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81 Commits
architectu ... loops/fed-

Author SHA1 Message Date
giles
6231a82be0 fed-sx-m2: bump http_publish/post_format/multi_actor sx_server timeout
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Details 
Step 5d added ~150 lines to http_server.erl bringing it to ~1180
lines. erlang-load-module on this port scales superlinearly with
function count, so three more http_*.sh tests' internal sx_server
timeout (M1 default 240s) was no longer enough.

Bumped to 600s — matches the headroom the other eight http_*.sh
tests got in the Step 5d commit. Background-gate verification
flagged these three (no behaviour change; just budget).

http_publish 10/10, http_post_format 13/13, http_multi_actor 41/41
all green at 600s.
 2026-06-06 19:55:03 +00:00
giles
d36fe4ee97 fed-sx-m2: Step 5d — inbox handler wires the ingestion chain
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Details 
POST /actors/<id>/inbox is now special-cased in route/2 (next to
POST /activity) so the body + Cfg reach the new handle_inbox_post/3
handler.

Wire format: body = term_codec:encode(SignedActivity); the receiver
decodes into the activity proplist and runs the chain.

handle_inbox_post/3 orchestration:
  1. kernel_has_actor(field(kernel, Cfg), TargetId)  -> 404 if missing
  2. decode_activity(Body)                           -> 422 on bad shape
  3. envelope:get_field(actor, Activity)             -> 422 if no peer id
  4. resolve_peer_as(PeerId, Cfg)                    -> 401 if unknown
  5. nx_kernel:inbox_state_for(TargetAtom)           -> 404 belt-and-braces
  6. pipeline:validate_inbound(Activity, PeerAS, InboxLog)
       ok                     -> nx_kernel:append_inbox + 202
       {error, bad_signature} -> 401
       {error, no_signature}  -> 401
       {error, _}             -> 422

resolve_peer_as/2 supports three Cfg paths in priority order:
  {peer_as,        [{PeerId, AS}, ...]}   pure-fn pre-populated map
  {peer_actors,    AtomName}              peer_actors gen_server cache
  {peer_fetch_fn,  fun/1}                 fallback on srv cache miss
Empty Cfg returns {error, no_peer_resolver} -> 401.

v1 actor_post/1 4a stub deleted; M1 actor_inbox_post_response/0
kept for response composition.

Projection broadcast on inbox success intentionally deferred to a
follow-up sub-deliverable.

inbox.sh 11/11 (acceptance suite for the basic chain):
  - happy path -> 202
  - inbox tip advances; outbox tip unchanged (per-actor bucket
    independence carried through from Step 5a)
  - empty / garbage body -> 422
  - unknown peer -> 401
  - bad peer-AS keys -> 401
  - replay (same activity twice) -> 422 on second
  - unknown target actor -> 404
  - two distinct activities -> tip = 2

inbox_peer_resolution.sh 6/6 (Cfg resolution variants):
  - peer_actors gen_server hit -> 202
  - FetchFn fallback -> 202
  - FetchFn error -> 401
  - FetchFn caches into peer_actors (peers_srv shows [bob] after)
  - No resolver -> 401

Tests split into two files because each epoch's kernel start_link
+ outbox construct + term_codec encode is expensive and a single
suite hits the wall-clock budget.

http_server.erl is now 1181 lines. erlang-load-module on this port
scales superlinearly with function count, so eight http_*.sh tests'
internal sx_server timeout bumped 60s -> 360s (http_route,
http_actors, http_accept, http_capabilities, http_capabilities_format,
http_content_type, http_artifacts, http_projections).

Conformance 761/761.
 2026-06-06 19:19:02 +00:00
giles
d481af5791 fed-sx-m2: Step 5c — peer-actors cache + 19 tests
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Details 
New next/kernel/peer_actors.erl is the federation-side cache for
{PeerActorId, PeerActorState} entries. PeerAS is exactly the shape
envelope:verify_signature/2 reads (proplist with :public_keys), so
the inbox handler can pipe the cache hit straight into
pipeline:validate_inbound/3 from Step 5b.

Pure-functional API:
  new/0
  lookup/2(PeerId, State) -> {ok, PeerAS} | not_found
  store/3(PeerId, PeerAS, State) -> NewState
  evict/2(PeerId, State) -> NewState
  peers/1(State) -> [PeerId]
  lookup_or_fetch/3(PeerId, FetchFn, State)
      -> {ok, PeerAS, NewState}      cache hit returns unchanged State,
                                     miss stores FetchFn result.
      | {error, Reason, State}        FetchFn failure preserves cache.
      | {error, {bad_fetch_return, X}, State}

FetchFn contract: (PeerId) -> {ok, PeerAS} | {error, Reason}.
Failed fetches do NOT poison the cache so callers can retry on
transient HTTP failures.

gen_server wrapper (registered name peer_actors):
  start_link/0,1   start_link/1 accepts initial proplist for fixtures
  stop/0
  lookup_srv/1
  store_srv/2
  lookup_or_fetch_srv/2
  peers_srv/0
  evict_srv/1

handle_call dispatches mirror the pure-fn paths exactly.

The actual HTTP-GET fetch implementation (peer's actor doc -> peer
AS proplist) is Step 5d's responsibility — for 5c, FetchFn is just
the contract callers fill in.

19/19 in next/tests/peer_actors.sh:
  - new/0 -> []
  - lookup miss -> not_found
  - store + lookup round-trip
  - peers/1 in insertion order
  - evict + evict-unknown no-op
  - lookup_or_fetch miss invokes FetchFn, hits cache after
  - lookup_or_fetch hit skips FetchFn (verified by tombstone fn)
  - fetch error preserves cache state
  - bad fetch return shape captured
  - gen_server start_link + miss/hit/fetch/evict round-trips
  - start_link/1 pre-populates cache from initial state

Conformance 761/761. 139/139 across 9 Step-5-adjacent suites
(inbox_pipeline, inbox_bucket, pipeline_signature, registry_server,
projection_server, nx_kernel_multi, bootstrap_start, http_publish,
smoke_app_pure, plus the new peer_actors).
 2026-06-06 16:36:19 +00:00
giles
d103ecb863 fed-sx-m2: Step 5b — pipeline:validate_inbound/3 + 14 tests
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Details 
New federation inbound pipeline that runs envelope-shape -> peer
signature -> replay against the receiving actor's inbox log.

pipeline.erl additions:
  validate_inbound/3(Activity, PeerActorState, InboxLog)
      runs inbound_stages(PeerAS, InboxLog) and halts on first
      failure (existing run_stages/2 driver). Returns ok |
      {error, Reason}.
  inbound_stages/2(PeerAS, InboxLog)
      [stage_envelope, stage_signature(PeerAS), stage_replay(InboxLog)]

M1's validate_inbound/1 and the static inbound_stages/0 (envelope-
only) are preserved — outbox-side callers don't have to re-key on
a peer-AS they don't have.

Signature verification routes through the peer's actor-state
:public_keys (NOT the local kernel's actor-state). Peer-AS
resolution is the caller's responsibility for 5b; Step 5c wires
the peer-actors cache lookup.

14 cases in next/tests/inbox_pipeline.sh:
  - happy path: valid signed activity + correct peer AS + empty
    inbox -> ok
  - bad envelope shape -> {error, _} (stage_envelope rejects)
  - unsigned activity -> stage_envelope rejects on
    {missing_field, signature} before sig runs
  - wrong peer AS (peer's claimed key bytes differ from real) ->
    {error, bad_signature}
  - replay: inbox already contains the same activity -> {error, replay}
  - inbox with a different activity doesn't trigger replay
  - inbound_stages/2 returns exactly 3 stages
  - inbound_stages/0 still returns 1 stage
  - validate_inbound/1 still works
  - shape failure short-circuits before sig
  - sig failure short-circuits before replay
  - two distinct activities both verify against empty inbox
  - inbox-of-one doesn't replay the other

Conformance 761/761. 130/130 across 10 Step-5-adjacent suites
(pipeline_envelope, pipeline_signature, pipeline_replay,
pipeline_driver, inbox_pipeline, inbox_bucket, nx_kernel_multi,
bootstrap_start, http_publish, outbox_publish, smoke_app_pure).
 2026-06-06 16:22:47 +00:00
giles
bc4b23cc62 fed-sx-m2: Step 5a — per-actor :actor_inbox log bucket + 14 tests
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Details 
Adds the receiving-side log bucket every actor needs. add_actor/4
now opens a fresh in-memory log via log:open(ActorId, inbox_base_stub())
and stores it on the bucket as {actor_inbox, LogState} alongside
the outbox {log, _}. Two distinct base stubs ensure the in-memory
log module returns separate states even when the same ActorId is
the actor.

Pure-functional exports:
  actor_inbox_state/2(ActorId, State) -> {ok, LogState} | {error, _}
  actor_inbox_tip/2(ActorId, State) -> integer | nil
  append_to_actor_inbox/3(ActorId, Activity, State)
      -> {ok, NewTip, NewState} | {error, no_actor, State}

gen_server exports (mirror the outbox shape):
  inbox_tip_for/1(ActorId) -> integer | nil
  inbox_state_for/1(ActorId) -> {ok, LogState} | {error, _}
  append_inbox/2(ActorId, Activity) -> {ok, NewTip} | {error, _}

handle_call dispatch added for all three.

Inbox and outbox tips are completely independent — appending to one
doesn't touch the other. This is the storage primitive 5b will
build the inbound validation pipeline on top of.

log:append/2 signature noted in code + progress log: it takes
(LogState, Activity) and returns {ok, NewState, Seq} — not
{ok, NewState} as I originally guessed.

next/tests/inbox_bucket.sh 14/14:
  - fresh inbox tip = 0 (pure)
  - actor_inbox_state {ok, _} (pure)
  - append_to_actor_inbox/3 -> {ok, 1, _}
  - tip advances after append
  - unknown actor -> {error, no_actor, _}
  - outbox + inbox tips fully independent
  - two actors maintain independent inbox state
  - gen_server inbox_tip_for/1 starts at 0
  - gen_server append_inbox/2 -> {ok, 1}
  - gen_server inbox != outbox tip
  - gen_server unknown -> {error, no_actor}
  - gen_server inbox_state_for {ok, _}
  - two appends -> tip = 2

Conformance 761/761. 125/125 across 7 Step-5-adjacent suites
(inbox_bucket, nx_kernel_multi, nx_kernel_server, bootstrap_start,
http_publish, http_multi_actor, actor_lifecycle, smoke_app_pure).
 2026-06-06 15:58:17 +00:00
giles
a23a2eb95a fed-sx-m2: Step 4e — scope-boundary tick, no code change
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Details 
POST /actors/<id>/inbox stays the 4a 202 'accepted' stub through
all of 4a-4d. The real inbound pipeline (peer sig verify + inbox-
bucket append + projection broadcast) is Step 5's whole topic, so
4e is closed as a deliberate scope boundary — no code change.

