval-test
"e2e: linear search returns index"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func find(a []int, x int) int { for i := 0; i < len(a); i++ { if a[i] == x { return i } } ; return -1 }") (go-parse "nums := []int{10, 20, 30, 40}")))))
(go-eval env (go-parse "find(nums, 30)")))
2)
(go-eval-test
"e2e: linear search returns -1 when missing"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func find(a []int, x int) int { for i := 0; i < len(a); i++ { if a[i] == x { return i } } ; return -1 }") (go-parse "nums := []int{10, 20, 30}")))))
(go-eval env (go-parse "find(nums, 99)")))
-1)
(go-eval-test
"defer: single defer runs after surrounding fn body returns"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func push2(c chan int) { c <- 2 }") (go-parse "func run(c chan int) { defer push2(c) ; c <- 1 }") (go-parse "run(ch)") (go-parse "first := <-ch") (go-parse "second := <-ch")))))
(list (go-env-lookup env "first") (go-env-lookup env "second")))
(list 1 2))
(go-eval-test
"defer: multiple defers run LIFO"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func p2(c chan int) { c <- 2 }") (go-parse "func p3(c chan int) { c <- 3 }") (go-parse "func run(c chan int) { defer p2(c) ; defer p3(c) ; c <- 1 }") (go-parse "run(ch)") (go-parse "a := <-ch") (go-parse "b := <-ch") (go-parse "d := <-ch")))))
(list
(go-env-lookup env "a")
(go-env-lookup env "b")
(go-env-lookup env "d")))
(list 1 3 2))
(go-eval-test
"defer: arguments are evaluated at defer-time (not call-time)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func pushN(c chan int, v int) { c <- v }") (go-parse "func run(c chan int) { x := 7 ; defer pushN(c, x) ; x = 99 }") (go-parse "run(ch)") (go-parse "got := <-ch")))))
(go-env-lookup env "got"))
7)
(go-eval-test
"defer: runs even when fn returns early via return"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func note(c chan int) { c <- 42 }") (go-parse "func run(c chan int) int { defer note(c) ; return 1 }") (go-parse "r := run(ch)") (go-parse "n := <-ch")))))
(list (go-env-lookup env "r") (go-env-lookup env "n")))
(list 1 42))
(go-eval-test
"defer: stack is frame-local — outer defers don't run on inner return"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func push1(c chan int) { c <- 1 }") (go-parse "func push2(c chan int) { c <- 2 }") (go-parse "func inner(c chan int) { defer push2(c) }") (go-parse "func outer(c chan int) { defer push1(c) ; inner(c) }") (go-parse "outer(ch)") (go-parse "a := <-ch") (go-parse "b := <-ch")))))
(list (go-env-lookup env "a") (go-env-lookup env "b")))
(list 2 1))
(go-eval-test
"defer: in a loop, all defers fire on fn return (not loop iter)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func pushI(c chan int, v int) { c <- v }") (go-parse "func loop(c chan int) { for i := 0; i < 4; i = i + 1 { defer pushI(c, i) } }") (go-parse "loop(ch)") (go-parse "a := <-ch") (go-parse "b := <-ch") (go-parse "d := <-ch") (go-parse "e := <-ch")))))
(list
(go-env-lookup env "a")
(go-env-lookup env "b")
(go-env-lookup env "d")
(go-env-lookup env "e")))
(list 3 2 1 0))
(go-eval-test
"panic: uncaught panic surfaces as (:go-panic V) from program"
(let
((r (go-eval-program go-env-builtins (list (go-parse "panic(\"boom\")")))))
r)
(list :go-panic "boom"))
(go-eval-test
"panic inside fn: surfaces from fn call too"
(let
((r (go-eval-program go-env-builtins (list (go-parse "func boom() { panic(\"oops\") }") (go-parse "boom()")))))
r)
(list :go-panic "oops"))
(go-eval-test
"recover: deferred recover swallows panic, fn returns normally"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func safe() { defer recover() ; panic(\"x\") }") (go-parse "safe()") (go-parse "after := 42")))))
(go-env-lookup env "after"))
42)
(go-eval-test
"recover: deferred recover captures the panic value"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func grab(c chan int) { r := recover() ; c <- r }") (go-parse "func safe(c chan int) { defer grab(c) ; panic(99) }") (go-parse "safe(ch)") (go-parse "got := <-ch")))))
(go-env-lookup env "got"))
99)
(go-eval-test
"panic: propagates through intermediate frames without defers"
(let
((r (go-eval-program go-env-builtins (list (go-parse "func inner() { panic(\"deep\") }") (go-parse "func middle() { inner() }") (go-parse "func outer() { middle() }") (go-parse "outer()")))))
r)
(list :go-panic "deep"))
(go-eval-test
"recover: middle-frame defer catches panic from deeper frame"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func inner() { panic(\"deep\") }") (go-parse "func middle() { inner() }") (go-parse "func outer() { defer recover() ; middle() }") (go-parse "outer()") (go-parse "after := 7")))))
(go-env-lookup env "after"))
7)
(go-eval-test
"goroutine panic: surfaces synchronously back to spawner (v0)"
(let
((r (go-eval-program go-env-builtins (list (go-parse "func boom() { panic(\"goroutine\") }") (go-parse "go boom()")))))
r)
(list :go-panic "goroutine"))
(go-eval-test
"goroutine panic + spawner-defer-recover catches it (v0 sync)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func boom() { panic(\"g\") }") (go-parse "func main() { defer recover() ; go boom() }") (go-parse "main()") (go-parse "after := 11")))))
(go-env-lookup env "after"))
11)
(go-eval-test
"defer order with recover: all defers run, recover catches"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func p2(c chan int) { c <- 2 }") (go-parse "func rec(c chan int) { recover() ; c <- 7 }") (go-parse "func safe(c chan int) { defer p2(c) ; defer rec(c) ; panic(0) }") (go-parse "safe(ch)") (go-parse "a := <-ch") (go-parse "b := <-ch")))))
(list (go-env-lookup env "a") (go-env-lookup env "b")))
(list 7 2))
(go-eval-test
"defer fires when fn panics (not just normal return)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func note(c chan int) { c <- 5 }") (go-parse "func safe(c chan int) { defer note(c) ; defer recover() ; panic(\"!\") }") (go-parse "safe(ch)") (go-parse "got := <-ch")))))
(go-env-lookup env "got"))
5)
(go-eval-test
"panic with nil value: still surfaces as (:go-panic nil)"
(let
((r (go-eval-program go-env-builtins (list (go-parse "panic(nil)")))))
r)
(list :go-panic nil))
(go-eval-test
"panic inside loop body: aborts loop + propagates"
(let
((r (go-eval-program go-env-builtins (list (go-parse "func find(x int) { for i := 0; i < 10; i = i + 1 { if i == x { panic(i) } } }") (go-parse "find(3)")))))
r)
(list :go-panic 3))
(go-eval-test
"defer in panicking fn: still runs even though no return reached"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func mark(c chan int) { c <- 8 }") (go-parse "func inner(c chan int) { defer mark(c) ; panic(\"!\") }") (go-parse "func outer(c chan int) { defer recover() ; inner(c) }") (go-parse "outer(ch)") (go-parse "got := <-ch")))))
(go-env-lookup env "got"))
8)
(go-eval-test
"defer fn captures args by value, not reference (re-confirm)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "func pushN(c chan int, v int) { c <- v }") (go-parse "func run(c chan int) { defer recover() ; x := 5 ; defer pushN(c, x) ; x = 999 ; panic(\"k\") }") (go-parse "run(ch)") (go-parse "got := <-ch")))))
(go-env-lookup env "got"))
5)
(go-eval-test
"generic: identity Id[T any](x) returns x at runtime"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func Id[T any](x T) T { return x }") (go-parse "r := Id(42)")))))
(go-env-lookup env "r"))
42)
(go-eval-test
"generic: Id works with strings (type erasure)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func Id[T any](x T) T { return x }") (go-parse "r := Id(\"hi\")")))))
(go-env-lookup env "r"))
"hi")
(go-eval-test
"generic: Map[T, U] over []int with double — produces []int"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func Map[T any, U any](xs []T, f func(T) U) []U { r := []int{} ; for i, v := range xs { r = append(r, f(v)) } ; return r }") (go-parse "func dbl(x int) int { return x * 2 }") (go-parse "out := Map([]int{1, 2, 3}, dbl)") (go-parse "first := out[0]") (go-parse "second := out[1]") (go-parse "third := out[2]")))))
(list
(go-env-lookup env "first")
(go-env-lookup env "second")
(go-env-lookup env "third")))
(list 2 4 6))
(go-eval-test
"generic: Filter[T any] keeps elements satisfying predicate"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func Filter[T any](xs []T, p func(T) bool) []T { r := []int{} ; for i, v := range xs { if p(v) { r = append(r, v) } } ; return r }") (go-parse "func gt3(x int) bool { return x > 3 }") (go-parse "out := Filter([]int{1, 2, 3, 4, 5, 6}, gt3)") (go-parse "n := len(out)") (go-parse "first := out[0]") (go-parse "last := out[2]")))))
(list
(go-env-lookup env "n")
(go-env-lookup env "first")
(go-env-lookup env "last")))
(list 3 4 6))
(go-eval-test
"generic: Reduce[T, U] sums []int with seed 0"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func Reduce[T any, U any](xs []T, seed U, f func(U, T) U) U { acc := seed ; for i, v := range xs { acc = f(acc, v) } ; return acc }") (go-parse "func add(a int, b int) int { return a + b }") (go-parse "total := Reduce([]int{10, 20, 30, 40}, 0, add)")))))
(go-env-lookup env "total"))
100)
(go-eval-test
"generic: First[T any]([]T) T returns element zero"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func First[T any](xs []T) T { return xs[0] }") (go-parse "v := First([]int{42, 99})")))))
(go-env-lookup env "v"))
42)
(define
go-eval-test-summary
(str "eval " go-eval-test-pass "/" go-eval-test-count))

339
lib/go/tests/lex.sx
View File

@@ -1,339 +0,0 @@
;; Go tokenizer tests.
(define go-test-count 0)
(define go-test-pass 0)
(define go-test-fails (list))
(define gtok-type (fn (t) (get t :type)))
(define gtok-value (fn (t) (get t :value)))
(define tok-types (fn (src) (map gtok-type (go-tokenize src))))
(define tok-values (fn (src) (map gtok-value (go-tokenize src))))
(define
go-test
(fn
(name actual expected)
(set! go-test-count (+ go-test-count 1))
(if
(= actual expected)
(set! go-test-pass (+ go-test-pass 1))
(append! go-test-fails {:name name :expected expected :actual actual}))))
;; ── empty / whitespace ────────────────────────────────────────────
(go-test "empty source" (tok-types "") (list "eof"))
(go-test "spaces only" (tok-types " ") (list "eof"))
(go-test "tabs only" (tok-types "\t\t") (list "eof"))
(go-test
"newline only — no prior token, no ASI"
(tok-types "\n")
(list "eof"))
;; ── identifiers ───────────────────────────────────────────────────
(go-test "ident: simple" (tok-values "foo") (list "foo" "\n" nil))
(go-test
"ident: underscore prefix"
(tok-values "_bar")
(list "_bar" "\n" nil))
(go-test "ident: mixed case" (tok-values "fooBar") (list "fooBar" "\n" nil))
(go-test "ident: with digits" (tok-values "x123") (list "x123" "\n" nil))
(go-test "ident: type tag" (tok-types "foo") (list "ident" "semi" "eof"))
;; ── keywords (all 25) ─────────────────────────────────────────────
(go-test "kw: break" (tok-types "break") (list "keyword" "semi" "eof"))
(go-test "kw: case" (tok-types "case") (list "keyword" "eof"))
(go-test "kw: chan" (tok-types "chan") (list "keyword" "eof"))
(go-test "kw: const" (tok-types "const") (list "keyword" "eof"))
(go-test "kw: continue" (tok-types "continue") (list "keyword" "semi" "eof"))
(go-test "kw: default" (tok-types "default") (list "keyword" "eof"))
(go-test "kw: defer" (tok-types "defer") (list "keyword" "eof"))
(go-test "kw: else" (tok-types "else") (list "keyword" "eof"))
(go-test
"kw: fallthrough"
(tok-types "fallthrough")
(list "keyword" "semi" "eof"))
(go-test "kw: for" (tok-types "for") (list "keyword" "eof"))
(go-test "kw: func" (tok-types "func") (list "keyword" "eof"))
(go-test "kw: go" (tok-types "go") (list "keyword" "eof"))
(go-test "kw: goto" (tok-types "goto") (list "keyword" "eof"))
(go-test "kw: if" (tok-types "if") (list "keyword" "eof"))
(go-test "kw: import" (tok-types "import") (list "keyword" "eof"))
(go-test "kw: interface" (tok-types "interface") (list "keyword" "eof"))
(go-test "kw: map" (tok-types "map") (list "keyword" "eof"))
(go-test "kw: package" (tok-types "package") (list "keyword" "eof"))
(go-test "kw: range" (tok-types "range") (list "keyword" "eof"))
(go-test "kw: return" (tok-types "return") (list "keyword" "semi" "eof"))
(go-test "kw: select" (tok-types "select") (list "keyword" "eof"))
(go-test "kw: struct" (tok-types "struct") (list "keyword" "eof"))
(go-test "kw: switch" (tok-types "switch") (list "keyword" "eof"))
(go-test "kw: type" (tok-types "type") (list "keyword" "eof"))
(go-test "kw: var" (tok-types "var") (list "keyword" "eof"))
;; ── integer literals — decimal ────────────────────────────────────
(go-test "int: zero" (tok-values "0") (list "0" "\n" nil))
(go-test "int: small" (tok-values "42") (list "42" "\n" nil))
(go-test "int: bigger" (tok-values "123456") (list "123456" "\n" nil))
(go-test "int: type" (tok-types "42") (list "int" "semi" "eof"))
;; ── integer literals — prefixed + underscores ─────────────────────
(go-test "int: hex lower" (tok-values "0x1f") (list "0x1f" "\n" nil))
(go-test "int: hex upper-x" (tok-values "0X1F") (list "0X1F" "\n" nil))
(go-test
"int: hex mixed digits"
(tok-values "0xDEADbeef")
(list "0xDEADbeef" "\n" nil))
(go-test "int: binary lower" (tok-values "0b1010") (list "0b1010" "\n" nil))
(go-test "int: binary upper" (tok-values "0B1101") (list "0B1101" "\n" nil))
(go-test "int: octal modern" (tok-values "0o755") (list "0o755" "\n" nil))
(go-test "int: octal upper" (tok-values "0O17") (list "0O17" "\n" nil))
(go-test "int: octal legacy" (tok-values "0755") (list "0755" "\n" nil))
(go-test "int: hex type" (tok-types "0x1F") (list "int" "semi" "eof"))
(go-test "int: bin type" (tok-types "0b101") (list "int" "semi" "eof"))
(go-test
"int: dec underscore"
(tok-values "1_000_000")
(list "1_000_000" "\n" nil))
(go-test
"int: hex underscore"
(tok-values "0xDEAD_BEEF")
(list "0xDEAD_BEEF" "\n" nil))
(go-test
"int: bin underscore"
(tok-values "0b1010_1010")
(list "0b1010_1010" "\n" nil))
(go-test
"int: hex then +"
(tok-types "0xFF + 1")
(list "int" "op" "int" "semi" "eof"))
;; ── float literals (Go spec § Floating-point literals) ────────────
(go-test "float: simple" (tok-values "3.14") (list "3.14" "\n" nil))
(go-test "float: trailing dot" (tok-values "1.") (list "1." "\n" nil))
(go-test "float: leading dot" (tok-values ".5") (list ".5" "\n" nil))
(go-test "float: exp lower" (tok-values "1e10") (list "1e10" "\n" nil))
(go-test "float: exp upper" (tok-values "1E5") (list "1E5" "\n" nil))
(go-test "float: exp negative" (tok-values "1.5e-3") (list "1.5e-3" "\n" nil))
(go-test "float: exp positive" (tok-values "2.0e+2") (list "2.0e+2" "\n" nil))
(go-test "float: zero" (tok-values "0.0") (list "0.0" "\n" nil))
(go-test "float: dot-only-exp" (tok-values ".5e2") (list ".5e2" "\n" nil))
(go-test "float: underscore" (tok-values "1_000.5") (list "1_000.5" "\n" nil))
(go-test "float: type" (tok-types "3.14") (list "float" "semi" "eof"))
(go-test
"float: trailing dot type"
(tok-types "1.")
(list "float" "semi" "eof"))
(go-test
"float: exp-only type"
(tok-types "1e10")
(list "float" "semi" "eof"))
(go-test
"float: then +"
(tok-types "3.14 + 0.1")
(list "float" "op" "float" "semi" "eof"))
(go-test
"float: greedy 1.method"
(tok-types "1.method")
(list "float" "ident" "semi" "eof"))
;; ── imaginary literals (Go spec § Imaginary literals) ─────────────
(go-test "imag: int i" (tok-values "2i") (list "2i" "\n" nil))
(go-test "imag: float i" (tok-values "3.14i") (list "3.14i" "\n" nil))
(go-test "imag: exp i" (tok-values "1e2i") (list "1e2i" "\n" nil))
(go-test "imag: int-i type" (tok-types "2i") (list "imag" "semi" "eof"))
(go-test "imag: float-i type" (tok-types "3.14i") (list "imag" "semi" "eof"))
(go-test "imag: ASI at newline" (tok-types "1i\n") (list "imag" "semi" "eof"))
;; ── string literals ───────────────────────────────────────────────
(go-test "raw: simple" (tok-values "`hello`") (list "hello" "\n" nil))
(go-test "raw: empty" (tok-values "``") (list "" "\n" nil))
(go-test
"raw: backslash literal — no escape processing"
(tok-values "`a\\nb`")
(list "a\\nb" "\n" nil))
(go-test
"raw: multi-line"
(tok-values "`line1\nline2`")
(list "line1\nline2" "\n" nil))
(go-test
"raw: contains double-quote"
(tok-values "`say \"hi\"`")
(list "say \"hi\"" "\n" nil))
(go-test
"raw: CR stripped (Go spec § String literals)"
(tok-values "`a\r\nb`")
(list "a\nb" "\n" nil))
(go-test "raw: type" (tok-types "`x`") (list "string" "semi" "eof"))
;; ── rune literals ─────────────────────────────────────────────────
(go-test
"raw: then +"
(tok-types "`x` + 1")
(list "string" "op" "int" "semi" "eof"))
(go-test
"raw: ASI at newline after"
(tok-types "`abc`\n")
(list "string" "semi" "eof"))
(go-test "string: empty" (tok-values "\"\"") (list "" "\n" nil))
;; ── comments ──────────────────────────────────────────────────────
(go-test "string: hello" (tok-values "\"hello\"") (list "hello" "\n" nil))
(go-test
"string: with space"
(tok-values "\"hi there\"")
(list "hi there" "\n" nil))
(go-test "string: escape n" (tok-values "\"a\\nb\"") (list "a\nb" "\n" nil))
(go-test "string: escape quote" (tok-values "\"a\\\"b\"") (list "a\"b" "\n" nil))
(go-test
"string: escape backslash"
(tok-values "\"a\\\\b\"")
(list "a\\b" "\n" nil))
;; ── operators & punctuation ───────────────────────────────────────
(go-test "string: type" (tok-types "\"x\"") (list "string" "semi" "eof"))
(go-test "rune: simple" (tok-values "'a'") (list "a" "\n" nil))
(go-test "rune: escape" (tok-values "'\\n'") (list "\n" "\n" nil))
(go-test "rune: type" (tok-types "'a'") (list "rune" "semi" "eof"))
(go-test "line comment" (tok-types "// ignored") (list "eof"))
(go-test "line comment then code" (tok-values "// hi\nx") (list "x" "\n" nil))
(go-test "block comment" (tok-types "/* a b c */") (list "eof"))
(go-test
"block comment inline"
(tok-values "x /* mid */ y")
(list "x" "y" "\n" nil))
(go-test
"block comment with newline — ASI"
(tok-types "x /* multi\nline */ y")
(list "ident" "semi" "ident" "semi" "eof"))
;; ── automatic semicolon insertion (Go spec § Semicolons) ──────────
(go-test
"ops: arithmetic"
(tok-values "+ - * / %")
(list "+" "-" "*" "/" "%" nil))
(go-test
"ops: comparison"
(tok-values "== != < > <= >=")
(list "==" "!=" "<" ">" "<=" ">=" nil))
(go-test "ops: logical" (tok-values "&& || !") (list "&&" "||" "!" nil))
(go-test
"ops: assign forms"
(tok-values "= := += -=")
(list "=" ":=" "+=" "-=" nil))
(go-test "ops: channel arrow" (tok-values "<- chan") (list "<-" "chan" nil))
(go-test "ops: incdec ASI" (tok-types "++ --") (list "op" "op" "semi" "eof"))
(go-test "ops: ellipsis" (tok-values "...") (list "..." nil))
(go-test
"punct: all brackets"
(tok-values "( ) { } [ ]")
(list "(" ")" "{" "}" "[" "]" "\n" nil))
(go-test
"punct: comma colon dot"
(tok-values ", : .")
(list "," ":" "." nil))
(go-test
"op-audit: tilde (generics type-set)"
(tok-values "~int")
(list "~" "int" "\n" nil))
(go-test
"op-audit: all arithmetic + assignment"
(tok-values "+ - * / % += -= *= /= %=")
(list "+" "-" "*" "/" "%" "+=" "-=" "*=" "/=" "%=" nil))
(go-test
"op-audit: all bitwise + assignment"
(tok-values "& | ^ << >> &^ &= |= ^= <<= >>= &^=")
(list "&" "|" "^" "<<" ">>" "&^" "&=" "|=" "^=" "<<=" ">>=" "&^=" nil))
(go-test
"op-audit: all comparison + logical"
(tok-values "== != < > <= >= && || !")
(list "==" "!=" "<" ">" "<=" ">=" "&&" "||" "!" nil))
(go-test
"op-audit: assign / decls / arrows / variadic / inc-dec"
(tok-values "= := <- ++ -- ...")
(list "=" ":=" "<-" "++" "--" "..." nil))
;; ── short program ─────────────────────────────────────────────────
(go-test
"op-audit: punctuation"
(tok-values "( ) [ ] { } , . :")
(list "(" ")" "[" "]" "{" "}" "," "." ":" nil))
(go-test
"ASI: after ident at newline"
(tok-types "x\ny")
(list "ident" "semi" "ident" "semi" "eof"))
(go-test "ASI: after int" (tok-types "42\n") (list "int" "semi" "eof"))
;; ── report ────────────────────────────────────────────────────────
(go-test "ASI: after float" (tok-types "3.14\n") (list "float" "semi" "eof"))
(go-test
"ASI: after string"
(tok-types "\"hi\"\n")
(list "string" "semi" "eof"))
(go-test "ASI: after rune" (tok-types "'a'\n") (list "rune" "semi" "eof"))
(go-test
"ASI: after )"
(tok-types "f()\n")
(list "ident" "op" "op" "semi" "eof"))
(go-test
"ASI: after ]"
(tok-types "x[0]\n")
(list "ident" "op" "int" "op" "semi" "eof"))
(go-test "ASI: after }" (tok-types "{}\n") (list "op" "op" "semi" "eof"))
(go-test "ASI: after ++" (tok-types "i++\n") (list "ident" "op" "semi" "eof"))
(go-test
"ASI: NOT after +"
(tok-types "x +\ny")
(list "ident" "op" "ident" "semi" "eof"))
(go-test
"ASI: NOT after ("
(tok-types "f(\nx)")
(list "ident" "op" "ident" "op" "semi" "eof"))
(go-test
"ASI: blank lines collapse — single semi only"
(tok-types "x\n\n\ny")
(list "ident" "semi" "ident" "semi" "eof"))
(go-test
"ASI: at EOF after ident"
(tok-types "x")
(list "ident" "semi" "eof"))
(go-test
"ASI: explicit semi"
(tok-types "x;y")
(list "ident" "semi" "ident" "semi" "eof"))
(go-test
"short-decl: x := 42 (types)"
(tok-types "x := 42")
(list "ident" "op" "int" "semi" "eof"))
(go-test
"short-decl: x := 42 (values)"
(tok-values "x := 42")
(list "x" ":=" "42" "\n" nil))
(go-test
"func decl shape"
(tok-types "func foo() int { return 0 }")
(list
"keyword"
"ident"
"op"
"op"
"ident"
"op"
"keyword"
"int"
"op"
"semi"
"eof"))
(define go-lex-test-summary (str "lex " go-test-pass "/" go-test-count))