Step 4 fully closed (4a per-actor sub-paths, 4b token map,
4c route/3 + kernel access, 4d outbox listing + pagination, 4e
inbox-stays-stub).
 2026-06-06 15:43:05 +00:00
giles
6cfb1cb2d3 fed-sx-m2: Step 4d — outbox listing from log + pagination + 8 tests
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Details 
Per-actor GET /actors/<id>/outbox now reads the bucket's log via
new nx_kernel:log_state_for/1 gen_server export and renders the
paged CID list.

nx_kernel additions:
  log_state_for/1 gen_server call returning {ok, LogState} for
  the named actor (mirrors log_tip_for/1's shape).

http_server additions:
  - with_request_query/2 bakes Req's :query binary into Cfg as
    {request_query, Q} so sub-resource handlers can parse params
    without taking the Req as another arg
  - kernel_actor_log_data/2 -> {Tip, Entries} via
    nx_kernel:log_tip_for + log_state_for + log:entries
  - parse_page/1 reads ?page=N (default 1, non-digits -> 1)
  - page_size/0 returns 5 (test-friendly; production picks 20+)
  - page_slice/2 + drop_take/3 + take/2 for the page extraction
  - entry_cids/1 maps entries to :id CID binaries via envelope
  - actor_outbox_full_response_for/5 renders text / JSON / SX:
      text:  outbox: <id>\ntip: N\npage: P\nitem: <cid>\n...
      json:  {"outbox":"<id>","tip":N,"page":P,"items":[...]}
      sx:    (outbox "<id>" :tip N :page P :items (...))
    Empty page degrades to actor_outbox_with_tip_response_for so
    epochs 50-57 from Step 4c still pass — the prefix is preserved.

8 new cases in next/tests/http_multi_actor.sh (41/41 total):
  - 1 publish -> body contains outbox/tip=1/page=1/item: prefix
  - 3 publishes -> body contains tip=3/page=1/item: prefix
  - page=2 with 3 items -> empty page degrades to tip-only body
  - 6 publishes page=1 -> tip=6/page=1/item: prefix
  - 6 publishes page=2 -> tip=6/page=2/item: prefix
  - JSON body shape with items array (1 entry)
  - SX body shape with :items list (1 entry)
  - bad ?page=bad falls back to page 1

Conformance 761/761. 117/117 across 11 Step-4-adjacent suites
(http_multi_actor, http_route, http_publish, http_post_format,
http_marshal, http_publish_fold, http_listen_bif, http_server_start,
nx_kernel_multi, nx_kernel_server, bootstrap_start, actor_lifecycle).

Substrate gotcha logged: named recursive funs fun F(...) -> F(...)
end aren't supported by the parser ('fun-ref syntax not yet
supported'); binary:matches/2 and lists:foreach/2 aren't registered.
Tests prove behaviour via match_prefix substring checks rather than
counting occurrences.
 2026-06-06 15:42:37 +00:00
giles
e04a65d400 fed-sx-m2: Step 4c — route/3 with kernel access + 8 tests
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Details 
http_server:route/3(Req, Cfg, Kernel) is the new extended entry
point: folds the kernel reference (typically the registered
nx_kernel atom) into Cfg as {kernel, Kernel}. route/2 is
unchanged and stays the M1 surface.

The dispatch chain gained Cfg threading all the way down:
  dispatch/3 -> dispatch/4 (M, P, F, Cfg)
  actor_get/2 -> actor_get/3 (Rest, F, Cfg)
  actor_subresource_get/3 -> /4 (Id, Sub, F, Cfg)

actor_outbox_response_for/3 (new) reads :kernel from Cfg and,
when the kernel atom is registered AND the actor exists, renders
'tip: <N>' alongside the actor id in text / JSON / SX content-
negotiated bodies. Unknown actors or unregistered kernels fall
back to the 4a stub.

Inbox / followers / following handlers accept Cfg but ignore it
for now — they layer real state lookup in 4d/4e/Step 5+.

Substrate gotcha logged in the Progress log: try/of/catch around
gen_server:call(nx_kernel, _) deadlocks in this port's scheduler
(probably the catch frame's mask defers reply delivery). The
live kernel_log_tip/2 helper does a bare call + integer guard
instead. nx_kernel_multi.sh already proves bare gen_server:call
into the same kernel works correctly.

8 new cases in next/tests/http_multi_actor.sh (33/33 total):
  - route/3 with registered kernel: outbox body includes tip=0
  - tip advances after POST publish through route/3 + token map
  - unknown actor (ghost) falls back to 4a stub (no tip:)
  - unregistered kernel ref falls back to stub
  - JSON Accept renders {"outbox":"alice","tip":0}
  - SX Accept renders (outbox "alice" :tip 0)
  - Bob's outbox tip stays 0 while Alice publishes (per-actor)
  - route/2 path unchanged: no tip field in body

Conformance 761/761. 121/121 across 10 Step-4-adjacent suites
(http_multi_actor, http_route, http_publish, http_post_format,
http_marshal, http_publish_fold, http_listen_bif, http_server_start,
nx_kernel_multi, bootstrap_start, actor_lifecycle).
 2026-06-06 14:59:59 +00:00
giles
271632c923 fed-sx-m2: Step 4b — token -> ActorId map + 8 new tests
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Details 
POST /activity now routes through nx_kernel:publish_to/2 when the
bearer token resolves to an explicit ActorId via Cfg's :tokens
proplist:

  Cfg = [{tokens, [{<<"alice-token">>, alice},
                   {<<"bob-token">>,   bob}]}]

resolve_token/2 returns {ok, ActorId} on a :tokens hit. On a miss
it falls back to the M1 :publish_token single-token field — match
returns {ok, legacy}, routing through nx_kernel:publish/1 (which
fans out to bucket 0) so every M1 test continues to pass.

handle_post_activity threads the resolved ActorRef to
publish_if_kernel/3 which dispatches publish_to/2 for explicit
actor ids and publish/1 for the legacy atom. The no-kernel
auth-only path (which preserves the post_activity_response_for stub
for unit-style tests of http_server alone) is unchanged.

Dead expected_token/1 helper removed (was only called by the old
check_bearer arm that resolve_token replaces).

8 new cases in next/tests/http_multi_actor.sh (25/25 total):
  - two-actor Cfg, Alice token -> 200 with cid:
  - Alice token publishes to alice (log_tip alice=1, bob=0)
  - Bob token publishes to bob (log_tip alice=0, bob=1)
  - interleaved Alice + Bob + Alice -> {2, 1}
  - unknown token + no :publish_token -> 401
  - legacy :publish_token still works (M1 back-compat)
  - tokens map AND legacy :publish_token coexist (each resolves to
    its own actor; legacy lands on alice bucket via publish/1)
  - no kernel + valid :tokens entry -> auth-only stub 200

Conformance 761/761. 116/116 across 10 Step-4-adjacent suites
(http_multi_actor, http_route, http_publish, http_post_format,
http_marshal, http_publish_fold, http_listen_bif, http_server_start,
nx_kernel_multi, bootstrap_start, actor_lifecycle).
 2026-06-06 14:31:27 +00:00
giles
0b8772ec69 fed-sx-m2: Step 4a — per-actor HTTP sub-paths + 17 tests
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Details 
Per design §16.1 each actor has /outbox /inbox /followers /following
sub-paths. New split_first_slash/1 helper lets the GET /actors/...
dispatch arm fan out on the sub-segment:

  GET  /actors/<id>            actor doc (M1 — unchanged)
  GET  /actors/<id>/outbox     outbox stub (4a)
  GET  /actors/<id>/inbox      inbox stub (4a)
  GET  /actors/<id>/followers  follower stub (4a)
  GET  /actors/<id>/following  following stub (4a)
  POST /actors/<id>/inbox      202 Accepted stub (4a; Step 5 real)

Four new content-negotiated response functions mirror the existing
actor_doc_response_for/2 shape (text / json / activity_json / sx
variants):

  actor_outbox_response_for/2
  actor_inbox_get_response_for/2
  actor_followers_response_for/2
  actor_following_response_for/2

POST returns 202 via new accepted_response/1 +
actor_inbox_post_response/0.

Unknown sub-paths under /actors/<id>/ return 404. Bare /actors/<id>
preserves the M1 actor-doc arm so http_route + http_post_format
regression suites stay green.

4b-4e (token map, route/3 kernel access, per-actor outbox listing
from log entries, real inbox pipeline) layer on top of this dispatch
in subsequent iterations.

17/17 in next/tests/http_multi_actor.sh covering:
  - split_first_slash sanity (no slash / id+sub / trailing slash)
  - all four GET sub-paths return 200 with stub bodies
  - POST inbox returns 202 + 'accepted'
  - unknown sub-paths return 404 (GET and POST)
  - empty /actors/ returns 404
  - body carries the actor id
  - content negotiation: outbox JSON, inbox SX, followers JSON

Conformance 761/761. 120/120 across 10 Step-4-adjacent suites
(http_route, http_publish, http_post_format, http_marshal,
http_publish_fold, http_listen_bif, http_server_start,
nx_kernel_multi, actor_state_pure, bootstrap_start).
 2026-06-06 13:47:00 +00:00
giles
238a1fbea0 fed-sx-m2: Step 3 — key rotation via Update + actor_state + 16 tests
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Details 
actor_state.erl fold_update routes patches through apply_patch/3
which special-cases two rotation patch entries per design §9.6:

  {add_publicKey, KeyProplist}
      Append to :public_keys; default :created to activity's
      :published if unset.
  {supersede, OldKeyId}
      Mark the matching key with :superseded_at = activity's
      :published. Existing :superseded_at preserved (idempotent);
      unknown :id no-op.

Other patch entries still last-write-wins per key (Step 2b semantics
preserved; verified by actor_state_pure 19/19 unchanged).

New exports:
  key_history/1     — full :public_keys list (preserves superseded)
  active_keys_at/2  — subset active at time T (mirrors envelope's
                       is_active_at; envelope keeps that predicate
                       private, so a local copy lives here)
  find_key_by_id/2  — lookup by :id in the history

Rotation-purpose schema gating per §9.6 (rotation must be signed
by a key with :rotate-key purpose) is deferred to Step 5 (peer-side
stage_signature will plumb purpose through the pipeline).

16/16 in next/tests/key_rotation.sh covering:
  - rotation arithmetic (add_publicKey + supersede combined)
  - new key :created = rotation activity's :published
  - supersede marks :superseded_at correctly
  - key_history preserves all keys (superseded included)
  - active_keys_at semantics at T=pre / T=rotation / T=post
  - live envelope:verify_signature/2 round-trips:
      pre-rotation activity signed with K1 -> ok
      post-rotation activity signed with K2 -> ok
      post-rotation activity signed with K1 -> {error, no_active_key}
  - non-rotation Update patches preserve key history
  - add_publicKey alone (no supersede) keeps old key active
  - supersede alone empties active set
  - supersede with unknown id is a no-op
  - second supersede on superseded key is idempotent

Conformance 761/761. 132/132 across 9 Step-3-adjacent suites
(key_rotation, actor_state_pure, actor_lifecycle, envelope_sig,
envelope_shape, envelope_canonical, nx_kernel_multi, bootstrap_start,
smoke_app_pure).
 2026-06-06 13:08:25 +00:00
giles
1fd85e10e6 fed-sx-m2: Step 2c — bootstrap_actor/4 + actor_lifecycle integration
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Details 
New nx_kernel:bootstrap_actor/4(ActorId, Profile, KeySpec, State)
single-call entry that adds an actor bucket and immediately publishes
a Create{Person|Service|Group} envelope as the bucket's first activity:

  - Profile carries :type, :name, :preferredUsername, :summary, :icon,
    :public_keys. :type defaults to person if unset.
  - Kernel AS proplist built from Profile's :public_keys (falls back
    to []).
  - Create object built from Profile fields (Step 2b actor_state
    fold picks the same field set).

gen_server variant bootstrap_actor/3 for live-kernel use plus a new
handle_call branch.

15/15 in next/tests/actor_lifecycle.sh covering pure + gen_server +
actor_state projection capture for all three actor types:

  - Pure: bootstrap_actor advances log_tip = 1, Create has
    object.type = person
  - Pure: two actors share a kernel with independent log tips
  - Pure: duplicate bootstrap_actor -> already_present
  - Pure: typeless profile defaults to person
  - Pure: empty public_keys handled
  - gen_server: bootstrap_actor/3 against a live registered kernel
  - actor_state projection captures Person, Service, Group profiles
  - profile carries :preferredUsername + :public_keys from the
    Create object

Closes Step 2 (2a Person/Service/Group genesis files,
2b actor_state projection fold, 2c bootstrap_actor + integration).

Conformance 761/761. 146/146 across 10 Step-2-adjacent suites
(actor_lifecycle, actor_state_pure, nx_kernel_multi, nx_kernel_server,
bootstrap_start, smoke_app_pure, smoke_pin_pure, define_registry_pure,
projection_server, outbox_publish).
 2026-06-06 12:32:16 +00:00
giles
bcfbd9a528 fed-sx-m2: Step 2b — actor_state projection fold + 19 tests
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Details 
next/kernel/actor_state.erl mirrors define_registry's structure: a
2-arity fold_fn that plugs into projection:start_link/3, an
Erlang-fun stand-in for the genesis actor-state.sx projection body.

State shape:
  [{ActorId, Profile}, ...]

Profile is a property list with :type, :name, :preferredUsername,
:summary, :icon, :public_keys, :moved_to, :created. Maps #{} aren't
registered in this substrate, so this matches the kernel bucket /
registry shape convention.

Folding rules per design §9.1-§9.4:
  - Create{Person|Service|Group}: register profile, capturing object
    fields + :published seq as :created. Duplicate Create no-overwrite.
  - Update{Person|Service|Group, patch}: deep-merge :patch into
    profile last-write-wins per key.
  - Move: record :moved_to.
Other activity types and non-actor object Creates pass through.

Local find_keyed/has_keyed/set_keyed helpers (same gap as Step 1a:
no lists:keyfind/keymember in this substrate).

19/19 in next/tests/actor_state_pure.sh covering:
  - new/0/has/2/lookup/2/actors/1 base cases
  - Create for Person/Service/Group all three actor types
  - Profile field capture (name, preferredUsername, public_keys, created)
  - Duplicate Create no-overwrite
  - Two independent actors
  - Update field merge + per-key last-write-wins
  - Update for unknown actor pass-through
  - Move :moved_to
  - Non-actor Creates pass through
  - Activities without :actor pass through
  - fold_fn/0 returns is_function(F, 2)

Conformance 761/761. Step-2-adjacent no-regression gate 106/106
across 6 suites (define_registry_pure, projection_pure,
projection_server, nx_kernel_multi, bootstrap_start, smoke_app_pure).
 2026-06-06 11:53:14 +00:00
giles
0c44a10c8f fed-sx-m2: Step 2a — Person/Service/Group genesis object-types
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Details 
Three new DefineObject artefacts in next/genesis/object-types/ for
the canonical actor object-types per design §9.1:

- Person: human-controlled identity (display name + handle + bio)
- Service: automated / programmatic actor (bot, feed, organisation)
- Group: multi-controller actor (member-set managed via Add/Remove)

Each is a small SX form with :name / :doc / :schema, identical
shape to existing object-types (note.sx, sx-artifact.sx etc) so the
existing bootstrap:populate_registry walk picks them up without
code changes. Manifest extended (object-types: 10 -> 13, total
entries: 31 -> 34).

Tests:
- genesis_parse.sh +7 cases (head form, :name, manifest membership);
  57/57.
- Hardcoded counts bumped in bootstrap_read.sh, bootstrap_load.sh,
  bootstrap_populate.sh, bootstrap_start.sh.
- bootstrap_build.sh 12/12 (bundle CID computed dynamically).

Conformance 761/761 preserved. 211/211 across 12 Step-2-adjacent
suites.
 2026-06-06 11:19:22 +00:00
giles
089d1445a1 fed-sx-m2: Step 1b — nx_kernel multi-actor gen_server calls + 9 tests
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Details 
New gen_server exports add_actor/3, publish_to/2, log_tip_for/1,
actors/0, state_for/1, bucket_for/1, with_projections_for/2 —
each is a thin gen_server:call delegating to 1a's pure-functional
bucket API via fresh handle_call branches. Existing single-actor
calls (publish/1, log_tip/0, with_projections/1) route through
bucket 0 unchanged.

Per-actor mailbox sharding (one gen_server per bucket so distinct-
actor publishes don't serialise on a single mailbox) is forward-
looking — deferred to Step 4 where the per-actor HTTP routing makes
it actually load-bearing. Single-mailbox serialisation is fine for
Steps 1-3.

nx_kernel_multi.sh extended from 17 to 26 cases (gen_server load,
start_link bucket-0 seed, add_actor/3 dup detection, publish_to/2
per-actor isolation, interleaved publishes, no_actor error, state_for
+ with_projections_for round-trips). 134/134 across 12 nx_kernel-
adjacent + http suites. Erlang conformance 761/761 preserved.
 2026-06-06 10:25:43 +00:00
giles
6a9bd054c7 fed-sx-m2: Step 1a — nx_kernel per-actor bucket refactor + 17 tests
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Details 
State shape becomes [{actors, [{Id, Bucket}, ...]}, {next_actor_seq, N}]
with ActorBucket = [{key_spec, KS}, {actor_state, AS}, {log, L},
{projections, [Name]}, {next_published, N}]. Pure-functional multi-
actor APIs (new/0, add_actor/4, has_actor/2, actors/1, actor_count/1,
publish/3, per-actor accessors, with_actor_projections/3) join the
legacy single-actor accessors, which now read from the first bucket.
Every M1 test continues to pass via bootstrap:start/3 -> new/3 ->
first-bucket lookup.

Local has_keyed/find_keyed/set_keyed/set_bucket helpers cover the
keyed-list ops since lists:keymember/keyfind aren't registered in
this substrate.

next/tests/nx_kernel_multi.sh 17/17. M1 nx_kernel-adjacent suites
green (bootstrap_start 10/10, nx_kernel_server 11/11, http_publish
10/10, smoke_app_pure 12/12, http_post_format 13/13, http_publish_fold
10/10, http_marshal 10/10). Erlang conformance 761/761 preserved.

Blockers entry added for pre-existing http_server_tcp.sh 0/5
regression (78eae9ef left dead helper references in runtime.sx:1593) —
substrate-side, out of m2 scope, confirmed pre-existing by reverting
1a's changes and re-running.
 2026-06-06 09:46:24 +00:00
giles
9b04769a27 fed-sx-m2: loop agent briefing
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Details 
Restart baseline, build queue, ground rules, gotchas, two-instance
test harness pattern for the m2 federation loop.
 2026-06-06 09:00:12 +00:00
giles
7ea9d04564 fed-sx-m2: draft milestone-2 plan — multi-actor + federation (12 steps, two-instance smoke test)
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2026-06-06 08:26:45 +00:00
giles
78eae9ef12 fed-sx-m1: 8b-bridge cleanup — remove dead helpers + duplicate test
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Details 
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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Details 
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
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004a88c03c fed-sx-m1: Step 4f-consolidate — bootstrap:start/3 one-call boot + 10 tests
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e8ca0590a3 fed-sx-m1: Step 7d-pure — sandbox:eval_pure/2,/3 + 13 tests
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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
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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
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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
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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
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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
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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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1aaede4272 fed-sx-m1: Step 8d-content-type — content_type_for/1 + ok_response/2 + 13 tests
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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
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fa064093f5 fed-sx-m1: Step 8d-accept — Accept header parsing (accept_format/1 + accept_format_from/1) + 13 tests
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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
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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
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05100ef050 fed-sx-m1: Step 8c-post-publish-http — POST /activity wires through nx_kernel:publish + 10 tests
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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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2026-05-28 11:08:47 +00:00
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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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2026-05-28 08:06:01 +00:00
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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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2026-05-28 06:22:11 +00:00
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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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2026-05-28 03:36:25 +00:00
giles
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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2026-05-28 02:32:06 +00:00
giles
aa6b01f430 fed-sx-m1: Step 5b — gen_server-wrapped registry + named-process API + 12 tests
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2026-05-28 01:59:55 +00:00
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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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2026-05-27 07:06:40 +00:00
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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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2026-05-26 21:00:39 +00:00
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65dfdd0ba4 fed-sx-m1: Step 2b — envelope:canonical_bytes/1 + 8 determinism tests
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2026-05-26 20:41:27 +00:00
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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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183 changed files with 14308 additions and 14444 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
View File

@@ -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
View File

@@ -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
View File

@@ -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
View File

@@ -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
View File

@@ -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
View File

@@ -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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; 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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; 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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@@ -1,92 +0,0 @@
; 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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@@ -1,19 +0,0 @@
{
"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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@@ -1,75 +0,0 @@
; 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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@@ -1,85 +0,0 @@
; 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"))

155
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"))

68
lib/feed/tests/mute.sx
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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))

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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)

82
lib/feed/tests/trending.sx
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@@ -1,82 +0,0 @@
; 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"))

59
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

1539
lib/go/eval.sx
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476
lib/go/lex.sx
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@@ -1,476 +0,0 @@
;; 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)))

1262
lib/go/parse.sx
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66
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"}]
}

16
lib/go/scoreboard.md
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@@ -1,16 +0,0 @@
# 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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;; 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))

1231
lib/go/tests/parse.sx
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311
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)))))

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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; per-actor bucketed state (m2 Step 1a) |
| `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/person.sx"
"object-types/service.sx"
"object-types/group.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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;; next/genesis/object-types/define-codec.sx
;;
;; Meta-object that registers a content codec — an encode/decode
;; pair. The bootstrap bundle ships dag-cbor, raw, and dag-json
;; codecs; new codecs can be added via Create{DefineCodec{...}}.
(DefineObject
:name "DefineCodec"
:doc "Codec registration. :name identifies the codec ('dag-cbor',\n 'raw', 'dag-json', ...); :encode and :decode are the\n SX bodies the kernel calls when serialising / parsing\n artifacts under this codec."
:schema (fn
(obj)
(and
(string? (-> obj :name))
(not (nil? (-> obj :encode)))
(not (nil? (-> obj :decode))))))

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;; next/genesis/object-types/define-object.sx
;;
;; Meta-object that registers a new object-type. Bootstrap-level —
;; runtime registration of new object types (e.g. DefineSubscription
;; in the Step 9b smoke test) flows through this.
(DefineObject
:name "DefineObject"
:doc "Object-type registration. :name is the type tag (e.g.\n \"PinSpec\"); :schema is an SX predicate over object\n forms of that type."
:schema (fn
(obj)
(and (string? (-> obj :name)) (not (nil? (-> obj :schema))))))

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;; next/genesis/object-types/define-projection.sx
;;
;; Meta-object that registers a new projection. The projection
;; scheduler (Step 7) spawns one gen_server per registered
;; projection and feeds activities through its :fold body in
;; sandbox mode.
(DefineObject
:name "DefineProjection"
:doc "Projection registration. :name is the projection key;\n :initial-state is the empty state value; :fold is the\n pure (state activity) -> state function evaluated in\n sandbox mode per activity."
:schema (fn
(obj)
(and
(string? (-> obj :name))
(not (nil? (-> obj :initial-state)))
(not (nil? (-> obj :fold))))))