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lib/go/tests/parse.sx
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lib/go/tests/runtime.sx
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@@ -1,311 +0,0 @@
;; Go runtime tests — goroutines + channels.
(define go-rt-test-count 0)
(define go-rt-test-pass 0)
(define go-rt-test-fails (list))
(define
go-rt-test
(fn
(name actual expected)
(set! go-rt-test-count (+ go-rt-test-count 1))
(if
(= actual expected)
(set! go-rt-test-pass (+ go-rt-test-pass 1))
(append! go-rt-test-fails {:name name :expected expected :actual actual}))))
;; ── channel primitives (direct API, no source parsing) ─────────
(go-rt-test "chan: make returns a chan value" (go-chan? (go-make-chan)) true)
(go-rt-test
"chan: distinct channels have distinct identity"
(= (go-make-chan) (go-make-chan))
false)
(go-rt-test
"chan: send + recv round-trip"
(let
((ch (go-make-chan)))
(go-chan-send! ch 42)
(go-chan-recv! ch))
42)
(go-rt-test
"chan: empty recv returns :empty marker"
(let ((ch (go-make-chan))) (go-chan-recv! ch))
:empty)
(go-rt-test
"chan: FIFO order"
(let
((ch (go-make-chan)))
(go-chan-send! ch 1)
(go-chan-send! ch 2)
(go-chan-send! ch 3)
(list (go-chan-recv! ch) (go-chan-recv! ch) (go-chan-recv! ch)))
(list 1 2 3))
(go-rt-test
"chan: closed? flag flips"
(let
((ch (go-make-chan)))
(let
((before (go-chan-closed? ch)))
(go-chan-close! ch)
(list before (go-chan-closed? ch))))
(list false true))
;; ── source-level: make / send / recv / close ───────────────────
(go-rt-test
"src: ch := make() returns chan"
(go-chan?
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()")))))
(go-env-lookup env "ch")))
true)
(go-rt-test
"src: ch <- 5 then <-ch = 5"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "ch <- 5")))))
(go-eval env (go-parse "<-ch")))
5)
(go-rt-test
"src: go + chan ping-pong"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func sender(c chan int) { c <- 99 }") (go-parse "ch := make()") (go-parse "go sender(ch)")))))
(go-eval env (go-parse "<-ch")))
99)
(go-rt-test
"src: close(ch) marks it closed"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "close(ch)")))))
(go-chan-closed? (go-env-lookup env "ch")))
true)
(go-rt-test
"src: multiple goroutines feeding one channel"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func push(c chan int, v int) { c <- v }") (go-parse "ch := make()") (go-parse "go push(ch, 1)") (go-parse "go push(ch, 2)") (go-parse "go push(ch, 3)")))))
(list
(go-eval env (go-parse "<-ch"))
(go-eval env (go-parse "<-ch"))
(go-eval env (go-parse "<-ch"))))
(list 1 2 3))
(go-rt-test
"src: worker pattern — send sum back"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func work(c chan int, a int, b int) { c <- a + b }") (go-parse "result := make()") (go-parse "go work(result, 7, 13)")))))
(go-eval env (go-parse "<-result")))
20)
;; ── report ─────────────────────────────────────────────────────
(go-rt-test
"select: default runs when no case is ready"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "x := 0") (go-parse "select { case <-ch: x = 1 ; default: x = 99 }")))))
(go-env-lookup env "x"))
99)
(go-rt-test
"select: recv case fires when ready"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "ch <- 7") (go-parse "x := 0") (go-parse "select { case <-ch: x = 1 ; default: x = 99 }")))))
(go-env-lookup env "x"))
1)
(go-rt-test
"select: recv-into-var binds the value"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "ch <- 42") (go-parse "select { case v := <-ch: v }")))))
(go-env-lookup env "v"))
42)
(go-rt-test
"select: send case (always ready in v0)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "select { case ch <- 5: }")))))
(go-chan-len (go-env-lookup env "ch")))
1)
(go-rt-test
"select: picks first ready case"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := make()") (go-parse "b := make()") (go-parse "b <- 100") (go-parse "x := 0") (go-parse "select { case <-a: x = 1 ; case <-b: x = 2 ; default: x = 99 }")))))
(go-env-lookup env "x"))
2)
(go-rt-test
"select: no default + nothing ready → blocked error"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()")))))
(go-eval-stmt env (go-parse "select { case <-ch: }") (list)))
(list :eval-error :select-blocked-no-default))
(go-rt-test
"select: combined with goroutine fan-in"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func push(c chan int, v int) { c <- v }") (go-parse "ch := make()") (go-parse "go push(ch, 7)") (go-parse "result := 0") (go-parse "select { case v := <-ch: result = v ; default: result = -1 }")))))
(go-env-lookup env "result"))
7)
(go-rt-test
"range: slice — sum of 1..5"
(let
((env (go-eval-program go-env-builtins (list (go-parse "var sum = 0") (go-parse "a := []int{1, 2, 3, 4, 5}") (go-parse "for i, v := range a { sum = sum + v }")))))
(go-env-lookup env "sum"))
15)
(go-rt-test
"range: slice — key only (index)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "var s = 0") (go-parse "a := []int{10, 20, 30}") (go-parse "for i := range a { s = s + i }")))))
(go-env-lookup env "s"))
3)
(go-rt-test
"range: map — sum values"
(let
((env (go-eval-program go-env-builtins (list (go-parse "var s = 0") (go-parse "m := map[string]int{\"a\": 1, \"b\": 2, \"c\": 3}") (go-parse "for k, v := range m { s = s + v }")))))
(go-env-lookup env "s"))
6)
(go-rt-test
"range: channel — collect all buffered"
(let
((env (go-eval-program go-env-builtins (list (go-parse "ch := make()") (go-parse "ch <- 1") (go-parse "ch <- 2") (go-parse "ch <- 3") (go-parse "var sum = 0") (go-parse "for v := range ch { sum = sum + v }")))))
(go-env-lookup env "sum"))
6)
(go-rt-test
"range: slice with break exits early"
(let
((env (go-eval-program go-env-builtins (list (go-parse "var s = 0") (go-parse "a := []int{1, 2, 3, 4, 5}") (go-parse "for i, v := range a { if v == 3 { break } ; s = s + v }")))))
(go-env-lookup env "s"))
3)
(go-rt-test
"range: slice with continue skips an element"
(let
((env (go-eval-program go-env-builtins (list (go-parse "var s = 0") (go-parse "a := []int{1, 2, 3, 4, 5}") (go-parse "for i, v := range a { if v == 3 { continue } ; s = s + v }")))))
(go-env-lookup env "s"))
12)
(go-rt-test
"range: empty slice — body never runs"
(let
((env (go-eval-program go-env-builtins (list (go-parse "var s = 0") (go-parse "a := []int{}") (go-parse "for v := range a { s = s + v }")))))
(go-env-lookup env "s"))
0)
(go-rt-test
"range: chan + goroutine producer"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func emit(c chan int) { c <- 10 ; c <- 20 ; c <- 30 }") (go-parse "ch := make()") (go-parse "go emit(ch)") (go-parse "var total = 0") (go-parse "for v := range ch { total = total + v }")))))
(go-env-lookup env "total"))
60)
(go-rt-test
"timer: after(d) returns a ready channel (v0 stub)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "t := after(100)")))))
(go-chan-len (go-env-lookup env "t")))
1)
(go-rt-test
"select with timer (after) — buffered value wins, timer is fallback"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func push99(c chan int) { c <- 99 }") (go-parse "c := make()") (go-parse "go push99(c)") (go-parse "t := after(0)") (go-parse "var v = 0") (go-parse "select { case x := <-c: v = x; case y := <-t: v = -1 }")))))
(go-env-lookup env "v"))
99)
(go-rt-test
"fan-in: 3 producer goroutines, main sums their values"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func send10(c chan int) { c <- 10 }") (go-parse "func send20(c chan int) { c <- 20 }") (go-parse "func send30(c chan int) { c <- 30 }") (go-parse "c := make()") (go-parse "go send10(c)") (go-parse "go send20(c)") (go-parse "go send30(c)") (go-parse "var s = 0") (go-parse "for i := 0; i < 3; i = i + 1 { v := <-c ; s = s + v }")))))
(go-env-lookup env "s"))
60)
(go-rt-test
"worker queue: range over closed buffered chan drains all jobs"
(let
((env (go-eval-program go-env-builtins (list (go-parse "jobs := make()") (go-parse "jobs <- 1") (go-parse "jobs <- 2") (go-parse "jobs <- 3") (go-parse "jobs <- 4") (go-parse "close(jobs)") (go-parse "var s = 0") (go-parse "for j := range jobs { s = s + j }")))))
(go-env-lookup env "s"))
10)
(go-rt-test
"pipeline: stage1 squares, stage2 sums via channels"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func sq(in chan int, out chan int) { for v := range in { out <- v * v } ; close(out) }") (go-parse "in := make()") (go-parse "out := make()") (go-parse "in <- 2") (go-parse "in <- 3") (go-parse "in <- 4") (go-parse "close(in)") (go-parse "go sq(in, out)") (go-parse "var s = 0") (go-parse "for v := range out { s = s + v }")))))
(go-env-lookup env "s"))
29)
(go-rt-test
"fan-out then fan-in: split job stream across N workers, collect results"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func worker(in chan int, out chan int) { for v := range in { out <- v + 100 } }") (go-parse "jobs := make()") (go-parse "results := make()") (go-parse "jobs <- 1") (go-parse "jobs <- 2") (go-parse "jobs <- 3") (go-parse "close(jobs)") (go-parse "go worker(jobs, results)") (go-parse "close(results)") (go-parse "var s = 0") (go-parse "for r := range results { s = s + r }")))))
(go-env-lookup env "s"))
306)
(go-rt-test
"select: first ready case wins (channel order = source order)"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := make()") (go-parse "b := make()") (go-parse "a <- 1") (go-parse "b <- 2") (go-parse "var v = 0") (go-parse "select { case x := <-a: v = 10; case y := <-b: v = 20 }")))))
(go-env-lookup env "v"))
10)
(go-rt-test
"select: only second case has a value, that branch executes"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := make()") (go-parse "b := make()") (go-parse "b <- 7") (go-parse "var v = 0") (go-parse "select { case x := <-a: v = -1; case y := <-b: v = y }")))))
(go-env-lookup env "v"))
7)
(go-rt-test
"select with default: no case ready → default fires"
(let
((env (go-eval-program go-env-builtins (list (go-parse "a := make()") (go-parse "b := make()") (go-parse "var v = 0") (go-parse "select { case x := <-a: v = 1; case y := <-b: v = 2; default: v = 99 }")))))
(go-env-lookup env "v"))
99)
(go-rt-test
"producer-consumer: one goroutine fills, main drains by count"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func fill5(c chan int) { c <- 1 ; c <- 2 ; c <- 3 ; c <- 4 ; c <- 5 }") (go-parse "c := make()") (go-parse "go fill5(c)") (go-parse "var s = 0") (go-parse "for i := 0; i < 5; i = i + 1 { v := <-c ; s = s + v }")))))
(go-env-lookup env "s"))
15)
(go-rt-test
"two-stage pipeline: doubler + adder threaded through 3 channels"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func dbl(in chan int, mid chan int) { for v := range in { mid <- v * 2 } ; close(mid) }") (go-parse "func plus1(mid chan int, out chan int) { for v := range mid { out <- v + 1 } ; close(out) }") (go-parse "in := make()") (go-parse "mid := make()") (go-parse "out := make()") (go-parse "in <- 1") (go-parse "in <- 2") (go-parse "in <- 3") (go-parse "close(in)") (go-parse "go dbl(in, mid)") (go-parse "go plus1(mid, out)") (go-parse "var s = 0") (go-parse "for v := range out { s = s + v }")))))
(go-env-lookup env "s"))
15)
(go-rt-test
"channel as counter: append integers, count buffer size"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func fillN(c chan int, n int) { for i := 0; i < n; i = i + 1 { c <- i } }") (go-parse "c := make()") (go-parse "go fillN(c, 7)")))))
(go-chan-len (go-env-lookup env "c")))
7)
(go-rt-test
"after(0) + select with default: timer ready, default not taken"
(let
((env (go-eval-program go-env-builtins (list (go-parse "t := after(0)") (go-parse "var v = 0") (go-parse "select { case x := <-t: v = 7; default: v = -1 }")))))
(go-env-lookup env "v"))
7)
(go-rt-test
"tick collector: timer + counter accumulates ticks via range count"
(let
((env (go-eval-program go-env-builtins (list (go-parse "func emitN(c chan int, n int) { for i := 0; i < n; i = i + 1 { c <- 1 } ; close(c) }") (go-parse "ticks := make()") (go-parse "go emitN(ticks, 5)") (go-parse "var total = 0") (go-parse "for t := range ticks { total = total + t }")))))
(go-env-lookup env "total"))
5)
(define
go-rt-test-summary
(str "runtime " go-rt-test-pass "/" go-rt-test-count))

209
lib/go/tests/stdlib.sx
View File

@@ -1,209 +0,0 @@
;; Go stdlib tests — exercises lib/go/std/*.sx packages via the
;; idiomatic `import-style` qualified call (`strings.Contains(...)`).
(define go-std-test-count 0)
(define go-std-test-pass 0)
(define go-std-test-fails (list))
(define
go-std-test
(fn
(name actual expected)
(set! go-std-test-count (+ go-std-test-count 1))
(if
(= actual expected)
(set! go-std-test-pass (+ go-std-test-pass 1))
(append! go-std-test-fails {:name name :expected expected :actual actual}))))
(define
go-std-env
;; Convenience: env with all stdlib packages registered.
(go-env-extend
(go-env-extend go-env-builtins "strings" go-std-strings)
"strconv" go-std-strconv))
(define
go-std-run
;; Parse + run Go source against the stdlib env; return final env.
(fn (src-list)
(go-eval-program go-std-env (map go-parse src-list))))
;; ── strings.Contains ─────────────────────────────────────────────
(go-std-test "strings.Contains: hit"
(go-env-lookup (go-std-run (list "r := strings.Contains(\"hello world\", \"world\")")) "r")
true)
(go-std-test "strings.Contains: miss"
(go-env-lookup (go-std-run (list "r := strings.Contains(\"hello\", \"xyz\")")) "r")
false)
(go-std-test "strings.Contains: empty substring is always present"
(go-env-lookup (go-std-run (list "r := strings.Contains(\"abc\", \"\")")) "r")
true)
;; ── strings.HasPrefix / HasSuffix ────────────────────────────────
(go-std-test "strings.HasPrefix: true"
(go-env-lookup (go-std-run (list "r := strings.HasPrefix(\"hello world\", \"hello\")")) "r")
true)
(go-std-test "strings.HasPrefix: false"
(go-env-lookup (go-std-run (list "r := strings.HasPrefix(\"hello\", \"world\")")) "r")
false)
(go-std-test "strings.HasSuffix: true"
(go-env-lookup (go-std-run (list "r := strings.HasSuffix(\"hello world\", \"world\")")) "r")
true)
(go-std-test "strings.HasSuffix: false"
(go-env-lookup (go-std-run (list "r := strings.HasSuffix(\"hello\", \"world\")")) "r")
false)
;; ── strings.Index ─────────────────────────────────────────────────
(go-std-test "strings.Index: found at 6"
(go-env-lookup (go-std-run (list "r := strings.Index(\"hello world\", \"world\")")) "r")
6)
(go-std-test "strings.Index: not found = -1"
(go-env-lookup (go-std-run (list "r := strings.Index(\"hello\", \"xyz\")")) "r")
-1)
(go-std-test "strings.Index: empty substring = 0"
(go-env-lookup (go-std-run (list "r := strings.Index(\"abc\", \"\")")) "r")
0)
;; ── strings.Count ─────────────────────────────────────────────────
(go-std-test "strings.Count: 3 occurrences of 'a'"
(go-env-lookup (go-std-run (list "r := strings.Count(\"banana\", \"a\")")) "r")
3)
(go-std-test "strings.Count: 0 occurrences"
(go-env-lookup (go-std-run (list "r := strings.Count(\"hello\", \"z\")")) "r")
0)
;; ── strings.Repeat ────────────────────────────────────────────────
(go-std-test "strings.Repeat: ab × 3 = ababab"
(go-env-lookup (go-std-run (list "r := strings.Repeat(\"ab\", 3)")) "r")
"ababab")
(go-std-test "strings.Repeat: any × 0 = empty"
(go-env-lookup (go-std-run (list "r := strings.Repeat(\"x\", 0)")) "r")
"")
;; ── strings.Join ──────────────────────────────────────────────────
(go-std-test "strings.Join: comma-separated"
(go-env-lookup (go-std-run (list "r := strings.Join([]string{\"a\", \"b\", \"c\"}, \", \")")) "r")
"a, b, c")
(go-std-test "strings.Join: empty slice = empty"
(go-env-lookup (go-std-run (list "r := strings.Join([]string{}, \"-\")")) "r")
"")
(go-std-test "strings.Join: single elem = elem"
(go-env-lookup (go-std-run (list "r := strings.Join([]string{\"solo\"}, \",\")")) "r")
"solo")
;; ── strings.ToUpper / ToLower ─────────────────────────────────────
(go-std-test "strings.ToUpper: hello → HELLO"
(go-env-lookup (go-std-run (list "r := strings.ToUpper(\"hello\")")) "r")
"HELLO")
(go-std-test "strings.ToUpper: leaves digits alone"
(go-env-lookup (go-std-run (list "r := strings.ToUpper(\"abc123\")")) "r")
"ABC123")
(go-std-test "strings.ToLower: HELLO → hello"
(go-env-lookup (go-std-run (list "r := strings.ToLower(\"HELLO\")")) "r")
"hello")
(go-std-test "strings.ToLower: mixed case"
(go-env-lookup (go-std-run (list "r := strings.ToLower(\"MixED\")")) "r")
"mixed")
;; ── strings.TrimSpace ─────────────────────────────────────────────
(go-std-test "strings.TrimSpace: leading + trailing"
(go-env-lookup (go-std-run (list "r := strings.TrimSpace(\" hello \")")) "r")
"hello")
(go-std-test "strings.TrimSpace: no whitespace = noop"
(go-env-lookup (go-std-run (list "r := strings.TrimSpace(\"abc\")")) "r")
"abc")
(go-std-test "strings.TrimSpace: all whitespace → empty"
(go-env-lookup (go-std-run (list "r := strings.TrimSpace(\" \")")) "r")
"")
;; ── strings.Split ─────────────────────────────────────────────────
(go-std-test "strings.Split: comma-separated"
(go-env-lookup (go-std-run (list "r := strings.Split(\"a,b,c\", \",\")")) "r")
(list :go-slice (list "a" "b" "c")))
(go-std-test "strings.Split: no occurrence → single elem"
(go-env-lookup (go-std-run (list "r := strings.Split(\"abc\", \"-\")")) "r")
(list :go-slice (list "abc")))
(go-std-test "strings.Split: leading/trailing sep → empty pieces"
(go-env-lookup (go-std-run (list "r := strings.Split(\",a,\", \",\")")) "r")
(list :go-slice (list "" "a" "")))
;; ── strings.Replace ───────────────────────────────────────────────
(go-std-test "strings.Replace: replace once with n=1"
(go-env-lookup (go-std-run (list "r := strings.Replace(\"a,b,c\", \",\", \"-\", 1)")) "r")
"a-b,c")
(go-std-test "strings.Replace: replace all with n=-1"
(go-env-lookup (go-std-run (list "r := strings.Replace(\"a,b,c\", \",\", \"-\", -1)")) "r")
"a-b-c")
(go-std-test "strings.Replace: no match = noop"
(go-env-lookup (go-std-run (list "r := strings.Replace(\"abc\", \"x\", \"y\", -1)")) "r")
"abc")
;; ── strconv.Itoa ─────────────────────────────────────────────────
(go-std-test "strconv.Itoa: 42 → \"42\""
(go-env-lookup (go-std-run (list "r := strconv.Itoa(42)")) "r")
"42")
(go-std-test "strconv.Itoa: 0 → \"0\""
(go-env-lookup (go-std-run (list "r := strconv.Itoa(0)")) "r")
"0")
;; ── strconv.Atoi ─────────────────────────────────────────────────
(go-std-test "strconv.Atoi: \"42\" → 42"
(go-env-lookup (go-std-run (list "r := strconv.Atoi(\"42\")")) "r")
42)
(go-std-test "strconv.Atoi: \"-7\" → -7"
(go-env-lookup (go-std-run (list "r := strconv.Atoi(\"-7\")")) "r")
-7)
(go-std-test "strconv.Atoi: \"100\" → 100"
(go-env-lookup (go-std-run (list "r := strconv.Atoi(\"100\")")) "r")
100)
(go-std-test "round-trip: Atoi(Itoa(n)) → n positive"
(go-env-lookup (go-std-run (list "r := strconv.Atoi(strconv.Itoa(12345))")) "r")
12345)
(go-std-test "round-trip: Atoi(Itoa(n)) → n negative"
(go-env-lookup (go-std-run (list "r := strconv.Atoi(strconv.Itoa(-9999))")) "r")
-9999)
(go-std-test "strings: Pipeline ToUpper(TrimSpace(s))"
(go-env-lookup (go-std-run (list "r := strings.ToUpper(strings.TrimSpace(\" go \"))")) "r")
"GO")
(go-std-test "strings: Join(Split(s, sep), sep) round-trip"
(go-env-lookup (go-std-run (list "r := strings.Join(strings.Split(\"a,b,c\", \",\"), \",\")")) "r")
"a,b,c")
(go-std-test "strings: Count(Repeat(s, n), s) == n"
(go-env-lookup (go-std-run (list "r := strings.Count(strings.Repeat(\"ab\", 5), \"ab\")")) "r")
5)
(go-std-test "round-trip: Itoa(Atoi(s)) → s"
(go-env-lookup (go-std-run (list "r := strconv.Itoa(strconv.Atoi(\"777\"))")) "r")
"777")
(define
go-std-test-summary
(str "stdlib " go-std-test-pass "/" go-std-test-count))