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;; next/genesis/object-types/define-sig-suite.sx
;;
;; Meta-object that registers a signature suite. Bootstrap ships
;; rsa-sha256-2018 and ed25519-2020; the suite name maps an
;; algorithm to a :verify body and a :key-format predicate.
(DefineObject
:name "DefineSigSuite"
:doc "Signature suite registration. :name identifies the suite\n ('rsa-sha256-2018', 'ed25519-2020', ...); :verify is the\n SX (canonical-bytes signature key) -> bool body; the\n envelope-signature validator dispatches by suite name."
:schema (fn
(obj)
(and (string? (-> obj :name)) (not (nil? (-> obj :verify))))))

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;; next/genesis/object-types/define-validator.sx
;;
;; Meta-object that registers a validator predicate. The validation
;; pipeline (Step 6) consults registered validators by name when
;; running its stages.
(DefineObject
:name "DefineValidator"
:doc "Validator registration. :name is the validator key (e.g.\n \"envelope-shape\"); :predicate is the SX (activity) ->\n ok|{error, R} body."
:schema (fn
(obj)
(and (string? (-> obj :name)) (not (nil? (-> obj :predicate))))))

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;; next/genesis/object-types/group.sx
;;
;; Per design §9.1: a Group is a multi-controller actor — typically
;; a working group, channel, or collective whose membership is
;; managed via Add/Remove activities. Sig-suite validation honours
;; the current key-set rather than a single keypair.
(DefineObject
:name "Group"
:doc "Multi-controller actor. :name is the group's display name; :preferredUsername is the local handle; :summary is the description; :icon is a CID or URL; :members is the current member list (managed via Add/Remove)."
:schema (fn (obj) (string? (-> obj :name))))

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;; next/genesis/object-types/note.sx
;;
;; Short message intended for an audience, ActivityPub-Note-compatible.
;; Used by the Step 9b reactive smoke test (Note tagged "smoketest"
;; matches the Topic subscription).
(DefineObject
:name "Note"
:doc "Short authored message. :content is the body text;\n :tags is a list of subscription-routable tags."
:schema (fn (obj) (string? (-> obj :content))))

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;; next/genesis/object-types/person.sx
;;
;; Per design §9.1: a Person is the canonical actor type for a
;; human-controlled identity. Bootstrapped via Create{Person{...}}
;; as the actor's first activity (see nx_kernel:bootstrap_actor/4).
;; ActivityPub-Person-compatible.
(DefineObject
:name "Person"
:doc "Human-controlled actor. :name is the display name; :preferredUsername is the local handle; :summary is the profile bio; :icon is a CID or URL."
:schema (fn (obj) (string? (-> obj :name))))

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;; next/genesis/object-types/service.sx
;;
;; Per design §9.1: a Service is a non-human actor — a bot, an
;; automated feed, an organisational publisher. Same activity
;; surface as Person, different ActivityPub Actor type. Tooling
;; treats a Service identically to a Person except for UX hints.
(DefineObject
:name "Service"
:doc "Automated / programmatic actor. :name is the display name; :preferredUsername is the local handle; :summary is the profile bio; :icon is a CID or URL."
:schema (fn (obj) (string? (-> obj :name))))

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;; next/genesis/object-types/snapshot.sx
;;
;; Projection state checkpoint. The projection scheduler emits
;; Snapshot{projection-name, state-cid, log-seq} periodically;
;; cold starts read the most recent Snapshot and replay only
;; activities after :log-seq. Per design §10.5.
(DefineObject
:name "Snapshot"
:doc "Projection-state checkpoint. :projection-name identifies\n the projection; :state-cid is the content-address of\n the snapshotted state value; :log-seq is the activity\n sequence number the snapshot was taken at."
:schema (fn
(obj)
(and (string? (-> obj :projection-name)) (string? (-> obj :state-cid)))))

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;; next/genesis/object-types/sx-artifact.sx
;;
;; Content-addressed SX source — a library, component, or
;; executable form published via Create{SXArtifact{...}}.
;; Consumers reference an artifact by its CID. Per design §3.4.
(DefineObject
:name "SXArtifact"
:doc "Published SX source. :source carries the form text;\n :language is optional ('sx' by default); :imports lists\n CIDs the artifact depends on."
:schema (fn (obj) (string? (-> obj :source))))

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;; next/genesis/object-types/tombstone.sx
;;
;; Replacement for an object that has been Delete'd. Lets projection
;; folds keep a marker without retaining the deleted content.
(DefineObject
:name "Tombstone"
:doc "Marker for a deleted object. :former-cid carries the CID\n of the object that was removed. Projections fold Tombstone\n by replacing the cached entry (not by omitting it)."
:schema (fn (obj) (string? (-> obj :former-cid))))

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;; next/genesis/projections/activity-log.sx
;;
;; Identity projection: stores every activity by its CID. The
;; base ledger every other projection could be re-derived from
;; if needed. Per design §10.2.
(DefineProjection
:name "activity-log"
:doc "Maps activity CID to the full envelope. Every activity\n flows through; no filter. State is the CID-keyed dict."
:initial-state {}
:fold (fn (state act) (assoc state (-> act :cid) act)))

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;; next/genesis/projections/actor-state.sx
;;
;; Per-actor live state: publicKeys (with history per design §9.6),
;; profile fields (preferredUsername, summary, ...), follower/
;; following counts. Powers the actor doc endpoint and the
;; time-aware signature verification in envelope:verify_signature/2.
(DefineProjection
:name "actor-state"
:doc "Actor-id -> {publicKeys, profile, followers, following}.\n Updated by Create{Person|Service|Group}, Update (key\n rotation, profile edits), Move (federation migration)."
:initial-state {}
:fold (fn
(state act)
(let
((aid (-> act :actor)) (t (-> act :type)))
(cond
(= t "Create")
(assoc state aid (or (-> act :object) {}))
(= t "Update")
(assoc
state
aid
(merge
(or (get state aid) {})
(or (-> act :patch) {})))
:else state))))

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;; next/genesis/projections/audience-graph.sx
;;
;; Per-actor follow / follower graph and audience caches. Folded
;; from Follow / Accept / Reject / Undo{Follow}. Used by the
;; activity router to expand :to / :cc audiences (Public,
;; Followers, Direct) into concrete recipient sets. Per design §16.
(DefineProjection
:name "audience-graph"
:doc "Actor-id -> {following, followers, pending} sets.\n Updated by Follow / Accept / Reject / Undo. Federation\n (m2) wires this projection to the delivery queue."
:initial-state {}
:fold (fn
(state act)
(let
((t (-> act :type)))
(cond
(= t "Follow")
state
(= t "Accept")
state
(= t "Reject")
state
(= t "Undo")
state
:else state))))

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;; next/genesis/projections/by-actor.sx
;;
;; Index of activity CIDs grouped by :actor. Maps actor-id to a
;; list of CIDs in append order. Powers the per-actor outbox
;; listing (Step 8) without re-scanning the full log.
(DefineProjection
:name "by-actor"
:doc "Actor-id -> list of activity CIDs (append order)."
:initial-state {}
:fold (fn
(state act)
(let
((a (-> act :actor)) (cid (-> act :cid)))
(assoc state a (append (or (get state a) (list)) (list cid))))))

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;; next/genesis/projections/by-object.sx
;;
;; Index of activities that reference each :object CID. Maps
;; object-CID to the list of activity CIDs that target it
;; (Update / Delete / Announce / etc.). Used for "show me
;; everything that happened to X" queries.
(DefineProjection
:name "by-object"
:doc "Object CID -> list of activity CIDs that target it."
:initial-state {}
:fold (fn
(state act)
(let
((obj-cid (-> act :object)) (cid (-> act :cid)))
(if
(string? obj-cid)
(assoc
state
obj-cid
(append (or (get state obj-cid) (list)) (list cid)))
state))))

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;; next/genesis/projections/by-type.sx
;;
;; Index of activity CIDs grouped by :type. Maps type-name to a
;; list of CIDs in append order. Used by the outbox listing
;; endpoints (Step 8) for type-filtered pagination.
(DefineProjection
:name "by-type"
:doc "Type-name -> list of activity CIDs (append order)."
:initial-state {}
:fold (fn
(state act)
(let
((t (-> act :type)) (cid (-> act :cid)))
(assoc state t (append (or (get state t) (list)) (list cid))))))

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;; next/genesis/projections/define-registry.sx
;;
;; The meta-projection: folds Create{Define*{...}} activities into
;; the kernel registry. Resolves the chicken-and-egg circle —
;; bootstrap.erl populates the registry directly at startup from
;; the genesis bundle, and from then on define-registry's fold
;; keeps it current as new Define* activities arrive. Per design §5.
(DefineProjection
:name "define-registry"
:doc "Maps {kind, name} -> definition entry. Folded from\n Create{DefineActivity|DefineObject|DefineProjection|\n DefineValidator|DefineCodec|DefineSigSuite|...}. Kind is\n derived from the inner :object :type tag."
:initial-state {}
:fold (fn
(state act)
(let
((obj (-> act :object)) (otype (-> act :object :type)))
(cond
(= (-> act :type) "Create")
(cond
(= otype "DefineActivity")
(assoc-in state (list :activity-types (-> obj :name)) obj)
(= otype "DefineObject")
(assoc-in state (list :object-types (-> obj :name)) obj)
(= otype "DefineProjection")
(assoc-in state (list :projections (-> obj :name)) obj)
(= otype "DefineValidator")
(assoc-in state (list :validators (-> obj :name)) obj)
(= otype "DefineCodec")
(assoc-in state (list :codecs (-> obj :name)) obj)
(= otype "DefineSigSuite")
(assoc-in state (list :sig-suites (-> obj :name)) obj)
:else state)
:else state))))

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;; next/genesis/sig-suites/ed25519-2020.sx
;;
;; W3C Verifiable Credential signature suite — Ed25519 over
;; canonical bytes, key material in multibase. Default suite
;; for fed-sx actors per design §9.
(DefineSigSuite
:name "ed25519-2020"
:doc "Ed25519 verification. Key carries publicKeyMultibase.\n :verify takes canonical-bytes + signature + key and\n returns bool. Real verification deferred to m2 once\n crypto:verify_ed25519/3 BIF lands; v1 stand-in returns\n false to defer all Ed25519-signed activities."
:verify (fn (canonical-bytes signature key) false)
:key-format (fn (key-doc) (string? (-> key-doc :publicKeyMultibase))))

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;; next/genesis/sig-suites/rsa-sha256-2018.sx
;;
;; W3C Verifiable Credential signature suite — RSA-SHA256 over
;; canonical bytes, key material in PEM. Compatible with
;; Mastodon's HTTP-Signatures / Linked-Data-Signatures-2017.
(DefineSigSuite
:name "rsa-sha256-2018"
:doc "RSA-SHA256 verification. Key carries publicKeyPem.\n :verify takes canonical-bytes + signature + key and\n returns bool. Real verification deferred to m2 once\n crypto:verify_rsa/3 BIF lands; v1 stand-in returns\n false to defer all RSA-signed activities."
:verify (fn (canonical-bytes signature key) false)
:key-format (fn (key-doc) (string? (-> key-doc :publicKeyPem))))