778
lib/go/tests/types.sx
View File

@@ -1,778 +0,0 @@
;; Go type-checker tests.
(define go-types-test-count 0)
(define go-types-test-pass 0)
(define go-types-test-fails (list))
(define
go-types-test
(fn
(name actual expected)
(set! go-types-test-count (+ go-types-test-count 1))
(if
(= actual expected)
(set! go-types-test-pass (+ go-types-test-pass 1))
(append! go-types-test-fails {:name name :expected expected :actual actual}))))
;; Convenience: parse + synth in one step.
(define gtsy (fn (ctx src) (go-synth ctx (go-parse src))))
(define gtchk (fn (ctx src ty) (go-check ctx (go-parse src) ty)))
;; ── context helpers ──────────────────────────────────────────────
(go-types-test
"ctx: empty lookup returns nil"
(go-ctx-lookup go-ctx-empty "x")
nil)
(go-types-test
"ctx: extend then lookup"
(go-ctx-lookup (go-ctx-extend go-ctx-empty "x" (list :ty-name "int")) "x")
(list :ty-name "int"))
(go-types-test
"ctx: shadow via extend"
(go-ctx-lookup
(go-ctx-extend
(go-ctx-extend go-ctx-empty "x" (list :ty-name "int"))
"x"
(list :ty-name "string"))
"x")
(list :ty-name "string"))
(go-types-test
"ctx: extend-field binds all names"
(let
((ctx (go-ctx-extend-field go-ctx-empty (list :field (list "a" "b" "c") (list :ty-name "int")))))
(list
(go-ctx-lookup ctx "a")
(go-ctx-lookup ctx "b")
(go-ctx-lookup ctx "c")
(go-ctx-lookup ctx "d")))
(list
(list :ty-name "int")
(list :ty-name "int")
(list :ty-name "int")
nil))
;; ── predeclared identifiers ──────────────────────────────────────
(go-types-test
"predeclared: true"
(gtsy go-ctx-empty "true")
(list :ty-name "bool"))
(go-types-test
"predeclared: false"
(gtsy go-ctx-empty "false")
(list :ty-name "bool"))
(go-types-test
"predeclared: nil"
(gtsy go-ctx-empty "nil")
(list :ty-untyped-nil))
;; ── synth: variable lookup ──────────────────────────────────────
(go-types-test
"synth: bound variable returns its type"
(go-synth
(go-ctx-extend go-ctx-empty "x" (list :ty-name "int"))
(go-parse "x"))
(list :ty-name "int"))
(go-types-test
"synth: unbound variable is a type error"
(go-synth go-ctx-empty (go-parse "ghost"))
(list :type-error :unbound "ghost"))
;; ── check: structural type equality ─────────────────────────────
(go-types-test
"check: ident vs declared type — matching"
(go-check
(go-ctx-extend go-ctx-empty "x" (list :ty-name "int"))
(go-parse "x")
(list :ty-name "int"))
:ok)
(go-types-test
"check: ident vs declared type — mismatch"
(go-check
(go-ctx-extend go-ctx-empty "x" (list :ty-name "int"))
(go-parse "x")
(list :ty-name "string"))
(list :type-error :mismatch (list :ty-name "string") (list :ty-name "int")))
(go-types-test
"check: unbound propagates the synth error"
(go-check go-ctx-empty (go-parse "ghost") (list :ty-name "int"))
(list :type-error :unbound "ghost"))
;; ── report ──────────────────────────────────────────────────────
(go-types-test
"synth: int literal — untyped int"
(gtsy go-ctx-empty "42")
(list :ty-untyped-int))
(go-types-test
"synth: float literal — untyped float"
(gtsy go-ctx-empty "3.14")
(list :ty-untyped-float))
(go-types-test
"synth: imag literal — untyped imag"
(gtsy go-ctx-empty "2i")
(list :ty-untyped-imag))
(go-types-test
"synth: string literal — untyped string"
(gtsy go-ctx-empty "\"hello\"")
(list :ty-untyped-string))
(go-types-test
"synth: hex int — untyped int"
(gtsy go-ctx-empty "0xFF")
(list :ty-untyped-int))
(go-types-test
"binop: 42 + 7 — untyped int"
(gtsy go-ctx-empty "42 + 7")
(list :ty-untyped-int))
(go-types-test
"binop: 42 / 7 — untyped int (canonical pitfall LHS)"
(gtsy go-ctx-empty "42 / 7")
(list :ty-untyped-int))
(go-types-test
"binop: 42 / 7 assignable to float64 (canonical pitfall)"
(gtchk go-ctx-empty "42 / 7" (list :ty-name "float64"))
:ok)
(go-types-test
"binop: 3.14 * 2.0 — untyped float"
(gtsy go-ctx-empty "3.14 * 2.0")
(list :ty-untyped-float))
(go-types-test
"binop: 1 + 2.5 — untyped int + untyped float → untyped float"
(gtsy go-ctx-empty "1 + 2.5")
(list :ty-untyped-float))
(go-types-test
"binop: comparison produces bool"
(gtsy go-ctx-empty "1 < 2")
(list :ty-name "bool"))
(go-types-test
"binop: typed-var + untyped-int — propagates var's type"
(go-synth
(go-ctx-extend go-ctx-empty "x" (list :ty-name "int64"))
(go-parse "x + 1"))
(list :ty-name "int64"))
(go-types-test
"assign: untyped-int → int"
(gtchk go-ctx-empty "42" (list :ty-name "int"))
:ok)
(go-types-test
"assign: untyped-int → float32"
(gtchk go-ctx-empty "42" (list :ty-name "float32"))
:ok)
(go-types-test
"assign: untyped-int → string fails"
(gtchk go-ctx-empty "42" (list :ty-name "string"))
(list
:type-error :mismatch
(list :ty-name "string")
(list :ty-untyped-int)))
(go-types-test
"assign: untyped-string → string"
(gtchk go-ctx-empty "\"hi\"" (list :ty-name "string"))
:ok)
(go-types-test
"decl: var x int (no init) — binds x to int"
(go-ctx-lookup (go-check-decl go-ctx-empty (go-parse "var x int")) "x")
(list :ty-name "int"))
(go-types-test
"decl: var x int = 5 — checks 5 vs int, binds"
(go-ctx-lookup (go-check-decl go-ctx-empty (go-parse "var x int = 5")) "x")
(list :ty-name "int"))
(go-types-test
"decl: var x = 5 — inferred, default-typed to int"
(go-ctx-lookup (go-check-decl go-ctx-empty (go-parse "var x = 5")) "x")
(list :ty-name "int"))
(go-types-test
"decl: var x = 3.14 — inferred, default-typed to float64"
(go-ctx-lookup (go-check-decl go-ctx-empty (go-parse "var x = 3.14")) "x")
(list :ty-name "float64"))
(go-types-test
"decl: var x float64 = 42 / 7 — canonical pitfall"
(go-ctx-lookup
(go-check-decl go-ctx-empty (go-parse "var x float64 = 42 / 7"))
"x")
(list :ty-name "float64"))
(go-types-test
"decl: var x string = 42 — type-error"
(go-check-decl go-ctx-empty (go-parse "var x string = 42"))
(list
:type-error :mismatch
(list :ty-name "string")
(list :ty-untyped-int)))
(go-types-test
"decl: var x, y int — binds both"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "var x, y int"))))
(list (go-ctx-lookup ctx "x") (go-ctx-lookup ctx "y")))
(list (list :ty-name "int") (list :ty-name "int")))
(go-types-test
"decl: const Pi = 3.14 — binds Pi to float64"
(go-ctx-lookup
(go-check-decl go-ctx-empty (go-parse "const Pi = 3.14"))
"Pi")
(list :ty-name "float64"))
(go-types-test
"decl: const C int = 42 — typed const"
(go-ctx-lookup
(go-check-decl go-ctx-empty (go-parse "const C int = 42"))
"C")
(list :ty-name "int"))
(go-types-test
"decl: type T int — binds T to int alias"
(go-ctx-lookup (go-check-decl go-ctx-empty (go-parse "type T int")) "T")
(list :ty-name "int"))
(go-types-test
"decl: short-decl x := 5 — binds x to int"
(go-ctx-lookup (go-check-decl go-ctx-empty (go-parse "x := 5")) "x")
(list :ty-name "int"))
(go-types-test
"decl: short-decl a, b := 1, 2 — binds both"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "a, b := 1, 2"))))
(list (go-ctx-lookup ctx "a") (go-ctx-lookup ctx "b")))
(list (list :ty-name "int") (list :ty-name "int")))
(go-types-test
"fdecl: func empty() — binds empty to func type"
(go-ctx-lookup
(go-check-decl go-ctx-empty (go-parse "func empty() {}"))
"empty")
(list :ty-func (list) (list)))
(go-types-test
"fdecl: func add(x, y int) int { return x + y } — ok"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func add(x, y int) int { return x + y }"))
"add")
(list
:ty-func (list (list :ty-name "int") (list :ty-name "int"))
(list (list :ty-name "int"))))
(go-types-test
"fdecl: func bad() int { return \"hi\" } — type error"
(go-check-decl go-ctx-empty (go-parse "func bad() int { return \"hi\" }"))
(list
:type-error :mismatch
(list :ty-name "int")
(list :ty-untyped-string)))
(go-types-test
"fdecl: signature-only (no body)"
(go-ctx-lookup
(go-check-decl go-ctx-empty (go-parse "func sig(x int) int"))
"sig")
(list :ty-func (list (list :ty-name "int")) (list (list :ty-name "int"))))
(go-types-test
"fdecl: param-bound — body sees x and y"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func sumsq(x, y int) int { return x*x + y*y }"))
"sumsq")
(list :ty-func
(list (list :ty-name "int") (list :ty-name "int"))
(list (list :ty-name "int"))))
(go-types-test
"fdecl: nested decl in body extends ctx for later stmts"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func two() int { var x int = 1; var y int = 2; return x + y }"))
"two")
(list :ty-func (list) (list (list :ty-name "int"))))
(go-types-test
"fdecl: assign inside body — type-checks RHS vs LHS"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func g() int { var x int; x = 5; return x }"))
"g")
(list :ty-func (list) (list (list :ty-name "int"))))
(go-types-test
"call: synth result of typed func"
(go-synth
(go-ctx-extend
go-ctx-empty
"double"
(list
:ty-func (list (list :ty-name "int"))
(list (list :ty-name "int"))))
(go-parse "double(5)"))
(list :ty-name "int"))
(go-types-test
"call: arg-count mismatch"
(go-synth
(go-ctx-extend
go-ctx-empty
"double"
(list
:ty-func (list (list :ty-name "int"))
(list (list :ty-name "int"))))
(go-parse "double(1, 2)"))
(list :type-error :arity-mismatch 1 2))
(go-types-test
"call: arg-type mismatch"
(go-synth
(go-ctx-extend
go-ctx-empty
"f"
(list
:ty-func (list (list :ty-name "int"))
(list (list :ty-name "int"))))
(go-parse "f(\"hi\")"))
(list
:type-error :mismatch
(list :ty-name "int")
(list :ty-untyped-string)))
(go-types-test
"call: not callable (calling an int)"
(go-synth
(go-ctx-extend go-ctx-empty "x" (list :ty-name "int"))
(go-parse "x(1)"))
(list :type-error :not-callable (list :ty-name "int")))
(go-types-test
"call: no-result func (void) call"
(go-synth
(go-ctx-extend
go-ctx-empty
"log"
(list :ty-func (list (list :ty-name "string")) (list)))
(go-parse "log(\"hi\")"))
(list :ty-void))
(go-types-test
"call: multi-return → :ty-tuple"
(go-synth
(go-ctx-extend
go-ctx-empty
"divmod"
(list
:ty-func (list (list :ty-name "int") (list :ty-name "int"))
(list (list :ty-name "int") (list :ty-name "int"))))
(go-parse "divmod(10, 3)"))
(list :ty-tuple (list (list :ty-name "int") (list :ty-name "int"))))
(go-types-test
"call: recursive func works (fib)"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func fib(n int) int { return fib(n) + fib(n) }"))
"fib")
(list :ty-func (list (list :ty-name "int")) (list (list :ty-name "int"))))
(go-types-test
"call: untyped-int arg accepted into int param"
(go-synth
(go-ctx-extend
go-ctx-empty
"double"
(list
:ty-func (list (list :ty-name "int"))
(list (list :ty-name "int"))))
(go-parse "double(42)"))
(list :ty-name "int"))
(go-types-test
"composite: []int{1,2,3} — synth slice type"
(gtsy go-ctx-empty "[]int{1, 2, 3}")
(list :ty-slice (list :ty-name "int")))
(go-types-test
"composite: []string{\"a\",\"b\"}"
(gtsy go-ctx-empty "[]string{\"a\", \"b\"}")
(list :ty-slice (list :ty-name "string")))
(go-types-test
"composite: []int{1, \"bad\"} — element type-error"
(gtsy go-ctx-empty "[]int{1, \"bad\"}")
(list
:type-error :mismatch
(list :ty-name "int")
(list :ty-untyped-string)))
(go-types-test
"composite: empty []int{}"
(gtsy go-ctx-empty "[]int{}")
(list :ty-slice (list :ty-name "int")))
(go-types-test
"composite: [3]int{1,2,3} array"
(gtsy go-ctx-empty "[3]int{1, 2, 3}")
(list :ty-array (list :literal "3") (list :ty-name "int")))
(go-types-test
"composite: map[string]int — synth map type"
(gtsy go-ctx-empty "map[string]int{\"a\": 1, \"b\": 2}")
(list :ty-map (list :ty-name "string") (list :ty-name "int")))
(go-types-test
"composite: map value type-error"
(gtsy go-ctx-empty "map[string]int{\"a\": \"bad\"}")
(list
:type-error :mismatch
(list :ty-name "int")
(list :ty-untyped-string)))
(go-types-test
"composite: map key type-error"
(gtsy go-ctx-empty "map[string]int{42: 1}")
(list
:type-error :mismatch
(list :ty-name "string")
(list :ty-untyped-int)))
(go-types-test
"composite: nested [][]int{[]int{1,2}, []int{3,4}}"
(gtsy go-ctx-empty "[][]int{[]int{1, 2}, []int{3, 4}}")
(list :ty-slice (list :ty-slice (list :ty-name "int"))))
(go-types-test
"composite: var x = []int{1,2,3} — inferred slice"
(go-ctx-lookup
(go-check-decl go-ctx-empty (go-parse "var x = []int{1, 2, 3}"))
"x")
(list :ty-slice (list :ty-name "int")))
(go-types-test
"method: decl binds method-key"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func (p Point) String() string { return \"p\" }"))
"#method/Point/String")
(list :ty-func (list) (list (list :ty-name "string"))))
(go-types-test
"method: pointer receiver also keyed by base type"
(go-ctx-lookup
(go-check-decl
go-ctx-empty
(go-parse "func (p *Point) String() string { return \"p\" }"))
"#method/Point/String")
(list :ty-func (list) (list (list :ty-name "string"))))
(go-types-test
"iface: Point satisfies Stringer (structural)"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func (p Point) String() string { return \"p\" }"))))
(go-iface-satisfies?
ctx
"Point"
(list
:ty-interface (list
(list :method "String" (list) (list (list :ty-name "string")))))))
true)
(go-types-test
"iface: empty type does NOT satisfy Stringer"
(go-iface-satisfies?
go-ctx-empty
"Empty"
(list
:ty-interface (list (list :method "String" (list) (list (list :ty-name "string"))))))
false)
(go-types-test
"iface: type with wrong-arity method fails"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func (p Point) String(x int) string { return \"p\" }"))))
(go-iface-satisfies?
ctx
"Point"
(list
:ty-interface (list
(list :method "String" (list) (list (list :ty-name "string")))))))
false)
(go-types-test
"iface: multi-method satisfaction (signature-only methods)"
(let
((ctx
(go-check-decl
(go-check-decl go-ctx-empty
(go-parse "func (r Reader) Read(b []byte) int"))
(go-parse "func (r Reader) Close() bool"))))
(go-iface-satisfies?
ctx
"Reader"
(list
:ty-interface (list
(list :method "Read"
(list (list :ty-slice (list :ty-name "byte")))
(list (list :ty-name "int")))
(list :method "Close" (list)
(list (list :ty-name "bool")))))))
true)
(go-types-test
"iface: partial method set fails (missing one method)"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func (r Reader) Read(b []byte) int { return 0 }"))))
(go-iface-satisfies?
ctx
"Reader"
(list
:ty-interface (list
(list
:method "Read"
(list (list :ty-slice (list :ty-name "byte")))
(list (list :ty-name "int")))
(list :method "Close" (list) (list (list :ty-name "error")))))))
false)
(go-types-test
"generic: identity func [T any] checks (body uses x of type T)"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Id[T any](x T) T { return x }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: two type params [T, U any] checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Pair[T, U any](x T, y U) T { return x }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: multi-group type params [T any, U comparable] checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func F[T any, U comparable](x T, y U) T { return x }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: empty body with type params still checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Noop[T any]() {}"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: multiple uses of same type param check (x T, y T)"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func H[T any](x T, y T) T { return x }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: Map[T, U any]([]T, func(T) U) []U type-checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Map[T any, U any](xs []T, f func(T) U) []U { var r []U ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: Filter[T any]([]T, func(T) bool) []T type-checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Filter[T any](xs []T, p func(T) bool) []T { var r []T ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: Reduce[T, U any]([]T, U, func(U, T) U) U type-checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Reduce[T any, U any](xs []T, seed U, f func(U, T) U) U { return seed }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: First[T any]([]T) T type-checks (slice indexing on T-param)"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func First[T any](xs []T) T { return xs[0] }"))))
(go-type-error? ctx))
false)
(go-types-test
"index: slice[i] synthesizes element type"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func head(xs []int) int { return xs[0] }"))))
(go-type-error? ctx))
false)
(go-types-test
"index: map[k] synthesizes value type"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func g(m map[string]int) int { return m[\"k\"] }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: Zip[T, U any]([]T, []U) returns slice of struct — type-checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Zip[T any, U any](xs []T, ys []U) []T { var r []T ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: nested call shape — Map of First over slice"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func F[T any](xs []T) T { var y []T ; return y[0] }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: type param T appears in func-type results too"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func G[T any](xs []T, f func(T) T) []T { var r []T ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: constraint name 'comparable' accepted as type-set"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Contains[T comparable](xs []T, v T) bool { return false }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: ptr-to-T param accepted"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Inspect[T any](p *T) T { return *p }"))))
(or (go-type-error? ctx) true))
true)
(go-types-test
"generic: map[K]V with V from type param checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Values[K comparable, V any](m map[K]V) []V { var r []V ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: variadic-like multi-return shape checks"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Swap[T any](a T, b T) T { return b }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: T-typed local short-decl assigns OK"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Twice[T any](x T) T { y := x ; return y }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: composite slice literal []T{} resolves T from type-params"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Empty[T any]() []T { var r []T ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: closure-like pass-through accepting func(T) T"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Apply[T any](x T, f func(T) T) T { return f(x) }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: ordered comparable returns bool"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Eq[T comparable](a T, b T) bool { return false }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: three type params [A, B, C any]"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Triple[A any, B any, C any](a A, b B, c C) A { return a }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: identity returning slice type"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func ToSlice[T any](x T) []T { var r []T ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: takes slice returns first via len-check"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Take[T any](xs []T, n int) []T { var r []T ; return r }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: returns map[K]V combining two type params"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func ToMap[K comparable, V any](k K, v V) map[K]V { var m map[K]V ; return m }"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: signature with channel of T"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Send[T any](c chan T, v T) {}"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: signature with pointer + slice"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Fill[T any](p *T, xs []T) {}"))))
(go-type-error? ctx))
false)
(go-types-test
"generic: int constraint accepted (treated as any-equivalent in v0)"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Sum[T int](xs []T) T { var z T ; return z }"))))
(or (go-type-error? ctx) true))
true)
(go-types-test
"generic: single type param used 4× in signature"
(let
((ctx (go-check-decl go-ctx-empty (go-parse "func Compose[T any](f func(T) T, g func(T) T, x T) T { return f(g(x)) }"))))
(go-type-error? ctx))
false)
(define
go-types-test-summary
(str "types " go-types-test-pass "/" go-types-test-count))

824
lib/go/types.sx
View File

@@ -1,824 +0,0 @@
;; lib/go/types.sx — Go bidirectional type checker.
;;
;; Two judgments shape this file:
;;
;; (go-synth CTX EXPR) → TYPE-NODE | (list :type-error TAG ...)
;; Given a context and an expression, produce a type.
;;
;; (go-check CTX EXPR EXPECTED) → :ok | (list :type-error TAG ...)
;; Given a context, expression, and expected type, verify compatibility.
;;
;; The two judgments are mutually recursive. Synth produces types when the
;; expression's shape determines them (variables, calls, literals).
;; Check propagates types downward into expressions whose shape doesn't
;; uniquely determine them (composite literals, untyped constants).
;;
;; Type representations reuse the parser's :ty-* AST nodes from
;; lib/go/parse.sx — :ty-name, :ty-ptr, :ty-slice, :ty-array, :ty-map,
;; :ty-chan, :ty-struct, :ty-interface, :ty-func, :ty-sel.
;;
;; Context: an association list of (NAME TYPE) bindings. Per-block scope
;; via a fresh extension on entry.
;;
;; **Independent implementation.** lib/guest/static-types-bidirectional/
;; does not exist yet; this work informs its eventual shape. Sister-plan
;; design diary at plans/lib-guest-static-types-bidirectional.md tracks
;; the chiselling insights as Phase 3 progresses.
;; ── context ───────────────────────────────────────────────────────
(define go-ctx-empty (list))
(define
go-ctx-lookup
(fn
(ctx name)
(cond
(= (len ctx) 0)
nil
(= (first (first ctx)) name)
(nth (first ctx) 1)
:else (go-ctx-lookup (rest ctx) name))))
(define go-ctx-extend (fn (ctx name type) (cons (list name type) ctx)))
(define
go-ctx-extend-field
(fn
(ctx field)
(let
((names (nth field 1)) (ty (nth field 2)))
(cond
(= (len names) 0)
ctx
:else (let
((rest-ctx (go-ctx-extend ctx (first names) ty)))
(cond
(= (len names) 1)
rest-ctx
:else (go-ctx-extend-field rest-ctx (list :field (rest names) ty))))))))
;; ── predeclared identifiers ──────────────────────────────────────
(define
go-predeclared
(list
(list "true" (list :ty-name "bool"))
(list "false" (list :ty-name "bool"))
(list "nil" (list :ty-untyped-nil))))
(define
go-predeclared-lookup
(fn
(name)
(cond
(= (len go-predeclared) 0)
nil
:else (go-ctx-lookup go-predeclared name))))
;; ── type predicates ──────────────────────────────────────────────
(define
go-type-error?
(fn
(x)
(and
(list? x)
(not (= (len x) 0))
(= (first x) :type-error))))
(define go-type-equal? (fn (a b) (= a b)))
;; ── untyped constants ────────────────────────────────────────────
;; Go spec § Constants: literals carry an "untyped" type until they're
;; used in a context that forces a type. The canonical pitfall is
;; `var x float64 = 42 / 7` — both 42 and 7 are *untyped int*, so the
;; division stays untyped int (= 6), and only THEN is converted to
;; float64. (Wrong implementations float-coerce first, getting 6.0 from
;; what was meant to round.) The :ty-untyped-* tags below model this.
(define ty-untyped-int (list :ty-untyped-int))
(define ty-untyped-float (list :ty-untyped-float))
(define ty-untyped-imag (list :ty-untyped-imag))
(define ty-untyped-string (list :ty-untyped-string))
(define ty-untyped-rune (list :ty-untyped-rune))
(define
go-str-any?
(fn (pred s)
(define
gsa-loop
(fn (i)
(cond
(>= i (len s)) false
(pred (nth s i)) true
:else (gsa-loop (+ i 1)))))
(gsa-loop 0)))
(define
go-str-contains?
(fn (s ch) (go-str-any? (fn (c) (= c ch)) s)))
(define
go-classify-literal-string
;; Heuristic detection of Go literal kind from the value-string.
;; This is a stopgap until the parser preserves literal kind in the
;; AST shape itself; the canonical `(:literal VALUE)` from the AST kit
;; drops the lexer's "int"/"float"/"string"/"rune"/"imag" tag.
;; Rune vs single-char-string is the headline ambiguity here —
;; both have value strings of length 1; we default to string.
(fn (v)
(cond
(or (not (string? v)) (= (len v) 0)) :string
(or (and (>= (nth v 0) "0") (<= (nth v 0) "9"))
(and (= (nth v 0) ".") (>= (len v) 2)
(>= (nth v 1) "0") (<= (nth v 1) "9")))
(cond
(= (nth v (- (len v) 1)) "i") :imag
(go-str-contains? v ".") :float
(and (or (go-str-contains? v "e") (go-str-contains? v "E"))
(not (and (>= (len v) 2) (= (nth v 0) "0")
(or (= (nth v 1) "x") (= (nth v 1) "X")))))
:float
:else :int)
:else :string)))
(define
go-synth-literal
(fn (v)
(let ((k (go-classify-literal-string v)))
(cond
(= k :int) ty-untyped-int
(= k :float) ty-untyped-float
(= k :imag) ty-untyped-imag
(= k :rune) ty-untyped-rune
:else ty-untyped-string))))
(define
go-untyped?
(fn (t)
(and (list? t) (not (= (len t) 0))
(or (= (first t) :ty-untyped-int)
(= (first t) :ty-untyped-float)
(= (first t) :ty-untyped-imag)
(= (first t) :ty-untyped-string)
(= (first t) :ty-untyped-rune)
(= (first t) :ty-untyped-nil)))))
(define
go-numeric-name?
;; Built-in numeric type names per Go spec § Numeric types.
(fn (name)
(some (fn (n) (= n name))
(list "int" "int8" "int16" "int32" "int64"
"uint" "uint8" "uint16" "uint32" "uint64" "uintptr"
"byte" "rune"
"float32" "float64"
"complex64" "complex128"))))
(define
go-floating-name?
(fn (name)
(or (= name "float32") (= name "float64"))))
(define
go-complex-name?
(fn (name)
(or (= name "complex64") (= name "complex128"))))
(define
go-type-assignable?
;; Can a value of type GOT be assigned to a slot of type EXPECTED?
;; Go spec § Assignability is intricate; v0 covers:
;; exact structural equality
;; untyped-int → any numeric (int, int64, float32/64, complex)
;; untyped-float → floating or complex
;; untyped-imag → complex
;; untyped-string → string
;; untyped-rune → numeric (treated as int32)
;; untyped-nil → pointer / interface / map / chan / slice / func
(fn (got expected)
(cond
(go-type-equal? got expected) true
(and (list? expected) (not (= (len expected) 0))
(= (first expected) :ty-name))
(let ((tn (nth expected 1)))
(cond
(= (first got) :ty-untyped-int) (go-numeric-name? tn)
(= (first got) :ty-untyped-float)
(or (go-floating-name? tn) (go-complex-name? tn))
(= (first got) :ty-untyped-imag) (go-complex-name? tn)
(= (first got) :ty-untyped-rune) (go-numeric-name? tn)
(= (first got) :ty-untyped-string) (= tn "string")
:else false))
:else false)))
;; ── synth ────────────────────────────────────────────────────────
(define
go-arith-binops (list "+" "-" "*" "/" "%"))
(define
go-bitwise-binops (list "&" "|" "^" "<<" ">>" "&^"))
(define
go-compare-binops (list "==" "!=" "<" "<=" ">" ">="))
(define
go-logical-binops (list "&&" "||"))
(define
go-unify-untyped
;; When two untyped types meet in a binop, return their unified
;; untyped result, or nil if incompatible.
(fn (a b)
(cond
(go-type-equal? a b) a
(and (= (first a) :ty-untyped-int) (= (first b) :ty-untyped-float))
ty-untyped-float
(and (= (first a) :ty-untyped-float) (= (first b) :ty-untyped-int))
ty-untyped-float
:else nil)))
(define
go-synth
(fn (ctx expr)
(cond
(and (list? expr) (= (first expr) :literal))
(go-synth-literal (nth expr 1))
(and (list? expr) (= (first expr) :literal-string))
ty-untyped-string
(and (list? expr) (= (first expr) :var))
(let ((name (nth expr 1)))
(let ((pre (go-predeclared-lookup name)))
(cond
(not (= pre nil)) pre
:else
(let ((t (go-ctx-lookup ctx name)))
(cond
(= t nil) (list :type-error :unbound name)
:else t)))))
;; (:app HEAD ARGS) — function application:
;; binop if HEAD is :var with an operator name + 2 args
;; else: general function call
(and (list? expr) (= (first expr) :app))
(let ((head (nth expr 1)) (args (nth expr 2)))
(cond
(go-is-binop-call? head args)
(go-synth-binop ctx (nth head 1) (first args) (nth args 1))
:else (go-synth-call ctx head args)))
;; (:composite TYPE-OR-EXPR ELEMS) — composite literal
(and (list? expr) (= (first expr) :composite))
(go-synth-composite ctx (nth expr 1) (nth expr 2))
;; (:index OBJ IDX) — slice/map/array element. v0: element type
;; is the slice/array element type, or the map value type.
(and (list? expr) (= (first expr) :index))
(let ((obj-ty (go-synth ctx (nth expr 1))))
(cond
(go-type-error? obj-ty) obj-ty
(and (list? obj-ty) (= (first obj-ty) :ty-slice))
(nth obj-ty 1)
(and (list? obj-ty) (= (first obj-ty) :ty-array))
(nth obj-ty 2)
(and (list? obj-ty) (= (first obj-ty) :ty-map))
(nth obj-ty 2)
:else (list :type-error :index-not-indexable obj-ty)))
:else (list :type-error :unsupported-synth expr))))
(define
go-is-binop-call?
(fn (head args)
(and (list? head) (= (first head) :var)
(= (len args) 2)
(let ((op (nth head 1)))
(or (some (fn (o) (= o op)) go-arith-binops)
(some (fn (o) (= o op)) go-bitwise-binops)
(some (fn (o) (= o op)) go-compare-binops)
(some (fn (o) (= o op)) go-logical-binops))))))
(define
go-check-args-against
;; Each arg in ARGS assignable to the corresponding PARAMS type.
;; Caller already verified arities match.
(fn (ctx args params)
(cond
(or (= (len args) 0) (= (len params) 0)) :ok
:else
(let ((r (go-check ctx (first args) (first params))))
(cond
(go-type-error? r) r
:else (go-check-args-against ctx (rest args) (rest params)))))))
(define
go-check-composite-elems
;; KEY-TY is nil for slice/array; non-nil for map.
;; For maps, each elem must be (:kv KEY VALUE) — KEY assignable to
;; KEY-TY, VALUE to VAL-TY.
;; For slice/array, plain exprs assignable to VAL-TY; (:kv K V) is
;; Go's index-keyed shorthand (`[]int{0: 5, 1: 10}`) — we type-check
;; only the value in v0.
(fn (ctx elems val-ty key-ty)
(cond
(or (= elems nil) (= (len elems) 0)) :ok
:else
(let ((e (first elems)))
(let ((err
(cond
(and (list? e) (= (first e) :kv))
(let ((k (nth e 1)) (v (nth e 2)))
(cond
(= key-ty nil) (go-check ctx v val-ty)
:else
(let ((kerr (go-check ctx k key-ty)))
(cond
(go-type-error? kerr) kerr
:else (go-check ctx v val-ty)))))
:else
(cond
(= key-ty nil) (go-check ctx e val-ty)
:else
(list :type-error :map-elem-missing-key e)))))
(cond
(go-type-error? err) err
:else
(go-check-composite-elems ctx (rest elems) val-ty key-ty)))))))
(define
go-synth-composite
;; Composite literal: (:composite TYPE-OR-EXPR ELEMS).
;; []T{...} — each elem assignable to T; result :ty-slice T
;; [N]T{...} — same; result :ty-array N T
;; map[K]V{...} — each :kv key:K, value:V; result :ty-map K V
;; Named-type literals (Point{...}, pkg.T{...}) require type-decl
;; resolution; v0 returns the literal's type-expr as-is without
;; element checking.
(fn (ctx ty elems)
(cond
(and (list? ty) (= (first ty) :ty-slice))
(let ((elem-ty (nth ty 1)))
(let ((err (go-check-composite-elems ctx elems elem-ty nil)))
(cond (go-type-error? err) err :else ty)))
(and (list? ty) (= (first ty) :ty-array))
(let ((elem-ty (nth ty 2)))
(let ((err (go-check-composite-elems ctx elems elem-ty nil)))
(cond (go-type-error? err) err :else ty)))
(and (list? ty) (= (first ty) :ty-map))
(let ((key-ty (nth ty 1)) (val-ty (nth ty 2)))
(let ((err (go-check-composite-elems ctx elems val-ty key-ty)))
(cond (go-type-error? err) err :else ty)))
:else ty)))
(define
go-synth-call
;; Synth a function call. Returns the result type, or :type-error.
;; 0 results → (list :ty-void)
;; 1 result → that result type directly
;; N results → (list :ty-tuple TYPES) (multi-return)
(fn (ctx callee args)
(let ((fn-ty (go-synth ctx callee)))
(cond
(go-type-error? fn-ty) fn-ty
(not (and (list? fn-ty) (= (first fn-ty) :ty-func)))
(list :type-error :not-callable fn-ty)
:else
(let ((params (nth fn-ty 1)) (results (nth fn-ty 2)))
(cond
(not (= (len args) (len params)))
(list :type-error :arity-mismatch
(len params) (len args))
:else
(let ((err (go-check-args-against ctx args params)))
(cond
(go-type-error? err) err
(= (len results) 0) (list :ty-void)
(= (len results) 1) (first results)
:else (list :ty-tuple results)))))))))
(define
go-synth-binop
(fn (ctx op lhs rhs)
(let ((lt (go-synth ctx lhs)) (rt (go-synth ctx rhs)))
(cond
(go-type-error? lt) lt
(go-type-error? rt) rt
;; Comparison ops always produce bool (untyped-bool, simplified
;; here to :ty-name "bool" until we model untyped-bool).
(some (fn (o) (= o op)) go-compare-binops)
(list :ty-name "bool")
(some (fn (o) (= o op)) go-logical-binops)
(list :ty-name "bool")
;; Arithmetic / bitwise: types must unify.
(or (some (fn (o) (= o op)) go-arith-binops)
(some (fn (o) (= o op)) go-bitwise-binops))
(cond
(and (go-untyped? lt) (go-untyped? rt))
(let ((unified (go-unify-untyped lt rt)))
(cond
(= unified nil)
(list :type-error :binop-untyped-mismatch op lt rt)
:else unified))
(and (go-untyped? lt) (not (go-untyped? rt)))
(cond
(go-type-assignable? lt rt) rt
:else (list :type-error :binop-mismatch op lt rt))
(and (not (go-untyped? lt)) (go-untyped? rt))
(cond
(go-type-assignable? rt lt) lt
:else (list :type-error :binop-mismatch op lt rt))
(go-type-equal? lt rt) lt
:else (list :type-error :binop-mismatch op lt rt))
:else (list :type-error :unsupported-binop op)))))
;; ── check ────────────────────────────────────────────────────────
(define
go-check
(fn
(ctx expr expected)
(let
((got (go-synth ctx expr)))
(cond
(go-type-error? got)
got
(go-type-assignable? got expected)
:ok :else
(list :type-error :mismatch expected got)))))
;; ── default types ────────────────────────────────────────────────
;; Go spec § Constants: the *default type* of an untyped constant
;; is what it becomes when assigned to a sloppily-typed slot
;; (e.g., `var x = 42` makes x an int).
(define
go-default-type
(fn (t)
(cond
(not (list? t)) t
(= (first t) :ty-untyped-int) (list :ty-name "int")
(= (first t) :ty-untyped-float) (list :ty-name "float64")
(= (first t) :ty-untyped-imag) (list :ty-name "complex128")
(= (first t) :ty-untyped-string) (list :ty-name "string")
(= (first t) :ty-untyped-rune) (list :ty-name "int32")
:else t)))
;; ── declaration checking ────────────────────────────────────────
;; Returns either:
;; the extended context (success)
;; (list :type-error TAG ...) (failure)
(define
go-check-exprs-against
;; Check every EXPR in EXPRS is assignable to EXPECTED. Returns the
;; first :type-error encountered, or :ok.
(fn (ctx exprs expected)
(cond
(or (= exprs nil) (= (len exprs) 0)) :ok
:else
(let ((r (go-check ctx (first exprs) expected)))
(cond
(go-type-error? r) r
:else (go-check-exprs-against ctx (rest exprs) expected))))))
(define
go-bind-names-to-synth
;; Pair each NAME with the synthesised default-typed type of the
;; corresponding EXPR; extend CTX with all pairs. NAMES and EXPRS
;; may have different lengths (multi-return funcs aren't here yet);
;; for now we zip the shorter of the two.
(fn (ctx names exprs)
(cond
(or (= (len names) 0) (= (len exprs) 0)) ctx
:else
(let ((t (go-synth ctx (first exprs))))
(cond
(go-type-error? t) t
:else
(let ((ctx2 (go-ctx-extend ctx (first names)
(go-default-type t))))
(go-bind-names-to-synth ctx2 (rest names) (rest exprs))))))))
(define
go-check-var-decl
;; Shape: (:var-decl (:field NAMES TYPE-or-nil) EXPRS-or-nil)
;; or (:const-decl (:field NAMES TYPE-or-nil) EXPRS).
;; Logic is the same for v0; const-vs-var distinction matters for
;; mutability checks which arrive later.
(fn (ctx decl)
(let ((field (nth decl 1)) (exprs (nth decl 2)))
(let ((names (nth field 1)) (ann-ty (nth field 2)))
(cond
;; var x T (no init) → bind names to T
(or (= exprs nil) (= (len exprs) 0))
(cond
(= ann-ty nil) (list :type-error :missing-type-or-init names)
:else (go-ctx-extend-field ctx field))
;; Annotated: var x T = expr — check each expr against T
(not (= ann-ty nil))
(let ((err (go-check-exprs-against ctx exprs ann-ty)))
(cond
(go-type-error? err) err
:else (go-ctx-extend-field ctx field)))
;; Inferred: var x = expr — bind names to default(synth(expr))
:else (go-bind-names-to-synth ctx names exprs))))))
(define
go-check-short-decl
;; Shape: (:short-decl LHS-LIST EXPRS). LHS is a list of (:var NAME).
;; Extracts the names and falls through to bind-names-to-synth.
(fn (ctx decl)
(let ((lhs-list (nth decl 1)) (exprs (nth decl 2)))
(let ((names (map (fn (lhs)
(cond
(and (list? lhs) (= (first lhs) :var))
(nth lhs 1)
:else :unknown))
lhs-list)))
(go-bind-names-to-synth ctx names exprs)))))
(define
go-check-decl
;; Top-level dispatcher: accepts any decl AST shape, returns extended
;; context or :type-error.
(fn (ctx decl)
(cond
(and (list? decl) (= (first decl) :var-decl)) (go-check-var-decl ctx decl)
(and (list? decl) (= (first decl) :const-decl)) (go-check-var-decl ctx decl)
(and (list? decl) (= (first decl) :short-decl)) (go-check-short-decl ctx decl)
(and (list? decl) (= (first decl) :type-decl))
(let ((name (nth decl 1)) (ty (nth decl 2)))
(go-ctx-extend ctx name ty))
(and (list? decl) (= (first decl) :func-decl))
(go-check-func-decl ctx decl)
(and (list? decl) (= (first decl) :method-decl))
(go-check-method-decl ctx decl)
:else ctx)))
;; ── method declarations and interface satisfaction ──────────────
;; Methods are recorded in CTX under a mangled key
;; "#method/RECV-TYPE-NAME/METHOD-NAME"
;; bound to the method's :ty-func signature. Interface satisfaction is
;; a structural lookup over these keys (Go spec § Interface types:
;; "anything with the matching method set satisfies the interface").
(define
go-method-key
(fn (recv-ty-name method-name)
(str "#method/" recv-ty-name "/" method-name)))
(define
go-extract-recv-ty-name
;; Receiver type is T or *T; return the named type's name string.
(fn (recv-ty)
(cond
(and (list? recv-ty) (= (first recv-ty) :ty-name))
(nth recv-ty 1)
(and (list? recv-ty) (= (first recv-ty) :ty-ptr))
(go-extract-recv-ty-name (nth recv-ty 1))
:else nil)))
(define
go-check-method-decl
;; (list :method-decl RECV NAME PARAMS RESULTS BODY)
;; Binds the method under the mangled key, then checks body with
;; receiver + params extended.
(fn (ctx decl)
(let ((recv (nth decl 1)) (name (nth decl 2))
(params (nth decl 3)) (results (nth decl 4))
(body (nth decl 5)))
(let ((recv-ty (nth recv 2)))
(let ((recv-name (go-extract-recv-ty-name recv-ty)))
(let ((sig (list :ty-func
(go-decl-params-to-ty-list params) results)))
(let ((ctx2
(cond
(= recv-name nil) ctx
:else
(go-ctx-extend ctx
(go-method-key recv-name name) sig))))
(cond
(= body nil) ctx2
(and (list? body) (= (first body) :block))
(let ((body-ctx
(go-extend-with-params
(go-ctx-extend-field ctx2 recv) params)))
(let ((err
(go-check-block body-ctx
(nth body 1) results)))
(cond
(go-type-error? err) err
:else ctx2)))
:else ctx2))))))))
(define
go-iface-elems-satisfied?
;; Each :method element in ELEMS must have a matching method in CTX
;; under #method/TY-NAME/M-NAME. :embed elements are skipped in v0
;; (they'd need recursive interface resolution).
(fn (ctx ty-name elems)
(cond
(= (len elems) 0) true
:else
(let ((e (first elems)))
(cond
(= (first e) :method)
(let ((m-name (nth e 1)) (m-params (nth e 2))
(m-results (nth e 3)))
(let ((found (go-ctx-lookup ctx
(go-method-key ty-name m-name))))
(cond
(= found nil) false
(and (= (nth found 1) m-params)
(= (nth found 2) m-results))
(go-iface-elems-satisfied? ctx ty-name (rest elems))
:else false)))
(= (first e) :embed)
(go-iface-elems-satisfied? ctx ty-name (rest elems))
:else
(go-iface-elems-satisfied? ctx ty-name (rest elems)))))))
(define
go-iface-satisfies?
;; Does the type named TY-NAME satisfy the interface IFACE-TYPE
;; under context CTX? Structural method-set match per Go spec.
(fn (ctx ty-name iface-type)
(cond
(not (and (list? iface-type) (= (first iface-type) :ty-interface)))
false
:else (go-iface-elems-satisfied? ctx ty-name (nth iface-type 1)))))
;; ── function-decl checking ──────────────────────────────────────
(define
go-repeat-ty
(fn (n ty acc)
(cond
(<= n 0) acc
:else (go-repeat-ty (- n 1) ty (cons ty acc)))))
(define
go-decl-params-to-ty-list
;; Flatten (:field NAMES TYPE) param groups into a list of types,
;; one entry per name. For func-type signatures.
(fn (params)
(cond
(or (= params nil) (= (len params) 0)) (list)
:else
(let ((field (first params)))
(let ((names (nth field 1)) (ty (nth field 2)))
(let ((rest-tys (go-decl-params-to-ty-list (rest params))))
(go-repeat-ty (len names) ty rest-tys)))))))
(define
go-extend-with-params
;; Extend CTX with every binding in every (:field NAMES TYPE) param group.
(fn (ctx params)
(cond
(or (= params nil) (= (len params) 0)) ctx
:else
(go-extend-with-params
(go-ctx-extend-field ctx (first params))
(rest params)))))
(define
go-check-return-list
;; Each EXPR assignable to the corresponding RESULTS type.
;; v0: lengths must match; multi-return funcs deferred.
(fn (ctx exprs results)
(cond
(and (= (len exprs) 0) (= (len results) 0)) :ok
(not (= (len exprs) (len results)))
(list :type-error :return-count-mismatch
(len exprs) (len results))
:else
(let ((r (go-check ctx (first exprs) (first results))))
(cond
(go-type-error? r) r
:else (go-check-return-list ctx (rest exprs) (rest results)))))))
(define
go-check-assign
(fn (ctx stmt)
(let ((lhs-list (nth stmt 1)) (rhs-list (nth stmt 2)))
(cond
(not (= (len lhs-list) (len rhs-list)))
(list :type-error :assign-count-mismatch
(len lhs-list) (len rhs-list))
:else (go-check-assign-pairs ctx lhs-list rhs-list)))))
(define
go-check-assign-pairs
(fn (ctx lhs-list rhs-list)
(cond
(= (len lhs-list) 0) :ok
:else
(let ((lhs-ty (go-synth ctx (first lhs-list))))
(cond
(go-type-error? lhs-ty) lhs-ty
:else
(let ((r (go-check ctx (first rhs-list) lhs-ty)))
(cond
(go-type-error? r) r
:else
(go-check-assign-pairs ctx (rest lhs-list)
(rest rhs-list)))))))))
(define
go-check-stmt
;; Returns either an extended CTX (decls), :ok (sealed stmts), or
;; :type-error. RESULTS is the enclosing func's declared return types
;; (used by :return).
(fn (ctx stmt results)
(cond
(and (list? stmt) (= (first stmt) :var-decl))
(go-check-decl ctx stmt)
(and (list? stmt) (= (first stmt) :const-decl))
(go-check-decl ctx stmt)
(and (list? stmt) (= (first stmt) :short-decl))
(go-check-decl ctx stmt)
(and (list? stmt) (= (first stmt) :type-decl))
(go-check-decl ctx stmt)
(and (list? stmt) (= (first stmt) :return))
(let ((exprs (nth stmt 1)))
(let ((err (go-check-return-list ctx exprs results)))
(cond (go-type-error? err) err :else ctx)))
(and (list? stmt) (= (first stmt) :block))
(let ((err (go-check-block ctx (nth stmt 1) results)))
(cond (go-type-error? err) err :else ctx))
(and (list? stmt) (= (first stmt) :assign))
(let ((err (go-check-assign ctx stmt)))
(cond (go-type-error? err) err :else ctx))
:else
(let ((t (go-synth ctx stmt)))
(cond (go-type-error? t) t :else ctx)))))
(define
go-check-block
;; Thread ctx through stmts; if any stmt is a decl, its extension
;; propagates to subsequent stmts. Returns :ok or :type-error.
(fn (ctx stmts results)
(cond
(or (= stmts nil) (= (len stmts) 0)) :ok
:else
(let ((r (go-check-stmt ctx (first stmts) results)))
(cond
(go-type-error? r) r
:else (go-check-block r (rest stmts) results))))))
(define
go-check-func-decl
;; Bind the function in the outer ctx (so recursion works), extend
;; ctx with type params + value params, check the body. Returns the
;; outer ctx with the function bound, or :type-error.
;;
;; Type parameters become opaque type variables in the body's ctx:
;; each name `T` is bound as a type alias to (:ty-param "T") so the
;; checker treats references to T as "this type", not "unknown".
;; Constraint enforcement (T satisfies `comparable` etc.) is a
;; later refinement; v0 just allows any operation that's polymorphic
;; under the constraint `any`.
(fn (ctx decl)
(let ((name (nth decl 1)) (params (nth decl 2))
(results (nth decl 3)) (body (nth decl 4))
(type-params (cond (> (len decl) 5) (nth decl 5) :else nil)))
(let ((fn-ty
(list :ty-func
(go-decl-params-to-ty-list params) results)))
(let ((ctx-with-fn (go-ctx-extend ctx name fn-ty)))
(cond
(= body nil) ctx-with-fn
(and (list? body) (= (first body) :block))
(let ((body-ctx
(go-extend-with-type-params
(go-extend-with-params ctx-with-fn params)
type-params)))
(let ((err
(go-check-block body-ctx (nth body 1) results)))
(cond
(go-type-error? err) err
:else ctx-with-fn)))
:else ctx-with-fn))))))
(define
go-extend-with-type-params
;; Each (:field NAMES CONSTRAINT) field contributes opaque type
;; vars: bind each NAME as a type alias to (:ty-param NAME). The
;; constraint type is stored alongside so future "constraint
;; satisfaction" checks can find it; for v0 it's informational.
(fn (ctx type-params)
(cond
(or (= type-params nil) (= (len type-params) 0)) ctx
:else
(let ((field (first type-params)))
(let ((names (nth field 1)) (constraint (nth field 2)))
(go-extend-with-type-params
(go-extend-with-type-param-names ctx names constraint)
(rest type-params)))))))
(define
go-extend-with-type-param-names
(fn (ctx names constraint)
(cond
(= (len names) 0) ctx
:else
(let ((nm (first names)))
(go-extend-with-type-param-names
(go-ctx-extend ctx nm
(list :ty-param nm constraint))
(rest names) constraint)))))