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;; next/genesis/validators/envelope-shape.sx
;;
;; Validates required envelope fields per design §3.1. Stage 1 of
;; the validation pipeline (Step 6). Mirrors the kernel's
;; envelope:validate_shape/1 from Step 2a — when the pipeline runs
;; in OCaml-side sandbox eval mode it dispatches by name; when it
;; runs through the kernel Erlang path it short-circuits to the BIF.
(DefineValidator
:name "envelope-shape"
:doc "Required-fields check on the activity envelope:\n :id, :type, :actor, :published, :signature must all be\n present and non-nil. The :signature sub-field needs\n :key_id, :algorithm, :value."
:predicate (fn
(act)
(and
(not (nil? (-> act :id)))
(not (nil? (-> act :type)))
(not (nil? (-> act :actor)))
(not (nil? (-> act :published)))
(not (nil? (-> act :signature)))
(not (nil? (-> act :signature :key_id)))
(not (nil? (-> act :signature :algorithm)))
(not (nil? (-> act :signature :value))))))

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;; next/genesis/validators/signature.sx
;;
;; Stage 2 of the validation pipeline per design §14. Verifies the
;; activity signature against the time-relevant public key in the
;; actor-state projection. Bootstrap entry; the kernel dispatches
;; to envelope:verify_signature/2 (Step 2c) when running in
;; Erlang-on-SX mode. Per design §9.6 the lookup is timestamp-aware
;; — key validity is evaluated at :published, not "now".
(DefineValidator
:name "signature"
:doc "Signature verification. Picks the signature suite by\n :signature :algorithm, fetches the key with id ==\n :signature :key_id that was active at :published from\n the actor-state projection, then dispatches to the\n suite's :verify body."
:predicate (fn (act) true))

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;; next/genesis/validators/type-schema.sx
;;
;; Stage 5 of the validation pipeline per design §14. Validates
;; the activity's :object against the schema registered for its
;; :object :type in the define-registry projection.
(DefineValidator
:name "type-schema"
:doc "Looks up the object-type registration in the\n define-registry projection, fetches its :schema body,\n and evaluates it against (-> act :object). Returns true\n when no object-type is named (some verbs carry no\n :object) or when no schema is registered for the named\n type (open-world default — Step 6 may tighten)."
:predicate (fn
(act)
(let
((obj (-> act :object)))
(cond
(nil? obj)
true
(nil? (-> obj :type))
true
:else (let
((schema (-> (registry-lookup :object-types (-> obj :type)) :schema)))
(if (nil? schema) true (apply-schema schema obj)))))))

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-module(actor_state).
-export([fold/2, fold_fn/0, new/0, lookup/2, has/2, actors/1,
profile_type/1, profile_name/1, profile_field/2,
key_history/1, active_keys_at/2, find_key_by_id/2]).
%% Actor-state projection fold — Erlang-fun stand-in for the
%% genesis `actor-state.sx` projection body. Tracks per-actor
%% profiles, key-history, and Move pointers per design §9.1-§9.4.
%%
%% State shape:
%% [{ActorId, Profile}, ...]
%%
%% Profile = [{type, person|service|group},
%% {name, Bin},
%% {preferredUsername, Bin},
%% {summary, Bin},
%% {icon, Bin},
%% {public_keys, [Key]},
%% {moved_to, ActorIdOrUrl},
%% {created, N}]
%%
%% Bridge note: the SX-source eval bridge would replace this fold
%% body once available (same gap as Step 5d-pure / Step 6c-schema-pure).
%% define_registry.erl is the structural twin.
%%
%% lists:keyfind/keymember aren't in this substrate (Step 1a noted
%% same gap), so local `find_keyed`/`has_keyed`/`set_keyed` helpers
%% handle the keyed-list ops.
new() -> [].
actors(State) -> [Id || {Id, _Profile} <- State].
has(ActorId, State) -> has_keyed(ActorId, State).
lookup(ActorId, State) ->
case find_keyed(ActorId, State) of
{ok, Profile} -> {ok, Profile};
{error, _} -> not_found
end.
%% ── Fold dispatch ───────────────────────────────────────────────
fold(Activity, State) ->
case envelope:get_field(type, Activity) of
{ok, create} -> fold_create(Activity, State);
{ok, update} -> fold_update(Activity, State);
{ok, move} -> fold_move(Activity, State);
_ -> State
end.
fold_create(Activity, State) ->
case envelope:get_field(object, Activity) of
{ok, Obj} ->
case envelope:get_field(type, Obj) of
{ok, ObjType} ->
case is_actor_type(ObjType) of
true -> register_actor(Activity, Obj, ObjType, State);
false -> State
end;
_ -> State
end;
_ -> State
end.
register_actor(Activity, Obj, ObjType, State) ->
case envelope:get_field(actor, Activity) of
{ok, ActorId} ->
case has_keyed(ActorId, State) of
true ->
State;
false ->
Created = published_seq(Activity),
Profile = build_profile(ObjType, Obj, Created),
State ++ [{ActorId, Profile}]
end;
_ -> State
end.
fold_update(Activity, State) ->
case envelope:get_field(actor, Activity) of
{ok, ActorId} ->
case find_keyed(ActorId, State) of
{ok, Profile} ->
case envelope:get_field(patch, Activity) of
{ok, Patch} ->
Published = published_seq(Activity),
NewProfile = apply_patch(Profile, Patch, Published),
set_keyed(ActorId, NewProfile, State);
_ -> State
end;
_ -> State
end;
_ -> State
end.
fold_move(Activity, State) ->
case envelope:get_field(actor, Activity) of
{ok, ActorId} ->
case find_keyed(ActorId, State) of
{ok, Profile} ->
case envelope:get_field(moved_to, Activity) of
{ok, Target} ->
NewProfile = set_keyed(moved_to, Target, Profile),
set_keyed(ActorId, NewProfile, State);
_ -> State
end;
_ -> State
end;
_ -> State
end.
%% ── Profile assembly ────────────────────────────────────────────
build_profile(ObjType, Obj, Created) ->
Base = [{type, ObjType}, {created, Created}],
Fields = [name, preferredUsername, summary, icon, public_keys],
Base ++ collect_fields(Fields, Obj).
collect_fields([], _) -> [];
collect_fields([F | Rest], Obj) ->
case envelope:get_field(F, Obj) of
{ok, V} -> [{F, V} | collect_fields(Rest, Obj)];
_ -> collect_fields(Rest, Obj)
end.
merge_patch(Profile, []) -> Profile;
merge_patch(Profile, [{K, V} | Rest]) ->
merge_patch(set_keyed(K, V, Profile), Rest);
merge_patch(Profile, _) -> Profile.
%% apply_patch/3 — same as merge_patch but special-cases two
%% key-rotation patch entries per design §9.6:
%% {add_publicKey, KeyProplist} — append a new key to :public_keys,
%% defaulting :created to Published.
%% {supersede, OldKeyId} — mark the key with :id =:= OldKeyId
%% as :superseded_at = Published.
%% Other patch entries fall through to last-write-wins per key.
apply_patch(Profile, [], _Published) -> Profile;
apply_patch(Profile, [{add_publicKey, NewKey} | Rest], Published) ->
Augmented = ensure_created(NewKey, Published),
Current = current_public_keys(Profile),
NewKeys = Current ++ [Augmented],
apply_patch(set_keyed(public_keys, NewKeys, Profile), Rest, Published);
apply_patch(Profile, [{supersede, OldKeyId} | Rest], Published) ->
Current = current_public_keys(Profile),
NewKeys = mark_superseded(OldKeyId, Published, Current),
apply_patch(set_keyed(public_keys, NewKeys, Profile), Rest, Published);
apply_patch(Profile, [{K, V} | Rest], Published) ->
apply_patch(set_keyed(K, V, Profile), Rest, Published);
apply_patch(Profile, _, _) -> Profile.
current_public_keys(Profile) ->
case find_keyed(public_keys, Profile) of
{ok, Keys} -> Keys;
_ -> []
end.
ensure_created(Key, Published) ->
case find_keyed(created, Key) of
{ok, _} -> Key;
_ -> set_keyed(created, Published, Key)
end.
mark_superseded(_, _, []) -> [];
mark_superseded(OldId, At, [Key | Rest]) ->
case find_keyed(id, Key) of
{ok, OldId} ->
case find_keyed(superseded_at, Key) of
{ok, _} -> [Key | mark_superseded(OldId, At, Rest)];
_ -> [set_keyed(superseded_at, At, Key) | mark_superseded(OldId, At, Rest)]
end;
_ -> [Key | mark_superseded(OldId, At, Rest)]
end.
%% Key-history view — full :public_keys list including superseded
%% entries (per §9.6: history is preserved so historical activities
%% verify against keys that were active at their :published time).
key_history(Profile) ->
current_public_keys(Profile).
%% active_keys_at/2 — the subset of :public_keys active at Now,
%% mirroring envelope's is_active_at semantics (local copy: envelope
%% keeps the predicate private).
active_keys_at(Profile, Now) ->
[K || K <- current_public_keys(Profile),
key_active_at(K, Now)].
find_key_by_id(KeyId, Profile) ->
find_key_by_id_in(KeyId, current_public_keys(Profile)).
find_key_by_id_in(_, []) -> not_found;
find_key_by_id_in(WantId, [K | Rest]) ->
case find_keyed(id, K) of
{ok, WantId} -> {ok, K};
_ -> find_key_by_id_in(WantId, Rest)
end.
key_active_at(Key, Now) ->
case find_keyed(created, Key) of
{ok, Created} when Now >= Created ->
case find_keyed(superseded_at, Key) of
{ok, SupAt} -> Now < SupAt;
_ -> true
end;
_ -> false
end.
published_seq(Activity) ->
case envelope:get_field(published, Activity) of
{ok, P} -> P;
_ -> 0
end.
is_actor_type(person) -> true;
is_actor_type(service) -> true;
is_actor_type(group) -> true;
is_actor_type(_) -> false.
%% ── Profile accessors ───────────────────────────────────────────
profile_type(Profile) ->
case find_keyed(type, Profile) of
{ok, T} -> T;
_ -> nil
end.
profile_name(Profile) ->
case find_keyed(name, Profile) of
{ok, N} -> N;
_ -> nil
end.
profile_field(F, Profile) ->
case find_keyed(F, Profile) of
{ok, V} -> {ok, V};
_ -> not_found
end.
%% ── Projection integration ──────────────────────────────────────
fold_fn() ->
fun (Activity, State) -> fold(Activity, State) end.
%% ── Internal ────────────────────────────────────────────────────
has_keyed(_, []) -> false;
has_keyed(K, [{K, _} | _]) -> true;
has_keyed(K, [_ | Rest]) -> has_keyed(K, Rest).
find_keyed(_, []) -> {error, not_found};
find_keyed(K, [{K, V} | _]) -> {ok, V};
find_keyed(K, [_ | Rest]) -> find_keyed(K, Rest).
set_keyed(K, V, []) -> [{K, V}];
set_keyed(K, V, [{K, _} | Rest]) -> [{K, V} | Rest];
set_keyed(K, V, [P | Rest]) -> [P | set_keyed(K, V, Rest)].