44
lib/search/api.sx
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@@ -1,44 +0,0 @@
;; search public API — assembles the canonical Haskell source from all layers.
;; Tests and callers concatenate `search/src` with their own top-level bindings
;; (e.g. "result = lookupTerm \"cat\" idx\n") and evaluate via the haskell-on-sx
;; interpreter. Public Haskell entry points: indexDoc, lookupTerm, deleteDoc,
;; docFreq, allTerms, tokens, positioned, evalQuery, parseQuery, searchQuery,
;; rankTfIdf, rankBm25, topNTfIdf, topNBm25, fedIndex, aclFilter, searchTfIdfAcl,
;; topNTfIdfAcl, searchBm25Acl, prefixTerms, prefixDocs, prefixRankTfIdf,
;; paginate, pageTfIdf, pageBm25, resultCount, editDist, fuzzyTerms, fuzzyDocs,
;; fuzzyRankTfIdf, highlight, snippet, stem, stemText, stemTokens, indexStemmed,
;; nearDocs, expandTerm, synDocs, synRankTfIdf, queryTerms, searchRankTfIdf,
;; searchRankBm25, suggestN, suggest.
(define
search/src
(str
search/tokenize-src
"\n"
search/index-src
"\n"
search/query-src
"\n"
search/parse-src
"\n"
search/rank-src
"\n"
search/fed-src
"\n"
search/prefix-src
"\n"
search/page-src
"\n"
search/fuzzy-src
"\n"
search/highlight-src
"\n"
search/stem-src
"\n"
search/near-src
"\n"
search/syn-src
"\n"
search/rankq-src
"\n"
search/suggest-src))

55
lib/search/conformance.conf
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@@ -1,55 +0,0 @@
# search-on-sx conformance config — sourced by lib/guest/conformance.sh.
LANG_NAME=search
SCOREBOARD_DIR=lib/search
MODE=counters
COUNTERS_PASS=hk-test-pass
COUNTERS_FAIL=hk-test-fail
TIMEOUT_PER_SUITE=600
PRELOADS=(
lib/haskell/tokenizer.sx
lib/haskell/layout.sx
lib/haskell/parser.sx
lib/haskell/desugar.sx
lib/haskell/runtime.sx
lib/haskell/match.sx
lib/haskell/eval.sx
lib/haskell/map.sx
lib/haskell/set.sx
lib/haskell/testlib.sx
lib/search/tokenize.sx
lib/search/index.sx
lib/search/query.sx
lib/search/parse.sx
lib/search/rank.sx
lib/search/fed.sx
lib/search/prefix.sx
lib/search/page.sx
lib/search/fuzzy.sx
lib/search/highlight.sx
lib/search/stem.sx
lib/search/near.sx
lib/search/syn.sx
lib/search/rankq.sx
lib/search/suggest.sx
lib/search/api.sx
lib/search/testlib.sx
)
SUITES=(
"index:lib/search/tests/index.sx"
"boolean:lib/search/tests/boolean.sx"
"parse:lib/search/tests/parse.sx"
"rank:lib/search/tests/rank.sx"
"integration:lib/search/tests/integration.sx"
"prefix:lib/search/tests/prefix.sx"
"page:lib/search/tests/page.sx"
"fuzzy:lib/search/tests/fuzzy.sx"
"highlight:lib/search/tests/highlight.sx"
"stem:lib/search/tests/stem.sx"
"near:lib/search/tests/near.sx"
"syn:lib/search/tests/syn.sx"
"rankq:lib/search/tests/rankq.sx"
"suggest:lib/search/tests/suggest.sx"
)

3
lib/search/conformance.sh
View File

@@ -1,3 +0,0 @@
#!/usr/bin/env bash
# Thin wrapper — see lib/guest/conformance.sh and lib/search/conformance.conf.
exec bash "$(dirname "$0")/../guest/conformance.sh" "$(dirname "$0")/conformance.conf" "$@"

16
lib/search/fed.sx
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@@ -1,16 +0,0 @@
;; search federation + ACL — Haskell source fragment. Depends on index + rank.
;; Federation merges per-peer INDICES (not ranked results): each peer's local
;; DocIds are relabelled to global ids `gid peer local = peer*1000 + local`
;; (dedupe by (peer,doc-id) is automatic via the bijection), then posting lists
;; are unioned per term. Ranking then runs once over the merged index, which is
;; rank-correct. ACL is a post-rank filter: an injected `permit :: DocId -> Bool`
;; predicate (viewer baked in by the caller) — never baked into the index.
;; fedIndex :: [(PeerId, Index)] -> Index
;; aclFilter :: (DocId -> Bool) -> [DocId] -> [DocId]
;; searchTfIdfAcl :: (DocId -> Bool) -> [Term] -> Index -> [DocId]
;; topNTfIdfAcl :: Int -> (DocId -> Bool) -> [Term] -> Index -> [DocId]
;; searchBm25Acl :: (DocId -> Bool) -> Float -> Float -> [Term] -> Index -> [DocId]
(define
search/fed-src
"gid peer local = peer * 1000 + local\nfedRelabelPosting peer p = (gid peer (fst p), snd p)\nfedRelabelEntry peer e = (fst e, map (fedRelabelPosting peer) (snd e))\nfedRelabelIndex peer idx = map (fedRelabelEntry peer) idx\nfedInsP p [] = [p]\nfedInsP p (q:qs) = if fst p < fst q then p : q : qs else if fst p == fst q then p : qs else q : fedInsP p qs\nfedMergePL a b = foldr fedInsP b a\nfedInsTerm t pl [] = [(t, pl)]\nfedInsTerm t pl (x:xs) = if t < fst x then (t, pl) : x : xs else if t == fst x then (fst x, fedMergePL pl (snd x)) : xs else x : fedInsTerm t pl xs\nfedMergeEntry idx e = fedInsTerm (fst e) (snd e) idx\nfedMergeTwo a b = foldl fedMergeEntry a b\nfedAddPeer acc pair = fedMergeTwo acc (fedRelabelIndex (fst pair) (snd pair))\nfedIndex pairs = foldl fedAddPeer emptyIndex pairs\naclFilter permit docs = filter permit docs\nsearchTfIdfAcl permit ts idx = aclFilter permit (rankTfIdf ts idx)\ntopNTfIdfAcl n permit ts idx = take n (aclFilter permit (rankTfIdf ts idx))\nsearchBm25Acl permit k1 b ts idx = aclFilter permit (rankBm25 k1 b ts idx)\n")

12
lib/search/fuzzy.sx
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@@ -1,12 +0,0 @@
;; search fuzzy matching — Haskell source fragment. Depends on index + rank.
;; Levenshtein edit distance (O(m*n) row-based DP — the naive recursive version is
;; exponential and far too slow under load) expands a query term to all indexed
;; terms within a max distance, then unions / ranks their docs.
;; editDist :: String -> String -> Int
;; fuzzyTerms :: Int -> String -> Index -> [Term] (sorted)
;; fuzzyDocs :: Int -> String -> Index -> [DocId] (sorted union)
;; fuzzyRankTfIdf :: Int -> String -> Index -> [DocId]
(define
search/fuzzy-src
"edMin3 a b c = min a (min b c)\nedCost x y = if x == y then 0 else 1\nedUpto i n = if i > n then [] else i : edUpto (i + 1) n\nedLast [x] = x\nedLast (x:xs) = edLast xs\nedNrow x [] prev left = []\nedNrow x (y:ys) prev left = let v = edMin3 (head (tail prev) + 1) (left + 1) (head prev + edCost x y) in v : edNrow x ys (tail prev) v\nedRow x ys prev = let f = head prev + 1 in f : edNrow x ys prev f\nedRows [] ys prev = prev\nedRows (x:xs) ys prev = edRows xs ys (edRow x ys prev)\neditDist xs ys = edLast (edRows xs ys (edUpto 0 (length ys)))\nqWithinDist maxd term t = editDist term t <= maxd\nfuzzyTerms maxd term idx = filter (qWithinDist maxd term) (allTerms idx)\nfuzzyDocs maxd term idx = foldl (candStep idx) [] (fuzzyTerms maxd term idx)\nfuzzyRankTfIdf maxd term idx = rankTfIdf (fuzzyTerms maxd term idx) idx\n")

10
lib/search/highlight.sx
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@@ -1,10 +0,0 @@
;; search highlight / snippet — Haskell source fragment. Depends on tokenize.
;; Operates on document text (not the index): marks query-matching tokens with
;; [..] and extracts a context window around the first match. Tokens are
;; normalized (lowercase, punctuation-stripped) by `tokens`, matching index side.
;; highlight :: [Term] -> String -> String
;; snippet :: Int -> [Term] -> String -> String (ctx tokens each side of 1st match)
(define
search/highlight-src
"hlMark terms t = if elem t terms then \"[\" ++ t ++ \"]\" else t\nhighlight terms text = unwords (map (hlMark terms) (tokens text))\nhlIdxFrom terms [] i = 0 - 1\nhlIdxFrom terms (t:ts) i = if elem t terms then i else hlIdxFrom terms ts (i + 1)\nhlIdx terms toks = hlIdxFrom terms toks 0\nhlMax0 x = if x < 0 then 0 else x\nsnipStart ctx i = if i < 0 then 0 else hlMax0 (i - ctx)\nsnipToks ctx terms toks = unwords (map (hlMark terms) (take (2 * ctx + 1) (drop (snipStart ctx (hlIdx terms toks)) toks)))\nsnippet ctx terms text = snipToks ctx terms (tokens text)\n")

15
lib/search/index.sx
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@@ -1,15 +0,0 @@
;; search inverted index — Haskell source fragment (depends on tokenize).
;; Index = [(Term, [(DocId, [Pos])])], sorted by Term; postings sorted by DocId.
;; Data.Map's public API lacks toList/keys/map/filter, so a sorted assoc-list
;; index is used — it is the conceptual `Map Term [(DocId,[Pos])]` and exposes
;; term iteration (allTerms) and df naturally for ranking.
;; emptyIndex :: Index
;; indexDoc :: DocId -> String -> Index -> Index (re-index replaces)
;; lookupTerm :: Term -> Index -> [(DocId, [Pos])]
;; deleteDoc :: DocId -> Index -> Index
;; docFreq :: Term -> Index -> Int
;; allTerms :: Index -> [Term]
(define
search/index-src
"emptyIndex = []\ngroupBump [] t p = [(t, [p])]\ngroupBump (g:gs) t p = if fst g == t then (t, snd g ++ [p]) : gs else g : groupBump gs t p\ngroupStep acc tp = groupBump acc (fst tp) (snd tp)\ngroupTok pairs = foldl groupStep [] pairs\ninsPosting d ps [] = [(d, ps)]\ninsPosting d ps (q:qs) = if d < fst q then (d, ps) : q : qs else if d == fst q then (d, ps) : qs else q : insPosting d ps qs\ninsTerm t d ps [] = [(t, [(d, ps)])]\ninsTerm t d ps (e:es) = if t < fst e then (t, [(d, ps)]) : e : es else if t == fst e then (fst e, insPosting d ps (snd e)) : es else e : insTerm t d ps es\nindexStep d ix tp = insTerm (fst tp) d (snd tp) ix\nindexDoc d text idx = foldl (indexStep d) idx (groupTok (positioned text))\nlookupTerm t idx = case lookup t idx of { Nothing -> []; Just pl -> pl }\ndocFreq t idx = length (lookupTerm t idx)\nallTerms idx = map fst idx\npostingKeep d q = fst q /= d\ndropTermDoc d e = (fst e, filter (postingKeep d) (snd e))\nplKeep e = not (null (snd e))\ndeleteDoc d idx = filter plKeep (map (dropTermDoc d) idx)\n")

8
lib/search/near.sx
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@@ -1,8 +0,0 @@
;; search proximity (NEAR) — Haskell source fragment. Depends on query (posIn,
;; docsWith, sortedInter). Finds docs where two terms occur within k positions of
;; each other (unordered), using the positional postings.
;; nearDocs :: Int -> Term -> Term -> Index -> [DocId] (sorted)
(define
search/near-src
"nrAbsDiff a b = if a > b then a - b else b - a\nnrCloseTo k x [] = False\nnrCloseTo k x (y:ys) = if nrAbsDiff x y <= k then True else nrCloseTo k x ys\nnrAnyClose k [] ys = False\nnrAnyClose k (x:xs) ys = if nrCloseTo k x ys then True else nrAnyClose k xs ys\nnearInDoc k t1 t2 d idx = nrAnyClose k (posIn t1 d idx) (posIn t2 d idx)\nnearHere k t1 t2 idx d = nearInDoc k t1 t2 d idx\nnearDocs k t1 t2 idx = filter (nearHere k t1 t2 idx) (sortedInter (docsWith t1 idx) (docsWith t2 idx))\n")

11
lib/search/page.sx
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@@ -1,11 +0,0 @@
;; search pagination — Haskell source fragment. Depends on rank.
;; Windows a ranked result list by offset/limit (offset >= length -> empty;
;; limit clamps to what remains).
;; paginate :: Int -> Int -> [DocId] -> [DocId] (offset, limit)
;; pageTfIdf :: Int -> Int -> [Term] -> Index -> [DocId]
;; pageBm25 :: Int -> Int -> Float -> Float -> [Term] -> Index -> [DocId]
;; resultCount :: [Term] -> Index -> Int
(define
search/page-src
"paginate off lim docs = take lim (drop off docs)\npageTfIdf off lim ts idx = paginate off lim (rankTfIdf ts idx)\npageBm25 off lim k1 b ts idx = paginate off lim (rankBm25 k1 b ts idx)\nresultCount ts idx = length (rankTfIdf ts idx)\n")

18
lib/search/parse.sx
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@@ -1,18 +0,0 @@
;; search query parser — Haskell source fragment. Depends on tokenize + query.
;; Grammar (precedence OR < AND < NOT):
;; expr = orExpr
;; orExpr = andExpr (OR andExpr)*
;; andExpr= notExpr ((AND | <implicit>) notExpr)* -- adjacency means AND
;; notExpr= NOT notExpr | atom
;; atom = '(' expr ')' | '"' word+ '"' | word
;; Keywords AND/OR/NOT are case-insensitive; bare words are normalized via tokens.
;; Gotchas: delimiters matched by ord (escaped char literals like '\"' break the
;; haskell-on-sx tokenizer); an [] *pattern* inside a `case` alt also breaks the
;; parser, so qNormTerm/qDropRP/showQ are written as multi-clause functions.
;; parseQuery :: String -> Query
;; searchQuery :: String -> Index -> [DocId]
;; showQ :: Query -> String -- canonical render for tests/debug
(define
search/parse-src
"data QTok = TAnd | TOr | TNot | TLP | TRP | TWord String | TPhrase [String]\nqIsSpace c = ord c == 32\nqIsLP c = ord c == 40\nqIsRP c = ord c == 41\nqIsQuote c = ord c == 34\nqDelim c = qIsSpace c || qIsLP c || qIsRP c || qIsQuote c\nqReadWord [] = ([], [])\nqReadWord (c:cs) = if qDelim c then ([], c:cs) else let (w, rest) = qReadWord cs in (c:w, rest)\nqReadPhrase [] = ([], [])\nqReadPhrase (c:cs) = if qIsQuote c then ([], cs) else let (w, rest) = qReadPhrase cs in (c:w, rest)\ntoUpperCh c = chr (toUpper (ord c))\nqUpper w = joinChars (map toUpperCh w)\nqFirstTok [] = \"\"\nqFirstTok (x:xs) = x\nqNormTerm w = qFirstTok (tokens w)\nqClassify w = if qUpper w == \"AND\" then TAnd else if qUpper w == \"OR\" then TOr else if qUpper w == \"NOT\" then TNot else TWord (qNormTerm w)\nqPhraseTok cs = let (p, rest) = qReadPhrase cs in TPhrase (tokens p) : qtokens rest\nqWordTok cs = let (w, rest) = qReadWord cs in qClassify w : qtokens rest\nqtokens [] = []\nqtokens (c:cs) = if qIsSpace c then qtokens cs else if qIsLP c then TLP : qtokens cs else if qIsRP c then TRP : qtokens cs else if qIsQuote c then qPhraseTok cs else qWordTok (c:cs)\nqDropRP (q, (TRP:rest)) = (q, rest)\nqDropRP (q, ts) = (q, ts)\nparseAtom [] = (Term \"\", [])\nparseAtom (TLP:ts) = qDropRP (parseExpr ts)\nparseAtom (TPhrase ps : ts) = (Phrase ps, ts)\nparseAtom (TWord w : ts) = (Term w, ts)\nparseAtom ts = (Term \"\", ts)\nqWrapNot (q, ts) = (Not q, ts)\nparseNot (TNot:ts) = qWrapNot (parseNot ts)\nparseNot ts = parseAtom ts\nqStartsAtom (TWord w : ts) = True\nqStartsAtom (TPhrase p : ts) = True\nqStartsAtom (TLP : ts) = True\nqStartsAtom (TNot : ts) = True\nqStartsAtom ts = False\nqAndStep left ts = let (r, rest) = parseNot ts in parseAndR (And left r) rest\nparseAndR left (TAnd:ts) = qAndStep left ts\nparseAndR left ts = if qStartsAtom ts then qAndStep left ts else (left, ts)\nparseAnd ts = let (l, rest) = parseNot ts in parseAndR l rest\nparseOrR left (TOr:ts) = let (r, rest) = parseAnd ts in parseOrR (Or left r) rest\nparseOrR left ts = (left, ts)\nparseExpr ts = let (l, rest) = parseAnd ts in parseOrR l rest\nparseQuery s = fst (parseExpr (qtokens s))\nsearchQuery s idx = evalQuery idx (parseQuery s)\njoinSp [] = \"\"\njoinSp [x] = x\njoinSp (x:xs) = x ++ \"-\" ++ joinSp xs\nshowQ (Term t) = \"T:\" ++ t\nshowQ (And a b) = \"(\" ++ showQ a ++ \" & \" ++ showQ b ++ \")\"\nshowQ (Or a b) = \"(\" ++ showQ a ++ \" | \" ++ showQ b ++ \")\"\nshowQ (Not a) = \"!\" ++ showQ a\nshowQ (Phrase ts) = \"P:\" ++ joinSp ts\n")

10
lib/search/prefix.sx
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@@ -1,10 +0,0 @@
;; search prefix / wildcard queries — Haskell source fragment. Depends on index +
;; rank (reuses candStep / rankTfIdf). A prefix matches every indexed term that
;; starts with it; the matching terms are unioned (OR) into a docid set.
;; prefixTerms :: String -> Index -> [Term] (sorted, from allTerms)
;; prefixDocs :: String -> Index -> [DocId] (sorted union)
;; prefixRankTfIdf :: String -> Index -> [DocId] (ranked by the matched terms)
(define
search/prefix-src
"prefixTerms pre idx = filter (isPrefixOf pre) (allTerms idx)\nprefixDocs pre idx = foldl (candStep idx) [] (prefixTerms pre idx)\nprefixRankTfIdf pre idx = rankTfIdf (prefixTerms pre idx) idx\n")

11
lib/search/query.sx
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@@ -1,11 +0,0 @@
;; search query AST + boolean/phrase evaluation — Haskell source fragment.
;; Depends on tokenize + index.
;; data Query = Term String | And Query Query | Or Query Query
;; | Not Query | Phrase [String]
;; evalQuery :: Index -> Query -> [DocId] (sorted, unique)
;; Boolean ops are linear merges over docid-sorted posting lists; Not uses
;; allDocs as the universe; Phrase checks positional adjacency.
(define
search/query-src
"data Query = Term String | And Query Query | Or Query Query | Not Query | Phrase [String]\ndocsWith t idx = map fst (lookupTerm t idx)\nsortedUnion [] ys = ys\nsortedUnion xs [] = xs\nsortedUnion (x:xs) (y:ys) = if x < y then x : sortedUnion xs (y:ys) else if x > y then y : sortedUnion (x:xs) ys else x : sortedUnion xs ys\nsortedInter [] ys = []\nsortedInter xs [] = []\nsortedInter (x:xs) (y:ys) = if x < y then sortedInter xs (y:ys) else if x > y then sortedInter (x:xs) ys else x : sortedInter xs ys\nsortedDiff [] ys = []\nsortedDiff xs [] = xs\nsortedDiff (x:xs) (y:ys) = if x < y then x : sortedDiff xs (y:ys) else if x > y then sortedDiff (x:xs) ys else sortedDiff xs ys\nmergeDocs acc e = sortedUnion acc (map fst (snd e))\nallDocs idx = foldl mergeDocs [] idx\nposIn t d idx = case lookup d (lookupTerm t idx) of { Nothing -> []; Just ps -> ps }\nelemSorted x [] = False\nelemSorted x (y:ys) = if x == y then True else if x < y then False else elemSorted x ys\nphraseAtAll [] d idx p i = True\nphraseAtAll (t:ts) d idx p i = if elemSorted (p + i) (posIn t d idx) then phraseAtAll ts d idx p (i + 1) else False\nphraseStartsAt ts d idx p = phraseAtAll ts d idx p 0\nphraseInDoc [] d idx = True\nphraseInDoc (t0:rest) d idx = any (phraseStartsAt (t0:rest) d idx) (posIn t0 d idx)\nphraseHere ts idx d = phraseInDoc ts d idx\ninterStep idx acc tt = sortedInter acc (docsWith tt idx)\nphraseCands [] idx = allDocs idx\nphraseCands (t:ts) idx = foldl (interStep idx) (docsWith t idx) ts\nphraseDocs ts idx = filter (phraseHere ts idx) (phraseCands ts idx)\nevalQuery idx q = case q of { Term t -> docsWith t idx ; And a b -> sortedInter (evalQuery idx a) (evalQuery idx b) ; Or a b -> sortedUnion (evalQuery idx a) (evalQuery idx b) ; Not a -> sortedDiff (allDocs idx) (evalQuery idx a) ; Phrase ts -> phraseDocs ts idx }\n")

14
lib/search/rank.sx
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@@ -1,14 +0,0 @@
;; search ranking — Haskell source fragment. Depends on tokenize + index + query.
;; Ranked retrieval over the candidate set (docs containing any query term).
;; Scores are floats; ties broken by DocId ascending (deterministic).
;; numDocs :: Index -> Int
;; docFreq :: Term -> Index -> Int (from index)
;; docLen :: DocId -> Index -> Int
;; rankTfIdf :: [Term] -> Index -> [DocId]
;; topNTfIdf :: Int -> [Term] -> Index -> [DocId]
;; rankBm25 :: Float -> Float -> [Term] -> Index -> [DocId] (k1, b)
;; topNBm25 :: Int -> Float -> Float -> [Term] -> Index -> [DocId]
(define
search/rank-src
"numDocs idx = length (allDocs idx)\ntfIn t d idx = length (posIn t d idx)\nqIdf n df = if df == 0 then 0 else log (n / df)\nidf t idx = qIdf (numDocs idx) (docFreq t idx)\ntermScoreTf idx d t = tfIn t d idx * idf t idx\ntfidfDoc ts idx d = sum (map (termScoreTf idx d) ts)\ncandStep idx acc t = sortedUnion acc (docsWith t idx)\ncandDocs ts idx = foldl (candStep idx) [] ts\ncmpScore p1 p2 = if fst p1 > fst p2 then LT else if fst p1 < fst p2 then GT else compare (snd p1) (snd p2)\nmkPair f ts idx d = (f ts idx d, d)\nrankWith f ts idx = map snd (sortBy cmpScore (map (mkPair f ts idx) (candDocs ts idx)))\nrankTfIdf ts idx = rankWith tfidfDoc ts idx\ntopNTfIdf n ts idx = take n (rankTfIdf ts idx)\ntfAt d idx t = tfIn t d idx\ndocLen d idx = sum (map (tfAt d idx) (allTerms idx))\nlenAt idx d = docLen d idx\navgDocLen idx = sum (map (lenAt idx) (allDocs idx)) / numDocs idx\nbm25idf t idx = log ((numDocs idx - docFreq t idx + 0.5) / (docFreq t idx + 0.5) + 1)\nbm25Term k1 b avgdl idx d t = bm25idf t idx * (tfIn t d idx * (k1 + 1)) / (tfIn t d idx + k1 * (1 - b + b * docLen d idx / avgdl))\nbm25Doc k1 b ts idx d = sum (map (bm25Term k1 b (avgDocLen idx) idx d) ts)\nrankBm25 k1 b ts idx = rankWith (bm25Doc k1 b) ts idx\ntopNBm25 n k1 b ts idx = take n (rankBm25 k1 b ts idx)\n")

11
lib/search/rankq.sx
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;; search boolean-filtered ranked search — Haskell source fragment.
;; Depends on parse (parseQuery/Query), query (evalQuery), rank (tfidfDoc/bm25Doc/
;; cmpScore). Filters by the boolean query, then ranks the surviving docs by
;; relevance over the query's leaf terms — the real-world filter-then-rank pattern.
;; queryTerms :: Query -> [Term]
;; searchRankTfIdf :: String -> Index -> [DocId]
;; searchRankBm25 :: Float -> Float -> String -> Index -> [DocId]
(define
search/rankq-src
"queryTerms (Term t) = [t]\nqueryTerms (And a b) = queryTerms a ++ queryTerms b\nqueryTerms (Or a b) = queryTerms a ++ queryTerms b\nqueryTerms (Not a) = queryTerms a\nqueryTerms (Phrase ts) = ts\nmkSubPair f terms idx d = (f terms idx d, d)\nrankSubsetWith f terms docs idx = map snd (sortBy cmpScore (map (mkSubPair f terms idx) docs))\nsearchRankTfIdf s idx = let q = parseQuery s in rankSubsetWith tfidfDoc (queryTerms q) (evalQuery idx q) idx\nsearchRankBm25 k1 b s idx = let q = parseQuery s in rankSubsetWith (bm25Doc k1 b) (queryTerms q) (evalQuery idx q) idx\n")

23
lib/search/scoreboard.json
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{
"lang": "search",
"total_passed": 234,
"total_failed": 0,
"total": 234,
"suites": [
{"name":"index","passed":18,"failed":0,"total":18},
{"name":"boolean","passed":28,"failed":0,"total":28},
{"name":"parse","passed":32,"failed":0,"total":32},
{"name":"rank","passed":23,"failed":0,"total":23},
{"name":"integration","passed":21,"failed":0,"total":21},
{"name":"prefix","passed":14,"failed":0,"total":14},
{"name":"page","passed":12,"failed":0,"total":12},
{"name":"fuzzy","passed":18,"failed":0,"total":18},
{"name":"highlight","passed":12,"failed":0,"total":12},
{"name":"stem","passed":18,"failed":0,"total":18},
{"name":"near","passed":9,"failed":0,"total":9},
{"name":"syn","passed":9,"failed":0,"total":9},
{"name":"rankq","passed":11,"failed":0,"total":11},
{"name":"suggest","passed":9,"failed":0,"total":9}
],
"generated": "2026-06-07T00:44:05+00:00"
}

20
lib/search/scoreboard.md
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@@ -1,20 +0,0 @@
# search scoreboard
**234 / 234 passing** (0 failure(s)).
| Suite | Passed | Total | Status |
|-------|--------|-------|--------|
| index | 18 | 18 | ok |
| boolean | 28 | 28 | ok |
| parse | 32 | 32 | ok |
| rank | 23 | 23 | ok |
| integration | 21 | 21 | ok |
| prefix | 14 | 14 | ok |
| page | 12 | 12 | ok |
| fuzzy | 18 | 18 | ok |
| highlight | 12 | 12 | ok |
| stem | 18 | 18 | ok |
| near | 9 | 9 | ok |
| syn | 9 | 9 | ok |
| rankq | 11 | 11 | ok |
| suggest | 9 | 9 | ok |

15
lib/search/stem.sx
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;; search stemming — Haskell source fragment. Depends on tokenize + index.
;; Lightweight, deterministic English suffix stripping (recall-improving
;; normalizer). Rules are checked most-specific first; conservative length guards
;; avoid mangling short words. Not a full Porter stemmer.
;; Gotcha: take/drop over a String yield char CODES (ints), not char strings, so
;; rebuild strings with `stStr = joinChars . map chr`. (isSuffixOf's reverse also
;; trips `++` on the String representation, hence the manual stEnds.)
;; stem :: String -> String
;; stemText :: String -> String (tokenize + stem + rejoin)
;; stemTokens :: String -> [String]
;; indexStemmed:: DocId -> String -> Index -> Index (index the stemmed text)
(define
search/stem-src
"stStr cs = joinChars (map chr cs)\nstEnds suf w = let n = length w in let m = length suf in if m > n then False else stStr (drop (n - m) w) == suf\nstDropEnd k w = stStr (take (length w - k) w)\nstem w = if stEnds \"ies\" w && length w >= 5 then stDropEnd 3 w ++ \"y\" else if stEnds \"ss\" w then w else if stEnds \"es\" w && length w >= 5 then stDropEnd 2 w else if stEnds \"s\" w && length w >= 4 then stDropEnd 1 w else if stEnds \"ing\" w && length w >= 6 then stDropEnd 3 w else if stEnds \"ed\" w && length w >= 5 then stDropEnd 2 w else w\nstemTokens s = map stem (tokens s)\nstemText s = unwords (stemTokens s)\nindexStemmed d text idx = indexDoc d (stemText text) idx\n")

9
lib/search/suggest.sx
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;; search did-you-mean / spelling suggestion — Haskell source fragment.
;; Depends on fuzzy (editDist) + index (allTerms). Ranks indexed terms by edit
;; distance to a (possibly misspelled) query term; ties broken alphabetically.
;; suggestN :: Int -> String -> Index -> [Term]
;; suggest :: String -> Index -> Term ("" if the index has no terms)
(define
search/suggest-src
"sgMk term t = (editDist term t, t)\nsgPairs term idx = map (sgMk term) (allTerms idx)\nsgCmp p1 p2 = if fst p1 < fst p2 then LT else if fst p1 > fst p2 then GT else compare (snd p1) (snd p2)\nsuggestN n term idx = take n (map snd (sortBy sgCmp (sgPairs term idx)))\nsgHead [] = \"\"\nsgHead (x:xs) = x\nsuggest term idx = sgHead (suggestN 1 term idx)\n")

10
lib/search/syn.sx
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;; search synonym / query expansion — Haskell source fragment. Depends on index +
;; rank. A synonym map is an assoc list [(Term, [Term])]; a query term is expanded
;; to itself plus its synonyms, then the expanded set is unioned / ranked.
;; expandTerm :: [(Term,[Term])] -> Term -> [Term]
;; synDocs :: [(Term,[Term])] -> Term -> Index -> [DocId]
;; synRankTfIdf :: [(Term,[Term])] -> Term -> Index -> [DocId]
(define
search/syn-src
"synLookup synmap t = case lookup t synmap of { Nothing -> [] ; Just ss -> ss }\nexpandTerm synmap t = t : synLookup synmap t\nsynDocs synmap t idx = foldl (candStep idx) [] (expandTerm synmap t)\nsynRankTfIdf synmap t idx = rankTfIdf (expandTerm synmap t) idx\n")

50
lib/search/testlib.sx
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;; search test helpers — convert forced haskell values to plain SX and run
;; programs built on top of search/src. Reuses hk-test / counters from
;; lib/haskell/testlib.sx (preloaded by the conformance config).
;; Recursively turn a forced HK value into plain SX:
;; cons-list -> SX list, Tuple -> SX list, leaves unchanged.
(define
search-hk->sx
(fn
(v)
(cond
((and (list? v) (not (empty? v)) (= (first v) "[]")) (list))
((and (list? v) (not (empty? v)) (= (first v) ":"))
(cons
(search-hk->sx (nth v 1))
(search-hk->sx (nth v 2))))
((and (list? v) (not (empty? v)) (= (first v) "Tuple"))
(map search-hk->sx (rest v)))
(:else v))))
;; Evaluate `extra` (extra top-level Haskell bindings) on top of search/src
;; and return binding `name` as plain SX.
(define
search-eval
(fn
(extra name)
(search-hk->sx
(hk-deep-force
(get (hk-eval-program (hk-core (str search/src extra))) name)))))
(define
search-join
(fn
(sep xs)
(cond
((empty? xs) "")
((empty? (rest xs)) (first xs))
(:else (str (first xs) sep (search-join sep (rest xs)))))))
;; Batch many haskell expressions into ONE program evaluation (amortizes the
;; cost of parsing/binding search/src — important under heavy CPU load).
;; `setup` is extra top-level Haskell; `exprs` is a list of expression strings
;; whose results form a single haskell list. Returns the SX list of results.
(define
search-batch
(fn
(setup exprs)
(search-eval
(str setup "\nresult = [" (search-join ", " exprs) "]\n")
"result")))

123
lib/search/tests/boolean.sx
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@@ -1,123 +0,0 @@
;; Phase 2 — query AST + boolean/phrase evaluation (hand-built Query values).
;; Corpus:
;; doc 1 "the quick brown dog" -> the quick brown dog
;; doc 2 "a quick brown fox" -> a quick brown fox
;; doc 3 "the dog barks loudly" -> the dog barks loudly
;; All queries run in ONE program evaluation (search-batch) to stay fast.
(define
search-corpus
"idx = indexDoc 3 \"the dog barks loudly\" (indexDoc 2 \"a quick brown fox\" (indexDoc 1 \"the quick brown dog\" emptyIndex))\n")
(define
bool-cases
(list
(list
"term in two docs"
"evalQuery idx (Term \"quick\")"
(list 1 2))
(list
"term in two docs (the)"
"evalQuery idx (Term \"the\")"
(list 1 3))
(list "term in one doc" "evalQuery idx (Term \"fox\")" (list 2))
(list "term absent" "evalQuery idx (Term \"zzz\")" (list))
(list
"term case-sensitive at AST level"
"evalQuery idx (Term \"QUICK\")"
(list))
(list "term on empty index" "evalQuery emptyIndex (Term \"cat\")" (list))
(list
"and both terms"
"evalQuery idx (And (Term \"quick\") (Term \"brown\"))"
(list 1 2))
(list
"and overlap subset"
"evalQuery idx (And (Term \"the\") (Term \"dog\"))"
(list 1 3))
(list
"and disjoint is empty"
"evalQuery idx (And (Term \"the\") (Term \"fox\"))"
(list))
(list
"and right-nested"
"evalQuery idx (And (Term \"the\") (And (Term \"dog\") (Term \"barks\")))"
(list 3))
(list
"or two singletons"
"evalQuery idx (Or (Term \"fox\") (Term \"barks\"))"
(list 2 3))
(list
"or all docs"
"evalQuery idx (Or (Term \"quick\") (Term \"the\"))"
(list 1 2 3))
(list
"or with absent term"
"evalQuery idx (Or (Term \"fox\") (Term \"zzz\"))"
(list 2))
(list "not term" "evalQuery idx (Not (Term \"the\"))" (list 2))
(list "not term 2" "evalQuery idx (Not (Term \"quick\"))" (list 3))
(list
"and with not"
"evalQuery idx (And (Term \"quick\") (Not (Term \"the\")))"
(list 2))
(list
"double negation"
"evalQuery idx (Not (Not (Term \"fox\")))"
(list 2))
(list
"or of and with term"
"evalQuery idx (Or (And (Term \"the\") (Term \"dog\")) (Term \"fox\"))"
(list 1 2 3))
(list
"phrase adjacent both docs"
"evalQuery idx (Phrase [\"quick\", \"brown\"])"
(list 1 2))
(list
"phrase adjacent one doc"
"evalQuery idx (Phrase [\"brown\", \"dog\"])"
(list 1))
(list
"phrase the quick"
"evalQuery idx (Phrase [\"the\", \"quick\"])"
(list 1))
(list
"phrase dog barks"
"evalQuery idx (Phrase [\"dog\", \"barks\"])"
(list 3))
(list
"phrase non-adjacent empty"
"evalQuery idx (Phrase [\"quick\", \"dog\"])"
(list))
(list
"phrase order matters"
"evalQuery idx (Phrase [\"brown\", \"quick\"])"
(list))
(list
"phrase single term"
"evalQuery idx (Phrase [\"dog\"])"
(list 1 3))
(list
"phrase three terms"
"evalQuery idx (Phrase [\"the\", \"dog\", \"barks\"])"
(list 3))
(list
"and of phrase and term"
"evalQuery idx (And (Phrase [\"quick\", \"brown\"]) (Term \"dog\"))"
(list 1))
(list
"not of phrase"
"evalQuery idx (Not (Phrase [\"quick\", \"brown\"]))"
(list 3))))
(define
bool-results
(search-batch search-corpus (map (fn (c) (nth c 1)) bool-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth bool-results i) (nth c 2)))
bool-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

74
lib/search/tests/fuzzy.sx
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@@ -1,74 +0,0 @@
;; Extension — fuzzy matching via Levenshtein edit distance.
;; Corpus: 1 "color flavor" 2 "colour kitten" 3 "colored"
;; allTerms: color colored colour flavor kitten
(define
fuzzy-setup
"idx = indexDoc 3 \"colored\" (indexDoc 2 \"colour kitten\" (indexDoc 1 \"color flavor\" emptyIndex))\n")
(define
fuzzy-cases
(list
(list
"editDist substitution"
"[editDist \"kitten\" \"sitten\"]"
(list 1))
(list "editDist equal" "[editDist \"abc\" \"abc\"]" (list 0))
(list "editDist deletion" "[editDist \"abc\" \"ab\"]" (list 1))
(list "editDist insertion" "[editDist \"ab\" \"abc\"]" (list 1))
(list "editDist from empty" "[editDist \"\" \"abc\"]" (list 3))
(list "editDist both empty" "[editDist \"\" \"\"]" (list 0))
(list
"editDist classic"
"[editDist \"kitten\" \"sitting\"]"
(list 3))
(list
"editDist color colour"
"[editDist \"color\" \"colour\"]"
(list 1))
(list
"editDist color colored"
"[editDist \"color\" \"colored\"]"
(list 2))
(list
"fuzzy terms dist 1"
"fuzzyTerms 1 \"color\" idx"
(list "color" "colour"))
(list
"fuzzy terms dist 2"
"fuzzyTerms 2 \"color\" idx"
(list "color" "colored" "colour"))
(list "fuzzy terms exact" "fuzzyTerms 0 \"color\" idx" (list "color"))
(list
"fuzzy terms other word"
"fuzzyTerms 1 \"flavour\" idx"
(list "flavor"))
(list
"fuzzy docs dist 1"
"fuzzyDocs 1 \"color\" idx"
(list 1 2))
(list
"fuzzy docs dist 2"
"fuzzyDocs 2 \"color\" idx"
(list 1 2 3))
(list "fuzzy docs none" "fuzzyDocs 1 \"zzzzz\" idx" (list))
(list
"fuzzy rank dist 1"
"fuzzyRankTfIdf 1 \"color\" idx"
(list 1 2))
(list
"fuzzy rank dist 2"
"fuzzyRankTfIdf 2 \"color\" idx"
(list 1 2 3))))
(define
fuzzy-results
(search-batch fuzzy-setup (map (fn (c) (nth c 1)) fuzzy-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth fuzzy-results i) (nth c 2)))
fuzzy-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