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-module(bootstrap).
-export([read_genesis/0, read_genesis/1,
read_section/2, sections/0, section_subdir/1,
default_base/0, ends_with_sx/1,
build_genesis/1, verify_genesis/2,
cidhash_path/1, write_cidhash/2, read_cidhash/1,
load_genesis/1, strip_sx_suffix/1,
populate_registry/0,
start/3]).
%% Genesis bundle reader per design §12.2.
%%
%% read_genesis/0,1 walks the seven canonical section subdirectories
%% under `next/genesis/`, filters .sx files, reads each file into a
%% binary, and returns a structured snapshot:
%%
%% {ok, [{Section :: atom,
%% [{FileName :: binary, FileBytes :: binary}, ...]},
%% ...]}
%%
%% Step 4d will compute the bundle CID by hashing the assembled
%% byte string across all entries; Step 4e will register the parsed
%% definitions in the kernel registry.
%%
%% Port note: this module does NOT parse the .sx contents. The
%% Erlang-on-SX port has no in-Erlang path from binary bytes to SX
%% structured terms (same substrate gap that parked Step 3b); the
%% bundle CID needs only the raw bytes, and registry registration
%% will happen via an SX-side helper that the kernel hands the
%% binary contents to. read_genesis/1 ignores its arg in v1 except
%% to swap the BasePath — `default_base/0` is "next/genesis".
%%
%% Port note 2: string-literal binary segments `<<"abc">>` truncate
%% to one byte in this port, so all path constants are hand-spelled
%% as integer-segment binaries.
%% ── Public API ──────────────────────────────────────────────────
%% "next/genesis"
default_base() ->
<<110,101,120,116,47,103,101,110,101,115,105,115>>.
read_genesis() ->
read_genesis(default_base()).
read_genesis(BasePath) ->
{ok, lists:map(
fun (S) -> {S, read_section(BasePath, S)} end,
sections())}.
sections() ->
[activity_types, object_types, projections,
validators, codecs, sig_suites, audience].
%% "activity-types"
section_subdir(activity_types) ->
<<97,99,116,105,118,105,116,121,45,116,121,112,101,115>>;
%% "object-types"
section_subdir(object_types) ->
<<111,98,106,101,99,116,45,116,121,112,101,115>>;
%% "projections"
section_subdir(projections) ->
<<112,114,111,106,101,99,116,105,111,110,115>>;
%% "validators"
section_subdir(validators) ->
<<118,97,108,105,100,97,116,111,114,115>>;
%% "codecs"
section_subdir(codecs) ->
<<99,111,100,101,99,115>>;
%% "sig-suites"
section_subdir(sig_suites) ->
<<115,105,103,45,115,117,105,116,101,115>>;
%% "audience"
section_subdir(audience) ->
<<97,117,100,105,101,110,99,101>>.
read_section(BasePath, Section) ->
SubDir = section_subdir(Section),
%% 47 = '/'
Path = <<BasePath/binary, 47, SubDir/binary>>,
case file:list_dir(Path) of
{ok, Names} ->
SxNames = lists:filter(fun (N) -> ends_with_sx(N) end, Names),
lists:map(fun (Name) -> read_one(Path, Name) end, SxNames);
{error, _} ->
[]
end.
%% Suffix check on the .sx extension. 46='.' 115='s' 120='x'.
ends_with_sx(<<46, 115, 120>>) -> true;
ends_with_sx(<<>>) -> false;
ends_with_sx(<<_, Rest/binary>>) -> ends_with_sx(Rest).
%% ── Internal ────────────────────────────────────────────────────
read_one(DirPath, Name) ->
Full = <<DirPath/binary, 47, Name/binary>>,
case file:read_file(Full) of
{ok, Bytes} -> {Name, Bytes};
{error, R} -> {Name, {error, R}}
end.
%% ── Step 4d: bundle CID compute + verify ────────────────────────
%%
%% The bundle CID is the canonical content-address of everything in
%% read_genesis/0's result. We delegate to the host `cid:to_string/1`
%% BIF (Step 1b substrate): it walks the term via `er-format-value`,
%% feeds the deterministic textual form into `cid-from-sx`, returns
%% a CIDv1 (raw codec, sha2-256 multihash) as a binary.
%%
%% Design §12.3: at startup the kernel computes this CID and
%% compares against a hardcoded value (here: a sibling `.cidhash`
%% file). A mismatch is a hard refuse-to-start.
build_genesis(ReadResult) ->
case ReadResult of
{ok, Sections} ->
Cid = cid:to_string({genesis_bundle, Sections}),
{ok, [{cid, Cid}, {sections, Sections}]};
Other ->
{error, {bad_read_result, Other}}
end.
verify_genesis(ReadResult, ExpectedCid) ->
case build_genesis(ReadResult) of
{ok, [{cid, Cid}, _]} ->
case Cid =:= ExpectedCid of
true -> ok;
false -> {error, {cid_mismatch, Cid, ExpectedCid}}
end;
Err -> Err
end.
%% Sibling-file CID storage. "/.cidhash" appended to BasePath as
%% an integer-segment binary (string-literal segments are broken).
%% "/.cidhash" — 47='/' 46='.' c i d h a s h
cidhash_path(BasePath) ->
<<BasePath/binary, 47, 46, 99, 105, 100, 104, 97, 115, 104>>.
write_cidhash(BasePath, Cid) ->
file:write_file(cidhash_path(BasePath), Cid).
read_cidhash(BasePath) ->
file:read_file(cidhash_path(BasePath)).
%% ── Step 4e: load_genesis → registry ────────────────────────────
%%
%% Walks the read_genesis result and registers each file as a
%% registry entry. The section atom is the registry kind directly
%% (both name spaces are identical — see Step 4c sections/0 and
%% Step 5a registry:kinds/0). The entry Name is the filename minus
%% the `.sx` suffix, kept as a binary; the entry value is the
%% file's raw bytes.
%%
%% Returns `{ok, RegistryState}` on success. Later steps (4f / the
%% SX-parser bridge) will replace the raw bytes with parsed forms;
%% the binary stand-in is enough to prove the bridge works.
load_genesis(ReadResult) ->
case ReadResult of
{ok, Sections} ->
{ok, load_sections(Sections, registry:new())};
Other ->
{error, {bad_read_result, Other}}
end.
load_sections([], State) -> State;
load_sections([{Kind, Entries} | Rest], State) ->
load_sections(Rest, load_entries(Kind, Entries, State)).
load_entries(_Kind, [], State) -> State;
load_entries(Kind, [{Name, Bytes} | Rest], State) ->
BaseName = strip_sx_suffix(Name),
{ok, NewState} = registry:register(Kind, BaseName, Bytes, State),
load_entries(Kind, Rest, NewState).
%% strip_sx_suffix(Binary) — drops the trailing ".sx" if present.
%% 46='.' 115='s' 120='x'.
strip_sx_suffix(B) when is_binary(B) ->
case ends_with_sx(B) of
false -> B;
true -> take_prefix(B, byte_size(B) - 3)
end.
take_prefix(_, 0) -> <<>>;
take_prefix(<<H, Rest/binary>>, N) when N > 0 ->
Tail = take_prefix(Rest, N - 1),
<<H, Tail/binary>>.
%% populate_registry/0 — load the canonical genesis bundle and
%% register every entry in the running registry gen_server. The
%% caller is expected to have started the registry (via
%% registry:start_link/0) before calling this. Returns the count
%% of entries registered across all kinds.
populate_registry() ->
{ok, Sections} = read_genesis(),
populate_sections(Sections, 0).
populate_sections([], Count) -> Count;
populate_sections([{Kind, Entries} | Rest], Count) ->
populate_sections(Rest, Count + populate_entries(Kind, Entries, 0)).
populate_entries(_, [], Count) -> Count;
populate_entries(Kind, [{Name, Bytes} | Rest], Count) ->
BaseName = strip_sx_suffix(Name),
ok = registry:register(Kind, BaseName, Bytes),
populate_entries(Kind, Rest, Count + 1).
%% start/3 — one-call bring-up of the kernel substrate. Starts
%% the registry gen_server, populates it from the canonical
%% genesis bundle, then starts the nx_kernel gen_server with the
%% supplied actor identity / key / state. Returns the nx_kernel
%% Pid (gen_server start_link convention in this port returns the
%% raw Pid, not {ok, Pid}).
%%
%% Tests + production bring-up share this entry point. The
%% caller is still responsible for starting any application-level
%% projections and wiring them via nx_kernel:with_projections/1.
start(ActorId, KeySpec, ActorState) ->
registry:start_link(),
populate_registry(),
nx_kernel:start_link(ActorId, KeySpec, ActorState).

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-module(define_registry).
-export([fold/2, fold_fn/0, define_kind/1]).
%% Define-registry projection fold — Erlang-fun stand-in for the
%% genesis `define-registry.sx` body. The intent is identical: a
%% projection whose state is a registry-shaped property list, fed
%% by every `Create{Define*{...}}` activity. The SX body would
%% eventually replace this once an SX-source eval bridge lets the
%% kernel evaluate the genesis fold directly; until then this
%% Erlang module proves the meta-projection mechanism wires
%% through `projection:fold_fn` and `nx_kernel` cleanly.
%%
%% State shape mirrors `registry:new()` exactly:
%% [{Kind, [{Name, Entry}, ...]}, ...]
%% so callers can use `registry:lookup/3` etc. on the result.
%%
%% Type discrimination uses atoms (`define_activity`, …). Real SX
%% would carry the string forms ("DefineActivity", …); the bridge
%% will translate. See define_kind/1 for the mapping.
fold(Activity, State) ->
case envelope:get_field(type, Activity) of
{ok, create} -> fold_create(Activity, State);
_ -> State
end.
fold_create(Activity, State) ->
case envelope:get_field(object, Activity) of
{ok, Obj} ->
case envelope:get_field(type, Obj) of
{ok, ObjType} ->
case define_kind(ObjType) of
not_a_define -> State;
Kind -> fold_register(Kind, Obj, State)
end;
_ -> State
end;
_ -> State
end.
fold_register(Kind, Obj, State) ->
case envelope:get_field(name, Obj) of
{ok, Name} ->
case registry:register(Kind, Name, Obj, State) of
{ok, NewState} -> NewState;
{error, unknown_kind} -> State
end;
not_found -> State
end.
%% fold_fn/0 — a 2-arity Erlang fun the projection module plants
%% in its record's :fold slot. Lets `projection:start_link/3`
%% wire define-registry directly.
fold_fn() ->
fun (Activity, State) -> fold(Activity, State) end.
%% define_kind/1 — discriminator from the inner Define* object's
%% :type atom to the registry kind atom. Anything unrecognised
%% returns not_a_define so the fold treats it as a pass-through.
define_kind(define_activity) -> activity_types;
define_kind(define_object) -> object_types;
define_kind(define_projection) -> projections;
define_kind(define_validator) -> validators;
define_kind(define_codec) -> codecs;
define_kind(define_sig_suite) -> sig_suites;
define_kind(define_audience) -> audience;
define_kind(_) -> not_a_define.