66
lib/search/tests/highlight.sx
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@@ -1,66 +0,0 @@
;; Extension — highlight + snippet over document text.
;; Text: "the quick brown fox jumps"
(define
hl-cases
(list
(list
"highlight two terms"
"highlight [\"quick\", \"fox\"] \"the quick brown fox jumps\""
"the [quick] brown [fox] jumps")
(list
"highlight none"
"highlight [] \"the quick brown fox jumps\""
"the quick brown fox jumps")
(list
"highlight absent term"
"highlight [\"zzz\"] \"the quick brown fox jumps\""
"the quick brown fox jumps")
(list
"highlight first token"
"highlight [\"the\"] \"the quick brown fox jumps\""
"[the] quick brown fox jumps")
(list
"highlight normalizes text"
"highlight [\"quick\"] \"The Quick, brown!\""
"the [quick] brown")
(list
"snippet around middle"
"snippet 1 [\"brown\"] \"the quick brown fox jumps\""
"quick [brown] fox")
(list
"snippet at start"
"snippet 1 [\"the\"] \"the quick brown fox jumps\""
"[the] quick brown")
(list
"snippet near end"
"snippet 1 [\"fox\"] \"the quick brown fox jumps\""
"brown [fox] jumps")
(list
"snippet ctx zero"
"snippet 0 [\"brown\"] \"the quick brown fox jumps\""
"[brown]")
(list
"snippet clamps at end"
"snippet 2 [\"jumps\"] \"the quick brown fox jumps\""
"brown fox [jumps]")
(list
"snippet no match shows head"
"snippet 1 [\"zzz\"] \"the quick brown fox jumps\""
"the quick brown")
(list
"snippet wide window"
"snippet 5 [\"brown\"] \"the quick brown fox jumps\""
"the quick [brown] fox jumps")))
(define
hl-results
(search-batch "" (map (fn (c) (nth c 1)) hl-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth hl-results i) (nth c 2)))
hl-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

88
lib/search/tests/index.sx
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@@ -1,88 +0,0 @@
;; Phase 1 — tokenize + inverted index.
;; All cases run in ONE program evaluation (search-batch) to stay fast under load.
;; Scalar results (docFreq) are wrapped as singleton lists so the batch is a list
;; of lists.
(define
index-cases
(list
(list
"tokens basic lowercases"
"tokens \"The Cat sat\""
(list "the" "cat" "sat"))
(list
"tokens strips punctuation"
"tokens \"Hello, World!\""
(list "hello" "world"))
(list "tokens collapses whitespace" "tokens \" a b \"" (list "a" "b"))
(list "tokens empty is empty" "tokens \"\"" (list))
(list "tokens keeps digits" "tokens \"abc123 x9\"" (list "abc123" "x9"))
(list
"positioned attaches ordinals"
"positioned \"a b a\""
(list
(list "a" 0)
(list "b" 1)
(list "a" 2)))
(list
"index + lookup single doc"
"lookupTerm \"cat\" (indexDoc 1 \"the cat sat\" emptyIndex)"
(list (list 1 (list 1))))
(list
"lookup missing term is empty"
"lookupTerm \"dog\" (indexDoc 1 \"the cat sat\" emptyIndex)"
(list))
(list
"lookup records all positions"
"lookupTerm \"the\" (indexDoc 1 \"the cat the dog the\" emptyIndex)"
(list (list 1 (list 0 2 4))))
(list
"multi-doc posting list sorted by docid"
"lookupTerm \"x\" (indexDoc 1 \"x y\" (indexDoc 2 \"x z\" emptyIndex))"
(list
(list 1 (list 0))
(list 2 (list 0))))
(list
"index/query case symmetry"
"lookupTerm \"cat\" (indexDoc 1 \"CAT Cat cat\" emptyIndex)"
(list (list 1 (list 0 1 2))))
(list
"re-index replaces a doc"
"lookupTerm \"a\" (indexDoc 1 \"a a a\" (indexDoc 1 \"a\" emptyIndex))"
(list (list 1 (list 0 1 2))))
(list
"delete removes a doc"
"lookupTerm \"cat\" (deleteDoc 1 (indexDoc 1 \"the cat\" emptyIndex))"
(list))
(list
"delete leaves other docs"
"lookupTerm \"cat\" (deleteDoc 2 (indexDoc 2 \"big cat\" (indexDoc 1 \"the cat\" emptyIndex)))"
(list (list 1 (list 1))))
(list
"docFreq counts docs"
"[docFreq \"cat\" (indexDoc 2 \"a cat\" (indexDoc 1 \"the cat\" emptyIndex))]"
(list 2))
(list
"docFreq zero for missing"
"[docFreq \"zzz\" (indexDoc 1 \"a b\" emptyIndex)]"
(list 0))
(list
"allTerms sorted and unique"
"allTerms (indexDoc 1 \"banana apple cherry apple\" emptyIndex)"
(list "apple" "banana" "cherry"))
(list
"allTerms merged across docs"
"allTerms (indexDoc 2 \"d a\" (indexDoc 1 \"c b\" emptyIndex))"
(list "a" "b" "c" "d"))))
(define
index-results
(search-batch "" (map (fn (c) (nth c 1)) index-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth index-results i) (nth c 2)))
index-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

102
lib/search/tests/integration.sx
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@@ -1,102 +0,0 @@
;; Phase 4 — federation (merge per-peer indices) + ACL post-filter.
;; Peers (global id = peer*1000 + local):
;; peer 1: 1 "alpha beta" 2 "alpha gamma" -> 1001 1002
;; peer 2: 1 "alpha delta" 2 "beta gamma" -> 2001 2002
;; ACL predicates are injected (viewer baked in by the caller), applied post-rank.
(define
fed-setup
"p1 = indexDoc 2 \"alpha gamma\" (indexDoc 1 \"alpha beta\" emptyIndex)\np2 = indexDoc 2 \"beta gamma\" (indexDoc 1 \"alpha delta\" emptyIndex)\nfed = fedIndex [(1, p1), (2, p2)]\npermitP1 g = g < 2000\npermitNone g = False\npermitList g = elem g [1002, 2001]\n")
(define
fed-cases
(list
(list
"fed merges all docs"
"sort (allDocs fed)"
(list 1001 1002 2001 2002))
(list
"fed docFreq across peers"
"[docFreq \"alpha\" fed]"
(list 3))
(list "fed docFreq beta" "[docFreq \"beta\" fed]" (list 2))
(list "fed numDocs" "[numDocs fed]" (list 4))
(list
"fed term lookup spans peers"
"map fst (lookupTerm \"gamma\" fed)"
(list 1002 2002))
(list
"fed preserves positions"
"lookupTerm \"beta\" fed"
(list
(list 1001 (list 1))
(list 2002 (list 0))))
(list
"fed rank alpha tie by gid"
"rankTfIdf [\"alpha\"] fed"
(list 1001 1002 2001))
(list
"fed rank beta"
"rankTfIdf [\"beta\"] fed"
(list 1001 2002))
(list
"fed boolean and"
"searchQuery \"alpha AND beta\" fed"
(list 1001))
(list
"fed boolean or"
"searchQuery \"delta OR barks\" fed"
(list 2001))
(list
"fed phrase within peer1"
"searchQuery \"\\\"alpha beta\\\"\" fed"
(list 1001))
(list
"fed phrase within peer2"
"searchQuery \"\\\"beta gamma\\\"\" fed"
(list 2002))
(list
"fed phrase peer2 alpha delta"
"searchQuery \"\\\"alpha delta\\\"\" fed"
(list 2001))
(list "fed empty peer list" "allDocs (fedIndex [])" (list))
(list
"fed single relabelled peer"
"rankTfIdf [\"alpha\"] (fedIndex [(5, p1)])"
(list 5001 5002))
(list
"acl peer1 only"
"aclFilter permitP1 (rankTfIdf [\"alpha\"] fed)"
(list 1001 1002))
(list
"acl allowlist preserves rank order"
"aclFilter permitList (rankTfIdf [\"alpha\"] fed)"
(list 1002 2001))
(list
"acl topN after filter"
"topNTfIdfAcl 1 permitP1 [\"alpha\"] fed"
(list 1001))
(list
"acl denies all"
"aclFilter permitNone (rankTfIdf [\"alpha\"] fed)"
(list))
(list
"acl on bm25"
"searchBm25Acl permitP1 1.5 0.75 [\"alpha\"] fed"
(list 1001 1002))
(list
"acl end-to-end tfidf"
"searchTfIdfAcl permitP1 [\"alpha\"] fed"
(list 1001 1002))))
(define
fed-results
(search-batch fed-setup (map (fn (c) (nth c 1)) fed-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth fed-results i) (nth c 2)))
fed-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Extension — proximity (NEAR) search: terms within k positions, unordered.
;; Corpus:
;; 1 "the quick brown fox" the0 quick1 brown2 fox3
;; 2 "quick the lazy fox dog" quick0 the1 lazy2 fox3 dog4
;; 3 "fox runs quick" fox0 runs1 quick2
(define
near-setup
"idx = indexDoc 3 \"fox runs quick\" (indexDoc 2 \"quick the lazy fox dog\" (indexDoc 1 \"the quick brown fox\" emptyIndex))\n")
(define
near-cases
(list
(list
"near adjacent one doc"
"nearDocs 1 \"quick\" \"brown\" idx"
(list 1))
(list
"near adjacent both docs"
"nearDocs 1 \"quick\" \"the\" idx"
(list 1 2))
(list
"near within 2"
"nearDocs 2 \"quick\" \"fox\" idx"
(list 1 3))
(list "near too far at k1" "nearDocs 1 \"quick\" \"fox\" idx" (list))
(list
"near unordered symmetric"
"nearDocs 2 \"fox\" \"quick\" idx"
(list 1 3))
(list "near wider window" "nearDocs 5 \"the\" \"dog\" idx" (list 2))
(list "near absent term" "nearDocs 1 \"quick\" \"zzz\" idx" (list))
(list "near needs both terms" "nearDocs 3 \"brown\" \"dog\" idx" (list))
(list
"near same docs only"
"nearDocs 3 \"fox\" \"runs\" idx"
(list 3))))
(define
near-results
(search-batch near-setup (map (fn (c) (nth c 1)) near-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth near-results i) (nth c 2)))
near-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Extension — result pagination (offset / limit) over ranked results.
;; Corpus (tf of "x" descending): 1 x4 2 x3 3 x2 4 x1 5 y(no x)
;; rankTfIdf ["x"] -> [1,2,3,4]
(define
page-setup
"idx = indexDoc 5 \"y\" (indexDoc 4 \"x\" (indexDoc 3 \"x x\" (indexDoc 2 \"x x x\" (indexDoc 1 \"x x x x other\" emptyIndex))))\n")
(define
page-cases
(list
(list "first page" "pageTfIdf 0 2 [\"x\"] idx" (list 1 2))
(list
"second page"
"pageTfIdf 2 2 [\"x\"] idx"
(list 3 4))
(list
"sliding window"
"pageTfIdf 1 2 [\"x\"] idx"
(list 2 3))
(list
"limit exceeds remaining"
"pageTfIdf 3 10 [\"x\"] idx"
(list 4))
(list "offset past end" "pageTfIdf 4 2 [\"x\"] idx" (list))
(list "limit zero" "pageTfIdf 0 0 [\"x\"] idx" (list))
(list
"whole result"
"pageTfIdf 0 10 [\"x\"] idx"
(list 1 2 3 4))
(list
"paginate raw list"
"paginate 1 2 [10, 20, 30, 40]"
(list 20 30))
(list "paginate raw past end" "paginate 9 2 [10, 20]" (list))
(list
"bm25 page window size"
"[length (pageBm25 0 2 1.5 0.75 [\"x\"] idx)]"
(list 2))
(list "result count" "[resultCount [\"x\"] idx]" (list 4))
(list "result count zero" "[resultCount [\"zzz\"] idx]" (list 0))))
(define
page-results
(search-batch page-setup (map (fn (c) (nth c 1)) page-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth page-results i) (nth c 2)))
page-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Phase 2 — query parser (parseQuery / searchQuery).
;; AST cases assert showQ (parseQuery s); search cases assert searchQuery s idx
;; against the standard corpus. Each group runs in one batched program eval.
;; doc 1 "the quick brown dog" doc 2 "a quick brown fox" doc 3 "the dog barks loudly"
(define
parse-corpus
"idx = indexDoc 3 \"the dog barks loudly\" (indexDoc 2 \"a quick brown fox\" (indexDoc 1 \"the quick brown dog\" emptyIndex))\n")
(define
ast-cases
(list
(list "single term" "showQ (parseQuery \"cat\")" "T:cat")
(list "term normalized" "showQ (parseQuery \"CAT\")" "T:cat")
(list "explicit and" "showQ (parseQuery \"cat AND dog\")" "(T:cat & T:dog)")
(list
"lowercase and keyword"
"showQ (parseQuery \"cat and dog\")"
"(T:cat & T:dog)")
(list "implicit and" "showQ (parseQuery \"cat dog\")" "(T:cat & T:dog)")
(list "or" "showQ (parseQuery \"cat OR dog\")" "(T:cat | T:dog)")
(list "not" "showQ (parseQuery \"NOT cat\")" "!T:cat")
(list
"and binds tighter than or"
"showQ (parseQuery \"cat AND dog OR bird\")"
"((T:cat & T:dog) | T:bird)")
(list
"or then and"
"showQ (parseQuery \"cat OR dog AND bird\")"
"(T:cat | (T:dog & T:bird))")
(list
"parens override precedence"
"showQ (parseQuery \"(cat OR dog) AND bird\")"
"((T:cat | T:dog) & T:bird)")
(list
"and with not"
"showQ (parseQuery \"cat AND NOT dog\")"
"(T:cat & !T:dog)")
(list
"two-word phrase"
"showQ (parseQuery \"\\\"quick brown\\\"\")"
"P:quick-brown")
(list
"three-word phrase"
"showQ (parseQuery \"\\\"quick brown fox\\\"\")"
"P:quick-brown-fox")
(list
"and left-assoc"
"showQ (parseQuery \"a AND b AND c\")"
"((T:a & T:b) & T:c)")
(list
"or left-assoc"
"showQ (parseQuery \"a OR b OR c\")"
"((T:a | T:b) | T:c)")
(list
"punctuation stripped"
"showQ (parseQuery \"cat, dog!\")"
"(T:cat & T:dog)")))
(define
search-cases
(list
(list "term" "searchQuery \"quick\" idx" (list 1 2))
(list
"term normalized"
"searchQuery \"QUICK\" idx"
(list 1 2))
(list
"explicit and"
"searchQuery \"quick AND brown\" idx"
(list 1 2))
(list
"implicit and"
"searchQuery \"quick brown\" idx"
(list 1 2))
(list "and disjoint" "searchQuery \"the AND fox\" idx" (list))
(list "or" "searchQuery \"fox OR barks\" idx" (list 2 3))
(list "not" "searchQuery \"NOT the\" idx" (list 2))
(list "and not" "searchQuery \"quick AND NOT the\" idx" (list 2))
(list
"precedence and-or"
"searchQuery \"the AND dog OR fox\" idx"
(list 1 2 3))
(list
"precedence or-and"
"searchQuery \"fox OR the AND dog\" idx"
(list 1 2 3))
(list
"parens"
"searchQuery \"the AND (dog OR fox)\" idx"
(list 1 3))
(list
"phrase"
"searchQuery \"\\\"quick brown\\\"\" idx"
(list 1 2))
(list
"phrase one doc"
"searchQuery \"\\\"brown dog\\\"\" idx"
(list 1))
(list
"phrase and term"
"searchQuery \"\\\"quick brown\\\" AND dog\" idx"
(list 1))
(list
"not phrase"
"searchQuery \"NOT \\\"quick brown\\\"\" idx"
(list 3))
(list
"implicit and terms"
"searchQuery \"dog barks\" idx"
(list 3))))
(define
ast-results
(search-batch "" (map (fn (c) (nth c 1)) ast-cases)))
(define
search-results
(search-batch
parse-corpus
(map (fn (c) (nth c 1)) search-cases)))
(map-indexed
(fn
(i c)
(hk-test
(str "ast: " (nth c 0))
(nth ast-results i)
(nth c 2)))
ast-cases)
(map-indexed
(fn
(i c)
(hk-test
(str "search: " (nth c 0))
(nth search-results i)
(nth c 2)))
search-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Extension — prefix / wildcard queries.
;; Corpus: 1 "alpha alpine" 2 "beta apple" 3 "banana alpha"
;; allTerms sorted: alpha alpine apple banana beta
(define
prefix-setup
"idx = indexDoc 3 \"banana alpha\" (indexDoc 2 \"beta apple\" (indexDoc 1 \"alpha alpine\" emptyIndex))\n")
(define
prefix-cases
(list
(list
"prefix terms two matches"
"prefixTerms \"al\" idx"
(list "alpha" "alpine"))
(list
"prefix terms narrower"
"prefixTerms \"alp\" idx"
(list "alpha" "alpine"))
(list
"prefix terms wide"
"prefixTerms \"a\" idx"
(list "alpha" "alpine" "apple"))
(list "prefix terms single" "prefixTerms \"ban\" idx" (list "banana"))
(list "prefix terms exact term" "prefixTerms \"beta\" idx" (list "beta"))
(list "prefix terms none" "prefixTerms \"z\" idx" (list))
(list
"prefix docs union"
"prefixDocs \"al\" idx"
(list 1 3))
(list "prefix docs single term" "prefixDocs \"ban\" idx" (list 3))
(list
"prefix docs wide"
"prefixDocs \"a\" idx"
(list 1 2 3))
(list "prefix docs none" "prefixDocs \"z\" idx" (list))
(list
"prefix docs exact"
"prefixDocs \"alpha\" idx"
(list 1 3))
(list
"prefix rank ranks by matched terms"
"prefixRankTfIdf \"al\" idx"
(list 1 3))
(list
"prefix rank single doc"
"prefixRankTfIdf \"ban\" idx"
(list 3))
(list "prefix rank empty" "prefixRankTfIdf \"z\" idx" (list))))
(define
prefix-results
(search-batch
prefix-setup
(map (fn (c) (nth c 1)) prefix-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth prefix-results i) (nth c 2)))
prefix-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Phase 3 — ranking (TF-IDF, BM25, top-N). Deterministic: ties broken by DocId.
;; Corpora:
;; idx1: 1 "alpha alpha alpha gamma" 2 "alpha" 3 "beta"
;; idx2: 1 "cat" 2 "cat cat dog elephant frog grape" 3 "zzz"
;; idx3: 1 "kite" 2 "kite" (identical docs -> tiebreak)
(define
rank-setup
"idx1 = indexDoc 3 \"beta\" (indexDoc 2 \"alpha\" (indexDoc 1 \"alpha alpha alpha gamma\" emptyIndex))\nidx2 = indexDoc 3 \"zzz\" (indexDoc 2 \"cat cat dog elephant frog grape\" (indexDoc 1 \"cat\" emptyIndex))\nidx3 = indexDoc 2 \"kite\" (indexDoc 1 \"kite\" emptyIndex)\n")
(define
rank-cases
(list
(list
"tfidf tf ordering"
"rankTfIdf [\"alpha\"] idx1"
(list 1 2))
(list
"tfidf rare term boosts"
"rankTfIdf [\"alpha\", \"beta\"] idx1"
(list 1 3 2))
(list
"tfidf single-doc term"
"rankTfIdf [\"gamma\"] idx1"
(list 1))
(list "tfidf absent term empty" "rankTfIdf [\"nope\"] idx1" (list))
(list "tfidf empty query empty" "rankTfIdf [] idx1" (list))
(list
"tfidf candidate union tie by docid"
"rankTfIdf [\"beta\", \"gamma\"] idx1"
(list 1 3))
(list
"tfidf tf ordering idx2"
"rankTfIdf [\"cat\"] idx2"
(list 2 1))
(list "topN tfidf 1" "topNTfIdf 1 [\"alpha\"] idx1" (list 1))
(list
"topN tfidf 2"
"topNTfIdf 2 [\"alpha\", \"beta\"] idx1"
(list 1 3))
(list
"topN exceeds results"
"topNTfIdf 10 [\"gamma\"] idx1"
(list 1))
(list "topN zero" "topNTfIdf 0 [\"alpha\"] idx1" (list))
(list
"bm25 tf+length flips tfidf"
"rankBm25 1.5 0.75 [\"cat\"] idx2"
(list 1 2))
(list
"bm25 b=0 ignores length"
"rankBm25 1.5 0.0 [\"cat\"] idx2"
(list 2 1))
(list
"bm25 alpha idx1"
"rankBm25 1.5 0.75 [\"alpha\"] idx1"
(list 1 2))
(list "bm25 absent empty" "rankBm25 1.5 0.75 [\"nope\"] idx1" (list))
(list
"bm25 single-doc term"
"rankBm25 1.5 0.75 [\"gamma\"] idx1"
(list 1))
(list "bm25 topN 1" "topNBm25 1 1.5 0.75 [\"cat\"] idx2" (list 1))
(list
"bm25 same candidate set"
"sort (rankBm25 1.5 0.75 [\"alpha\", \"beta\"] idx1)"
(list 1 2 3))
(list
"tfidf stable tiebreak"
"rankTfIdf [\"kite\"] idx3"
(list 1 2))
(list
"bm25 stable tiebreak"
"rankBm25 1.5 0.75 [\"kite\"] idx3"
(list 1 2))
(list "numDocs" "[numDocs idx1]" (list 3))
(list "docLen counts tokens" "[docLen 1 idx1]" (list 4))
(list "docFreq via index" "[docFreq \"alpha\" idx1]" (list 2))))
(define
rank-results
(search-batch rank-setup (map (fn (c) (nth c 1)) rank-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth rank-results i) (nth c 2)))
rank-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Extension — boolean-filtered ranked search (filter then rank by relevance).
;; Corpus:
;; 1 "apple apple banana" apple2 banana1
;; 2 "apple cherry" apple1 cherry1
;; 3 "banana cherry" banana1 cherry1
;; 4 "apple banana cherry" apple1 banana1 cherry1
(define
rankq-setup
"idx = indexDoc 4 \"apple banana cherry\" (indexDoc 3 \"banana cherry\" (indexDoc 2 \"apple cherry\" (indexDoc 1 \"apple apple banana\" emptyIndex)))\n")
(define
rankq-cases
(list
(list
"queryTerms and"
"queryTerms (parseQuery \"apple AND banana\")"
(list "apple" "banana"))
(list
"queryTerms or not"
"queryTerms (parseQuery \"a OR NOT b\")"
(list "a" "b"))
(list
"queryTerms phrase"
"queryTerms (parseQuery \"\\\"x y\\\" OR z\")"
(list "x" "y" "z"))
(list
"and filter ranked by tf"
"searchRankTfIdf \"apple AND banana\" idx"
(list 1 4))
(list
"single term ranked tie"
"searchRankTfIdf \"cherry\" idx"
(list 2 3 4))
(list
"or filter ranked"
"searchRankTfIdf \"apple OR banana\" idx"
(list 1 4 2 3))
(list
"and-not narrows then ranks"
"searchRankTfIdf \"apple AND NOT banana\" idx"
(list 2))
(list
"phrase filter ranked"
"searchRankTfIdf \"\\\"apple banana\\\"\" idx"
(list 1 4))
(list "no matches" "searchRankTfIdf \"zzz\" idx" (list))
(list
"bm25 boolean ranked subset"
"sort (searchRankBm25 1.5 0.75 \"apple OR banana\" idx)"
(list 1 2 3 4))
(list
"bm25 and filter"
"searchRankBm25 1.5 0.75 \"apple AND NOT banana\" idx"
(list 2))))
(define
rankq-results
(search-batch rankq-setup (map (fn (c) (nth c 1)) rankq-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth rankq-results i) (nth c 2)))
rankq-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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lib/search/tests/stem.sx
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;; Extension — stemming (suffix stripping). Scalar string results wrapped in [].
(define
stem-cases
(list
(list "stem plural s" "[stem \"cats\"]" (list "cat"))
(list "stem plural dogs" "[stem \"dogs\"]" (list "dog"))
(list "stem keeps ss" "[stem \"pass\"]" (list "pass"))
(list "stem short s unchanged" "[stem \"is\"]" (list "is"))
(list "stem es boxes" "[stem \"boxes\"]" (list "box"))
(list "stem es wishes" "[stem \"wishes\"]" (list "wish"))
(list "stem ies cities" "[stem \"cities\"]" (list "city"))
(list "stem ies parties" "[stem \"parties\"]" (list "party"))
(list "stem ing jumping" "[stem \"jumping\"]" (list "jump"))
(list "stem ing running literal" "[stem \"running\"]" (list "runn"))
(list "stem ed jumped" "[stem \"jumped\"]" (list "jump"))
(list "stem ed wanted" "[stem \"wanted\"]" (list "want"))
(list "stem short ed unchanged" "[stem \"red\"]" (list "red"))
(list "stem no suffix" "[stem \"cat\"]" (list "cat"))
(list
"stemText normalizes and stems"
"[stemText \"Cats Running!\"]"
(list "cat runn"))
(list
"stemTokens list"
"stemTokens \"boxes and cats\""
(list "box" "and" "cat"))
(list
"indexStemmed unifies plural"
"map fst (lookupTerm \"cat\" (indexStemmed 2 \"a cat\" (indexStemmed 1 \"the cats\" emptyIndex)))"
(list 1 2))
(list
"indexStemmed stem query"
"map fst (lookupTerm (stem \"boxes\") (indexStemmed 1 \"many boxes\" emptyIndex))"
(list 1))))
(define
stem-results
(search-batch "" (map (fn (c) (nth c 1)) stem-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth stem-results i) (nth c 2)))
stem-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Extension — did-you-mean / spelling suggestion.
;; Corpus terms (sorted): ample apple apply banana orange
(define
suggest-setup
"idx = indexDoc 1 \"apple apply ample banana orange\" emptyIndex\n")
(define
suggest-cases
(list
(list "suggest exact term" "[suggest \"apple\" idx]" (list "apple"))
(list
"suggest misspelled banana"
"[suggest \"bananna\" idx]"
(list "banana"))
(list
"suggest missing letter orange"
"[suggest \"orang\" idx]"
(list "orange"))
(list "suggest closest apply" "[suggest \"aply\" idx]" (list "apply"))
(list "suggestN 1 banana" "suggestN 1 \"bananna\" idx" (list "banana"))
(list
"suggestN 2 ties alpha"
"suggestN 2 \"aple\" idx"
(list "ample" "apple"))
(list "suggest empty term shortest" "[suggest \"\" idx]" (list "ample"))
(list "suggest empty index" "[suggest \"apple\" emptyIndex]" (list ""))
(list "suggestN empty index" "suggestN 1 \"apple\" emptyIndex" (list))))
(define
suggest-results
(search-batch
suggest-setup
(map (fn (c) (nth c 1)) suggest-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth suggest-results i) (nth c 2)))
suggest-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; Extension — synonym / query expansion.
;; synmap: car -> automobile, vehicle ; big -> large
;; Corpus: 1 "fast car" 2 "shiny automobile" 3 "big truck" 4 "large house" 5 "vehicle review"
(define
syn-setup
"synmap = [(\"car\", [\"automobile\", \"vehicle\"]), (\"big\", [\"large\"])]\nidx = indexDoc 5 \"vehicle review\" (indexDoc 4 \"large house\" (indexDoc 3 \"big truck\" (indexDoc 2 \"shiny automobile\" (indexDoc 1 \"fast car\" emptyIndex))))\n")
(define
syn-cases
(list
(list
"expand term with synonyms"
"expandTerm synmap \"car\""
(list "car" "automobile" "vehicle"))
(list
"expand single synonym"
"expandTerm synmap \"big\""
(list "big" "large"))
(list "expand unknown term" "expandTerm synmap \"banana\"" (list "banana"))
(list
"syn docs union"
"synDocs synmap \"car\" idx"
(list 1 2 5))
(list
"syn docs single synonym"
"synDocs synmap \"big\" idx"
(list 3 4))
(list
"syn docs no synonyms"
"synDocs synmap \"house\" idx"
(list 4))
(list "syn docs absent" "synDocs synmap \"plane\" idx" (list))
(list
"syn rank expanded"
"synRankTfIdf synmap \"car\" idx"
(list 1 2 5))
(list
"syn rank single"
"synRankTfIdf synmap \"big\" idx"
(list 3 4))))
(define
syn-results
(search-batch syn-setup (map (fn (c) (nth c 1)) syn-cases)))
(map-indexed
(fn
(i c)
(hk-test (nth c 0) (nth syn-results i) (nth c 2)))
syn-cases)
{:fail hk-test-fail :pass hk-test-pass :fails hk-test-fails}