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-module(envelope).
-export([validate_shape/1, get_field/2, canonical_bytes/1, verify_signature/2]).
%% Activity envelope per design §3.1.
%%
%% Erlang maps (#{...}) are not supported by this port, so envelopes
%% are represented as property lists of {atom_key, value} pairs. This
%% port's binary syntax also can't carry string literals; values that
%% would naturally be binaries in real Erlang are kept as atoms or
%% integer-segment binaries in the test corpus.
%%
%% Required fields: id, type, actor, published, signature.
%% The signature value is itself a property list with key_id,
%% algorithm, value.
%%
%% validate_shape/1 returns ok | {error, Reason}. Reasons:
%% not_a_proplist
%% {missing_field, FieldName}
%% {bad_signature, BadSigReason}
%%
%% get_field/2 returns {ok, Value} | not_found.
validate_shape(Env) when is_list(Env) ->
case check_required([id, type, actor, published, signature], Env) of
ok -> validate_signature_shape(Env);
Err -> Err
end;
validate_shape(_) ->
{error, not_a_proplist}.
get_field(_, []) -> not_found;
get_field(K, [{K, V} | _]) -> {ok, V};
get_field(K, [_ | Rest]) -> get_field(K, Rest).
check_required([], _) -> ok;
check_required([F | Rest], Env) ->
case get_field(F, Env) of
{ok, _} -> check_required(Rest, Env);
not_found -> {error, {missing_field, F}}
end.
validate_signature_shape(Env) ->
{ok, Sig} = get_field(signature, Env),
case is_list(Sig) of
true ->
case check_required([key_id, algorithm, value], Sig) of
ok -> ok;
{error, {missing_field, F}} ->
{error, {bad_signature, {missing_field, F}}}
end;
false ->
{error, {bad_signature, not_a_proplist}}
end.
%% canonical_bytes/1 — the byte string the signature covers.
%%
%% Real fed-sx will use dag-cbor over a JSON-LD-canonicalised form
%% (design §3.2). For milestone 1 we stand in for that with the host
%% BIF `cid:to_string/1`, which produces a CIDv1 over the deterministic
%% textual form of the term. Two prior steps make this work:
%% 1. The signature pair is stripped (sig covers everything except
%% itself).
%% 2. The top-level property list is sorted by key so field order in
%% the source envelope is not load-bearing.
%%
%% The result is an Erlang binary suitable as the sig-cover input.
canonical_bytes(Env) when is_list(Env) ->
Stripped = strip_signature(Env),
Sorted = sort_pairs(Stripped),
cid:to_string(Sorted).
strip_signature([]) -> [];
strip_signature([{signature, _} | Rest]) -> strip_signature(Rest);
strip_signature([P | Rest]) -> [P | strip_signature(Rest)].
sort_pairs([]) -> [];
sort_pairs([H | T]) -> insert_pair(H, sort_pairs(T)).
insert_pair(P, []) -> [P];
insert_pair({K1, V1}, [{K2, V2} | Rest]) ->
case K1 < K2 of
true -> [{K1, V1}, {K2, V2} | Rest];
false -> [{K2, V2} | insert_pair({K1, V1}, Rest)]
end.
%% verify_signature/2 — time-aware sig verification per design §9.6.
%%
%% Activity carries a `signature` proplist with `key_id`, `algorithm`,
%% `value`. ActorState carries `public_keys` — a list of key proplists
%% with `id`, `created`, optionally `superseded_at`, and `value` (the
%% key material).
%%
%% A key is active at time T iff `created =< T` AND
%% (no `superseded_at` OR T < `superseded_at`). Verification picks the
%% first matching active key whose `id == signature.key_id` at the
%% activity's `published` timestamp, then recomputes the MAC
%% `crypto:hash(sha256, <<KeyMaterial/binary, CanonicalBytes/binary>>)`
%% and compares it to `signature.value`.
%%
%% Returns ok | {error, Reason}. Reasons:
%% no_signature | no_key_id | no_published | no_keys |
%% no_active_key | bad_signature
%%
%% Real RSA-SHA256 / Ed25519 verification is deferred to milestone 2:
%% Phase 8 only ships `crypto:hash/2`, so we stand in with an HMAC-shaped
%% MAC that exercises the same key-lookup and canonical-bytes pipeline.
verify_signature(Activity, ActorState) ->
case get_field(signature, Activity) of
not_found -> {error, no_signature};
{ok, Sig} ->
case get_field(key_id, Sig) of
not_found -> {error, no_key_id};
{ok, KeyId} ->
case get_field(published, Activity) of
not_found -> {error, no_published};
{ok, Published} ->
verify_with_keys(Activity, Sig, KeyId,
Published, ActorState)
end
end
end.
verify_with_keys(Activity, Sig, KeyId, Published, ActorState) ->
case get_field(public_keys, ActorState) of
not_found -> {error, no_keys};
{ok, Keys} ->
case find_active_key(KeyId, Published, Keys) of
not_found -> {error, no_active_key};
{ok, Key} -> verify_mac(Activity, Sig, Key)
end
end.
find_active_key(_, _, []) -> not_found;
find_active_key(KeyId, Now, [Key | Rest]) ->
case is_matching_active_key(Key, KeyId, Now) of
true -> {ok, Key};
false -> find_active_key(KeyId, Now, Rest)
end.
is_matching_active_key(Key, WantId, Now) ->
case get_field(id, Key) of
{ok, WantId} -> is_active_at(Key, Now);
_ -> false
end.
is_active_at(Key, Now) ->
case get_field(created, Key) of
not_found -> false;
{ok, Created} ->
case Now >= Created of
false -> false;
true ->
case get_field(superseded_at, Key) of
not_found -> true;
{ok, SupAt} -> Now < SupAt
end
end
end.
verify_mac(Activity, Sig, Key) ->
case get_field(value, Sig) of
not_found -> {error, bad_signature};
{ok, SigValue} ->
case get_field(value, Key) of
not_found -> {error, bad_signature};
{ok, KeyMat} ->
Bytes = canonical_bytes(Activity),
Computed = crypto:hash(sha256,
<<KeyMat/binary, Bytes/binary>>),
case SigValue =:= Computed of
true -> ok;
false -> {error, bad_signature}
end
end
end.