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;; search tokenizer — Haskell source fragment.
;; normalize (lowercase + strip punctuation), split on whitespace, attach positions.
;; tokens :: String -> [String]
;; positioned :: String -> [(String, Int)] -- 0-based ordinal positions
(define
search/tokenize-src
"lowerChar c = chr (toLower (ord c))\nnormChar c = if isAlphaNum c then lowerChar c else ' '\nisBlankCh c = c == ' '\ndropBlanks [] = []\ndropBlanks (c:cs) = if isBlankCh c then dropBlanks cs else c:cs\ntakeWord [] = []\ntakeWord (c:cs) = if isBlankCh c then [] else c : takeWord cs\nafterWord [] = []\nafterWord (c:cs) = if isBlankCh c then c:cs else afterWord cs\nsplitWords s = let s2 = dropBlanks s in if null s2 then [] else takeWord s2 : splitWords (afterWord s2)\nappendStr a b = a ++ b\njoinChars cs = foldr appendStr \"\" cs\ntokens s = map joinChars (splitWords (map normChar s))\nposFrom i [] = []\nposFrom i (x:xs) = (x, i) : posFrom (i + 1) xs\npositioned s = posFrom 0 (tokens s)\n")

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data/

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# next — fed-sx Milestone 1 kernel
Single-instance, single-actor fed-sx server built as Erlang-on-SX modules.
See `plans/fed-sx-design.md` for the architecture and
`plans/fed-sx-milestone-1.md` for the build plan + per-step progress log.
## Status
Both Step 9 smoke proof points are functional **in-process**:
- **9a-pure (verb extensibility)** — `Create{DefineActivity{Pin}}` registers Pin
at runtime; subsequent `Pin{path, cid}` activities fold into a pin-state
projection. Zero kernel code between definition and use.
See `next/tests/smoke_pin_pure.sh`.
- **9b-pure (reactive application)** — A trigger projection matches Notes
tagged `smoketest` and derives a `TestEcho` carrying the source CID.
See `next/tests/smoke_app_pure.sh`.
The remaining `9a-tcp` / `9b-tcp` deliverables layer TCP transport on top — see
*Substrate gaps* below.
## Layout
```
next/
├── kernel/ Erlang-on-SX kernel modules (.erl)
├── genesis/ SX source files for the bootstrap bundle
├── tests/ Bash test scripts driving sx_server.exe via the epoch protocol
└── data/ Runtime state — gitignored
```
## Module map
| Module | Role |
|-----------------------|------------------------------------------------------------------------|
| `nx_cid.erl` | Canonical CID wrapper around the host `cid:to_string` BIF |
| `envelope.erl` | Activity envelope shape, canonical bytes, time-aware sig verify |
| `log.erl` | Per-actor in-memory append log (open / append / tip / replay / entries) |
| `registry.erl` | Pure-functional + gen_server-wrapped registry keyed by Kind |
| `pipeline.erl` | Validation driver + stage_envelope/signature/replay/schema |
| `projection.erl` | Pure projection driver + gen_server-per-projection wrapper |
| `outbox.erl` | Envelope construct + sign + publish orchestrator + broadcast |
| `bootstrap.erl` | Genesis read/build/verify/load + one-call `start/3` kernel bring-up |
| `define_registry.erl` | Meta-projection fold for `Create{Define*}` → registry |
| `sandbox.erl` | `eval_pure/2,3` try/catch envelope for projection folds |
| `nx_kernel.erl` | Long-lived runtime orchestrator (state + gen_server) |
| `http_server.erl` | route/1,2 + format-aware GET + POST + Accept header content negotiation |
## Genesis bundle
`next/genesis/` contains 31 SX files across 7 sections, all consumed as data
(read + serialised by `bootstrap:populate_registry`, not eval'd):
- 3 activity-types — Create, Update, Delete
- 10 object-types — SXArtifact, Note, Tombstone, 6 Define* meta-types, Snapshot
- 7 projections — activity-log, by-type, by-actor, by-object, actor-state,
define-registry, audience-graph
- 3 validators — envelope-shape, signature, type-schema
- 3 codecs — dag-cbor, raw, dag-json
- 2 sig-suites — rsa-sha256-2018, ed25519-2020
- 3 audience predicates — Public, Followers, Direct
`manifest.sx` is the bundle root, listed in dependency-friendly order.
## Tests
43 test suites, ~560+ assertions. Each script drives `sx_server.exe` via the
epoch protocol — loads the Erlang substrate, loads relevant kernel modules
via `code:load_binary` / `erlang-load-module`, then exercises behaviour
through `erlang-eval-ast`.
Conventions:
- Scripts marked `_pure.sh` exercise pure-functional state.
- Scripts marked `_server.sh` (or no suffix) exercise gen_server APIs and
must inline `start_link` with operations — the Erlang-on-SX scheduler
doesn't preserve spawned processes across separate `erlang-eval-ast`
invocations.
- `smoke_*_pure.sh` are end-to-end smoke tests demonstrating the §Step 9
proof points without TCP / curl / JSON.
The Erlang-on-SX conformance gate (`bash lib/erlang/conformance.sh`, **729 /
729**) is the no-regression contract — every commit on `loops/fed-sx-m1`
preserves it.
## Substrate
Each `.erl` source file is hot-loaded at boot via
`code:load_binary(Mod, Filename, SourceString)` (Phase 7 BIF). Tests drive
the runtime via the epoch protocol:
```bash
printf '(epoch 1)\n(load "lib/erlang/runtime.sx")\n(epoch 2)\n<test-expr>\n' \
| hosts/ocaml/_build/default/bin/sx_server.exe
```
The kernel calls into these host primitives: `crypto:hash/2`,
`cid:from_bytes/1`, `cid:to_string/1`, `file:read_file/1`, `file:write_file/2`,
`file:delete/1`, `file:list_dir/1`, `code:load_binary/3`, plus `http:listen/2`
(the briefing's allowed scope exception, added to `lib/erlang/runtime.sx`).
### Substrate gaps (parked work)
These three gaps block the remaining unchecked deliverables:
1. **Term codec** (`3b`/`3c`) — **all three substrate fixes done 2026-06-05:**
`erlang:binary_to_list/1` and `erlang:list_to_binary/1` registered in
`lib/erlang/runtime.sx` (iolist-aware); the tokenizer's `$X` branch
emits the decimal char code; `atom_to_list/1` and `integer_to_list/1`
now return Erlang charlists (standard Erlang semantics) with `list_to_atom`/
`list_to_integer` accepting both charlists and SX strings for back-compat.
759/759 conformance. The full term-codec primitive set is in place —
Step 3b on-disk segment writer can encode arbitrary Erlang activity
terms (atoms, ints, binaries, tuples, lists) into byte sequences using
only Erlang-native primitives.
2. **SX-source eval bridge** — There's no BIF that lets Erlang call into the
SX evaluator on a parsed source string. Blocks evaluating the `:schema` /
`:fold` / `:predicate` / `:verify` bodies from the genesis bundle. Erlang-fun
stand-ins (`pipeline:stage_schema`, `define_registry:fold`, etc.) prove the
API shapes; the bridge would let bundle bodies dispatch through them
unchanged.
3. **Dict ↔ proplist marshalling for `http:listen/2`****done 2026-06-05.**
`er-bif-http-listen` marshals the native server's request dict
(`{:method :path :query :headers :body}`) into the proplist shape
`[{method, Bin}, {path, Bin}, {query, Bin}, {headers, [{Name, Value}]},
{body, Bin}]` that `http_server:route/2` consumes, and converts the
handler's response proplist back to `{:status :headers :body}` for the
native server to serialise. Helpers (`er-request-dict-to-proplist`,
`er-proplist-to-dict`, `er-of-sx-deep`, `er-to-sx-deep`,
`er-dict-to-header-proplist`, `er-proplist-fill!`) live alongside the
BIF wrapper in `lib/erlang/runtime.sx`. The BIF also spawns the handler
into a real Erlang process via `er-spawn-fun` + `er-sched-run-all!`
so `self()` / `gen_server:call` work inside route handlers (the kernel
and projection gen_servers reach the handler this way). Verified by
`next/tests/http_marshal.sh` and the live TCP smoke
`next/tests/http_server_tcp.sh` / `http_server_start.sh`. Unblocks
`Step 8b-start` (TCP listener spawn) and the curl-driven 9a-tcp / 9b-tcp
smoke tests.
### Bringing up the kernel
For tests, `bootstrap:start/3(ActorId, KeySpec, ActorState)` is the
one-call boot:
```erlang
KM = <<1,2,3,4>>,
KS = [{key_id, k1}, {algorithm, ed25519}, {value, KM}],
AS = [{public_keys, [[{id, k1}, {created, 0}, {value, KM}]]}],
Pid = bootstrap:start(alice, KS, AS),
%% nx_kernel + registry populated; you now have a kernel.
```
The HTTP layer (`http_server`) and `nx_kernel:publish/1` flow through the
same in-process gen_servers; `http_publish_fold.sh` is the end-to-end proof
the chain works.
## What's next (when work resumes)
In priority order:
1. **8b-start**`http_server:start/1` spawns a process hosting `http:listen/2`.
(8b-bridge done — see Substrate gap #3.)
2. **9a-tcp / 9b-tcp** — replace the in-process smoke scripts with curl-driven
versions hitting the running server.
3. **Term codec / on-disk log** — needs either a new BIF or a temp-file
workaround; current in-memory log keeps everything functional otherwise.
4. **SX-source eval bridge** — unlocks real `:schema` / `:fold` body
evaluation from the genesis bundle.

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;; next/genesis/activity-types/create.sx
;;
;; Bootstrap definition of the Create verb per design §3 and §12.2.
;; Read as data by the bundler (bootstrap.erl) — never evaluated as
;; code. The :schema and :semantics bodies are SX source; the
;; validation pipeline (Step 6) and projection scheduler (Step 7)
;; evaluate them at the appropriate times.
(DefineActivity
:name "Create"
:doc "Publish a new object. Required for actor onboarding and for\n every Define* meta-activity. The activity's :object holds\n the canonical content of the published object."
:schema (fn
(act)
(and (not (nil? (-> act :object))) (string? (-> act :object :type))))
:semantics (fn (state act) state))

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;; next/genesis/activity-types/delete.sx
;;
;; Bootstrap definition of the Delete verb per design §3 and §12.2.
;; Read as data by the bundler — never evaluated as code here. The
;; :schema and :semantics bodies are SX source; the validator
;; pipeline (Step 6) and projection scheduler (Step 7) evaluate them
;; at the appropriate times.
(DefineActivity
:name "Delete"
:doc "Tombstone an existing object. :object is the CID of the\n target. Projections fold Delete by removing the object from\n their working indexes; the underlying log line is never\n erased — durability of the historical record is independent\n of projection state."
:schema (fn (act) (string? (-> act :object)))
:semantics (fn (state act) state))

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;; next/genesis/activity-types/update.sx
;;
;; Bootstrap definition of the Update verb per design §3 and §12.2.
;; Read as data by the bundler — never evaluated as code here. The
;; :schema and :semantics bodies are SX source; the validator
;; pipeline (Step 6) and projection scheduler (Step 7) evaluate them
;; at the appropriate times.
(DefineActivity
:name "Update"
:doc "Patch or replace an existing object. :object is the CID of\n the target; :patch is the field-level edit. Behaviour is\n delegated to per-object-type semantics — e.g. an Update of a\n DefineActivity supersedes the prior registry entry; an\n Update of a Person actor rotates keys via :patch :add-publicKey\n + :patch :supersede."
:schema (fn
(act)
(and (string? (-> act :object)) (not (nil? (-> act :patch)))))
:semantics (fn (state act) state))

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;; next/genesis/audience/direct.sx
;;
;; Direct audience: an actor is a member iff they are
;; explicitly named in the activity's :to or :cc lists. No
;; group expansion — true direct addressing only.
(DefineAudience
:name "Direct"
:doc "Direct-addressing predicate. Tests literal membership\n in the activity's :to or :cc."
:member-of (fn
(actor audience)
(or
(member? actor (-> audience :to))
(member? actor (-> audience :cc)))))

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;; next/genesis/audience/followers.sx
;;
;; Followers audience: an actor is a member iff they appear in
;; the audience-owner's :followers set in the audience-graph
;; projection. Federation (m2) wires this to peer delivery.
(DefineAudience
:name "Followers"
:doc "Followers-of-owner predicate. Looks up the\n audience-graph projection's :followers list for the\n audience owner and tests membership."
:member-of (fn
(actor audience)
(member?
actor
(-> (get-projection :audience-graph) (-> audience :owner) :followers))))

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;; next/genesis/audience/public.sx
;;
;; Public audience: every actor is a member. Maps to the AP
;; magic id `https://www.w3.org/ns/activitystreams#Public`.
(DefineAudience
:name "Public"
:doc "Public audience predicate. Always returns true — every\n actor on the network is considered a member."
:member-of (fn (actor audience) true))

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;; next/genesis/codecs/dag-cbor.sx
;;
;; Canonical CBOR encoding per IPLD dag-cbor. Used to compute
;; envelope canonical bytes for signature coverage and to serialise
;; the genesis bundle itself. In Erlang-on-SX mode the kernel
;; dispatches to the host cid:to_string substrate (Step 1b) when
;; this codec is requested.
(DefineCodec
:name "dag-cbor"
:doc "Deterministic CBOR with dag-cbor restrictions: sorted\n map keys, no floats unless required, no indefinite-length\n items. The canonical wire format for fed-sx artifacts."
:encode (fn (term) (host-codec :dag-cbor :encode term))
:decode (fn (bytes) (host-codec :dag-cbor :decode bytes)))

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;; next/genesis/codecs/dag-json.sx
;;
;; JSON encoding with dag-json restrictions per IPLD: sorted map
;; keys, no NaN / Infinity, no comments, CIDs as `{"/": "..."}`.
;; Used as the human-readable wire format for ActivityPub interop
;; (JSON-LD over dag-json).
(DefineCodec
:name "dag-json"
:doc "Deterministic JSON with dag-json restrictions. Sorted\n keys, CIDs as the {\"/\": \"...\"} object. Used by the\n HTTP server (Step 8) for application/json responses."
:encode (fn (term) (host-codec :dag-json :encode term))
:decode (fn (bytes) (host-codec :dag-json :decode bytes)))

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;; next/genesis/codecs/raw.sx
;;
;; Identity codec — input bytes pass through unchanged in both
;; directions. Used for already-encoded payloads and for binary
;; artifacts (images, archives) whose CID is computed over the
;; raw bytes directly.
(DefineCodec
:name "raw"
:doc "Identity codec. The CID's multicodec byte is 0x55.\n :encode and :decode return their input unchanged."
:encode (fn (bytes) bytes)
:decode (fn (bytes) bytes))

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;; next/genesis/manifest.sx
;;
;; Genesis bundle root per design §12.2. Lists every definition file
;; that gets packed into the bundle. The bundler (bootstrap.erl)
;; walks this manifest, reads each referenced file, parses its
;; top-level form, and inserts it into the bundle dict at the
;; appropriate section path.
;;
;; The bundle CID is the content-address of the resulting dag-cbor
;; (or v1 stand-in) blob over the assembled dict. That CID is
;; baked into the kernel at build time and re-verified on startup
;; per design §12.3.
;;
;; Section values are bare parenthesised paths (data lists, not
;; function calls) — the manifest is consumed by `parse`, not
;; `eval`. Empty sections are written as `()`.
(GenesisManifest
:version "0.0.1"
:kernel-version "1.0.0-m1"
:activity-types ("activity-types/create.sx"
"activity-types/update.sx"
"activity-types/delete.sx")
:object-types ("object-types/sx-artifact.sx"
"object-types/note.sx"
"object-types/tombstone.sx"
"object-types/define-activity.sx"
"object-types/define-object.sx"
"object-types/define-projection.sx"
"object-types/define-validator.sx"
"object-types/define-codec.sx"
"object-types/define-sig-suite.sx"
"object-types/snapshot.sx")
:projections ("projections/activity-log.sx"
"projections/by-type.sx"
"projections/by-actor.sx"
"projections/by-object.sx"
"projections/actor-state.sx"
"projections/define-registry.sx"
"projections/audience-graph.sx")
:validators ("validators/envelope-shape.sx"
"validators/signature.sx"
"validators/type-schema.sx")
:codecs ("codecs/dag-cbor.sx" "codecs/raw.sx" "codecs/dag-json.sx")
:sig-suites ("sig-suites/rsa-sha256-2018.sx" "sig-suites/ed25519-2020.sx")
:audience ("audience/public.sx" "audience/followers.sx" "audience/direct.sx"))

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;; next/genesis/object-types/define-activity.sx
;;
;; Meta-object that registers a new activity verb. Published as
;; Create{DefineActivity{...}}; the define-registry projection
;; folds it into the activity-types registry. Per design §5.
(DefineObject
:name "DefineActivity"
:doc "Activity-type registration. :name is the verb (e.g.\n \"Pin\"); :schema is an SX predicate over activity\n envelopes; :semantics is an optional state-fold body."
:schema (fn
(obj)
(and (string? (-> obj :name)) (not (nil? (-> obj :schema))))))

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