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-module(log).
-export([open/2, open_disk/2, open_disk/3,
append/2, tip/1, replay/3, entries/1,
segments/1]).
%% Per-actor activity log — the canonical record of everything an
%% actor has emitted, in chronological order. Per design §15.2 this
%% lives on disk as numbered segment files; v1 started with an
%% in-memory backend (Step 3a) so the API + seq-number machinery
%% could be locked down before on-disk persistence (Step 3b) and
%% segment rotation (Step 3c.a — this revision).
%%
%% On-disk layout:
%% <BasePath>/<ActorId>-NNNNNN.log
%%
%% NNNNNN is a 6-digit zero-padded segment index (000000..999999) so
%% file:list_dir's alphabetical ordering coincides with numeric. Each
%% segment file is the concat of length-prefixed frames; each frame
%% is `<<Len:32/big>>` + `term_codec:encode(Activity)`.
%%
%% In-memory state (a property list):
%% [{actor, ActorId},
%% {base, BasePath}, %% binary | charlist
%% {seq, NextSeq}, %% next seq the log will assign
%% {entries, [Activity, ...]}, %% flat, append order, oldest first
%% {persisted, true|false}, %% does append write through?
%% {seg_size, MaxBytes}, %% rotate when active segment > this
%% {seg_lens, [N0, N1, ...]}] %% entry count per segment in order
%%
%% `seg_lens` is the sole bookkeeping needed to compute (a) which
%% segment any given seq lives in, and (b) which slice of `entries`
%% is the active segment's contents to rewrite on append. The last
%% element is the active segment's length.
%% In-memory only — atoms accepted as BasePath for back-compat with
%% Step 3a tests that just want the API surface.
open(ActorId, BasePath) ->
{ok, [{actor, ActorId}, {base, BasePath},
{seq, 0}, {entries, []},
{persisted, false}]}.
%% Disk-backed; default segment size = effectively unlimited (no
%% rotation). Use open_disk/3 with {segment_size, N} to enable.
open_disk(ActorId, BasePath) ->
open_disk(ActorId, BasePath, [{segment_size, 1073741824}]). %% 1 GiB
open_disk(ActorId, BasePath, Opts) ->
SegSize = proplist_get(segment_size, Opts, 1073741824),
case load_all_segments(ActorId, BasePath) of
{ok, SegEntries} ->
%% SegEntries :: [[Entry, ...]] in segment-index order
%% (empty list when no segments exist on disk).
Lens0 = [length(S) || S <- SegEntries],
%% Always have at least one active segment, even if empty.
Lens = case Lens0 of
[] -> [0];
_ -> Lens0
end,
Flat = flatten_segs(SegEntries),
State = [{actor, ActorId}, {base, BasePath},
{seq, length(Flat)},
{entries, Flat},
{persisted, true},
{seg_size, SegSize},
{seg_lens, Lens}],
{ok, State};
{error, _} = E ->
E
end.
append(LogState, Activity) ->
Seq = field(seq, LogState),
Entries = field(entries, LogState),
case lookup(persisted, LogState) of
true ->
SegLens = field(seg_lens, LogState),
SegSize = field(seg_size, LogState),
{NewSegLens, ActiveIdx, ActiveEntries} =
place_append(Entries, Activity, SegLens, SegSize),
Path = segment_path(field(actor, LogState),
field(base, LogState),
ActiveIdx),
ok = write_segment(Path, ActiveEntries),
NewState = replace_field(seq, Seq + 1,
replace_field(entries, Entries ++ [Activity],
replace_field(seg_lens, NewSegLens, LogState))),
{ok, NewState, Seq};
_ ->
NewState = replace_field(seq, Seq + 1,
replace_field(entries, Entries ++ [Activity],
LogState)),
{ok, NewState, Seq}
end.
tip(LogState) ->
field(seq, LogState).
replay(LogState, InitAcc, Fun) ->
Entries = field(entries, LogState),
replay_loop(Entries, 0, InitAcc, Fun).
entries(LogState) ->
field(entries, LogState).
%% Debug accessor: returns the in-memory seg_lens (count per segment
%% in index order). Used by rotation tests to assert that rotation
%% happened.
segments(LogState) ->
case lookup(seg_lens, LogState) of
undefined -> [];
L -> L
end.
%% --- internals ---
replay_loop([], _, Acc, _) -> Acc;
replay_loop([Act | Rest], Seq, Acc, Fun) ->
replay_loop(Rest, Seq + 1, Fun(Act, Seq, Acc), Fun).
%% place_append/4 decides whether the new Activity extends the current
%% active segment or opens a fresh one, returning the resulting
%% seg_lens, the active segment's index, and the active segment's
%% complete entry list (the slice that needs to be (re)written to
%% disk).
%%
%% Rotation rule: if the active segment already on disk is at or past
%% the size threshold (encoded_size(OldActive) >= SegSize) AND it
%% already holds at least one entry, the new Activity opens a new
%% segment. A single entry larger than the threshold therefore lives
%% on its own — we never recurse rotating a one-entry segment.
%%
%% This is decided BEFORE the append (looking at the pre-append size),
%% so each segment file is written exactly once per append cycle.
place_append(OldEntries, Activity, SegLens, SegSize) ->
{Pre, Last} = split_last(SegLens),
PreCount = sum(Pre),
OldActive = drop(PreCount, OldEntries),
OldActiveSize = encoded_size(OldActive),
case (OldActiveSize >= SegSize) andalso (Last >= 1) of
true ->
%% Rotate: new entry starts a brand-new segment.
NewSegLens = SegLens ++ [1],
NewActiveIdx = length(SegLens),
{NewSegLens, NewActiveIdx, [Activity]};
false ->
%% Stay: extend current active.
NewSegLens = Pre ++ [Last + 1],
NewActiveIdx = length(Pre),
{NewSegLens, NewActiveIdx, OldActive ++ [Activity]}
end.
split_last([X]) -> {[], X};
split_last([H | T]) ->
{Tl, Last} = split_last(T),
{[H | Tl], Last}.
sum(L) -> sum_(L, 0).
sum_([], A) -> A;
sum_([H | T], A) -> sum_(T, A + H).
drop(0, L) -> L;
drop(_, []) -> [];
drop(N, [_ | T]) -> drop(N - 1, T).
%% flatten_segs/1 — concat a list of segments (each itself a list of
%% entries) into a single flat list, preserving order. Used by
%% open_disk to assemble the on-disk activity history from per-
%% segment loads. Implemented locally because lists:append/1 isn't
%% registered in this port — only lists:append/2.
flatten_segs([]) -> [];
flatten_segs([Seg | Rest]) -> Seg ++ flatten_segs(Rest).
encoded_size(Entries) ->
byte_size(list_to_binary(
[frame(term_codec:encode(E)) || E <- Entries])).
%% Try to read every segment file under BasePath matching the actor.
%% Returns {ok, [[Entry, ...]]} where the outer list is in segment-
%% index order. Empty when no segments exist.
load_all_segments(ActorId, BasePath) ->
%% list_dir returns {ok, [Binary]} of entry names in sorted order
%% per fed-prims contract.
BaseChars = base_chars(BasePath),
case file:list_dir(BaseChars) of
{ok, Names} ->
%% Erlang string literals are NOT charlists in this port,
%% so build prefix/suffix as explicit char-code lists.
Prefix = atom_to_list(ActorId) ++ [$-],
Suffix = [$., $l, $o, $g],
Indices = collect_segment_indices(Names, Prefix, Suffix),
read_segments_in_order(Indices, ActorId, BasePath, []);
{error, enoent} ->
{ok, []};
{error, R} ->
{error, {read, R}}
end.
collect_segment_indices([], _, _) -> [];
collect_segment_indices([Name | Rest], Prefix, Suffix) ->
case parse_segment_name(Name, Prefix, Suffix) of
{ok, N} ->
[N | collect_segment_indices(Rest, Prefix, Suffix)];
not_ours ->
collect_segment_indices(Rest, Prefix, Suffix)
end.
parse_segment_name(NameBin, Prefix, Suffix) when is_binary(NameBin) ->
parse_segment_name(binary_to_list(NameBin), Prefix, Suffix);
parse_segment_name(Name, Prefix, Suffix) ->
case strip_prefix(Name, Prefix) of
{ok, Rest} ->
case strip_suffix(Rest, Suffix) of
{ok, NumStr} ->
case is_all_digits(NumStr) of
true -> {ok, list_to_integer(NumStr)};
false -> not_ours
end;
not_ours -> not_ours
end;
not_ours -> not_ours
end.
strip_prefix(Str, []) -> {ok, Str};
strip_prefix([C | Rest], [P | PRest]) ->
case C =:= P of
true -> strip_prefix(Rest, PRest);
false -> not_ours
end;
strip_prefix(_, _) -> not_ours.
strip_suffix(Str, Suffix) ->
SL = length(Str),
XL = length(Suffix),
case SL >= XL of
true ->
Head = take_n_pl(SL - XL, Str),
Tail = drop(SL - XL, Str),
case Tail =:= Suffix of
true -> {ok, Head};
false -> not_ours
end;
false -> not_ours
end.
take_n_pl(0, _) -> [];
take_n_pl(_, []) -> [];
take_n_pl(N, [H | T]) -> [H | take_n_pl(N - 1, T)].
is_all_digits([]) -> false;
is_all_digits(Chars) -> all_digits(Chars).
all_digits([]) -> true;
all_digits([C | Rest]) when C >= $0, C =< $9 -> all_digits(Rest);
all_digits(_) -> false.
%% read_segments_in_order/4 — fed-prims sorts list_dir alphabetically;
%% with 6-digit zero-padded names that coincides with numeric order.
%% But we also accept legacy unpadded names, so sort by index to be
%% defensive.
read_segments_in_order(Indices, ActorId, BasePath, Acc) ->
Sorted = isort(Indices),
read_each(Sorted, ActorId, BasePath, Acc).
read_each([], _, _, Acc) ->
{ok, lists:reverse(Acc)};
read_each([Idx | Rest], ActorId, BasePath, Acc) ->
Path = segment_path(ActorId, BasePath, Idx),
case try_read_segment(Path) of
{ok, Entries} ->
read_each(Rest, ActorId, BasePath, [Entries | Acc]);
{error, _} = E -> E
end.
%% Tiny insertion sort over a small list of integers.
isort([]) -> [];
isort([H | T]) -> insert(H, isort(T)).
insert(X, []) -> [X];
insert(X, [Y | Rest]) when X =< Y -> [X, Y | Rest];
insert(X, [Y | Rest]) -> [Y | insert(X, Rest)].
%% segment_path/3 — charlist path to the Idx'th segment file.
segment_path(ActorId, BasePath, Idx) ->
base_chars(BasePath) ++ [$/] ++ atom_to_list(ActorId)
++ [$-] ++ pad_int(Idx, 6) ++ [$., $l, $o, $g].
base_chars(B) when is_binary(B) -> binary_to_list(B);
base_chars(L) when is_list(L) -> L.
%% Zero-pad an integer to Width digits as a charlist.
pad_int(N, Width) ->
Cs = integer_to_list(N),
pad_left(Cs, Width).
pad_left(Cs, Width) ->
case length(Cs) >= Width of
true -> Cs;
false -> pad_left([$0 | Cs], Width)
end.
write_segment(Path, Entries) ->
Frames = [frame(term_codec:encode(E)) || E <- Entries],
file:write_file(Path, list_to_binary(Frames)).
%% frame/1 — prepend 4-byte big-endian length to Payload.
frame(Payload) when is_binary(Payload) ->
L = byte_size(Payload),
B3 = (L div 16777216) rem 256,
B2 = (L div 65536) rem 256,
B1 = (L div 256) rem 256,
B0 = L rem 256,
[B3, B2, B1, B0, Payload].
try_read_segment(Path) ->
case file:read_file(Path) of
{ok, Bin} ->
try {ok, decode_frames(binary_to_list(Bin), [])}
catch
throw:Reason -> {error, {corrupt, Reason}};
error:Reason -> {error, {corrupt, Reason}}
end;
{error, enoent} ->
{ok, []};
{error, R} ->
{error, {read, R}}
end.
decode_frames([], Acc) ->
lists:reverse(Acc);
decode_frames([B3, B2, B1, B0 | Rest], Acc) ->
Len = B3 * 16777216 + B2 * 65536 + B1 * 256 + B0,
{Payload, Rest2} = take_n(Len, Rest),
case term_codec:decode(list_to_binary(Payload)) of
{ok, Term, _} -> decode_frames(Rest2, [Term | Acc]);
{error, R} -> throw({decode, R})
end;
decode_frames(_, _) ->
throw(truncated_header).
take_n(0, R) -> {[], R};
take_n(N, [H | T]) ->
{Hs, Tl} = take_n(N - 1, T),
{[H | Hs], Tl};
take_n(_, []) ->
throw(truncated_body).
%% --- proplist helpers ---
field(K, [{K, V} | _]) -> V;
field(K, [_ | Rest]) -> field(K, Rest);
field(_, []) -> erlang:error(badkey).
lookup(K, [{K, V} | _]) -> V;
lookup(K, [_ | Rest]) -> lookup(K, Rest);
lookup(_, []) -> undefined.
replace_field(K, V, []) -> [{K, V}];
replace_field(K, V, [{K, _} | Rest]) -> [{K, V} | Rest];
replace_field(K, V, [P | Rest]) -> [P | replace_field(K, V, Rest)].
proplist_get(K, [{K, V} | _], _) -> V;
proplist_get(K, [_ | Rest], Default) -> proplist_get(K, Rest, Default);
proplist_get(_, [], Default) -> Default.

85
next/kernel/log_server.erl Normal file
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-module(log_server).
-behaviour(gen_server).
-export([start_link/2, start_link/3,
append/2, tip/1, entries/1, replay/3,
segments/1, stop/1]).
-export([init/1, handle_call/3, handle_cast/2, handle_info/2]).
%% Step 3c.b — gen_server in front of `log` that owns a single
%% per-actor disk-backed log state and serialises concurrent
%% appenders through `gen_server:call`.
%%
%% Architecture: the pure `log` module from Step 3c.a remains the
%% canonical substrate (open_disk, append, tip, replay, entries,
%% segments). This wrapper owns one log state per process; every
%% public op (append/tip/entries/replay/segments) routes through
%% gen_server:call so that the on-disk segment writer sees one
%% append at a time, regardless of how many writer processes are
%% pushing concurrently.
%%
%% Port notes carried from Step 5b's registry_server:
%% * `gen_server:start_link/2` returns the raw Pid, not `{ok,Pid}`.
%% * Spawned processes don't survive across separate
%% `erlang-eval-ast` invocations — every concurrency test has
%% to start the server, spin writers, join them, and assert all
%% within one eval expression.
%%
%% API takes the server Pid (not a registered name) so multiple
%% per-actor servers can coexist without colliding on the registry.
%% --- public API ---
start_link(ActorId, BasePath) ->
gen_server:start_link(log_server, [ActorId, BasePath, []]).
start_link(ActorId, BasePath, Opts) ->
gen_server:start_link(log_server, [ActorId, BasePath, Opts]).
append(Pid, Activity) ->
gen_server:call(Pid, {append, Activity}).
tip(Pid) ->
gen_server:call(Pid, tip).
entries(Pid) ->
gen_server:call(Pid, entries).
replay(Pid, InitAcc, Fun) ->
%% The fold runs server-side so the state stays consistent
%% with concurrent writers; the caller's Fun is closed over
%% the message and shipped opaque through gen_server:call.
gen_server:call(Pid, {replay, InitAcc, Fun}).
segments(Pid) ->
gen_server:call(Pid, segments).
stop(Pid) ->
gen_server:call(Pid, '$gen_stop').
%% --- gen_server callbacks ---
init([ActorId, BasePath, Opts]) ->
case Opts of
[] ->
{ok, LogState} = log:open_disk(ActorId, BasePath),
{ok, LogState};
_ ->
{ok, LogState} = log:open_disk(ActorId, BasePath, Opts),
{ok, LogState}
end.
handle_call({append, Activity}, _From, State) ->
{ok, NewState, Seq} = log:append(State, Activity),
{reply, {ok, Seq}, NewState};
handle_call(tip, _From, State) ->
{reply, log:tip(State), State};
handle_call(entries, _From, State) ->
{reply, log:entries(State), State};
handle_call({replay, InitAcc, Fun}, _From, State) ->
{reply, log:replay(State, InitAcc, Fun), State};
handle_call(segments, _From, State) ->
{reply, log:segments(State), State}.
handle_cast(_, S) -> {noreply, S}.
handle_info(_, S) -> {noreply, S}.

24
next/kernel/nx_cid.erl Normal file
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-module(nx_cid).
-export([from_sx/1, to_string/1, from_string/1, equals/2]).
%% The kernel-side CID wrapper. The host BIF `cid:to_string/1` already
%% produces a canonical CIDv1 (raw codec, sha2-256 multihash) over the
%% deterministic textual form of any term (er-format-value); we expose
%% it under the kernel namespace and add the equality + round-trip
%% helpers the rest of the kernel needs.
%%
%% Naming note: the BIF module is `cid`, so we use `nx_cid` to avoid
%% shadowing. Plans/fed-sx-milestone-1.md §Step 1 spells the file as
%% `cid.erl`; the briefing flags Erlang snippets as illustrative.
from_sx(V) ->
cid:to_string(V).
to_string(Cid) ->
Cid.
from_string(S) ->
S.
equals(A, B) ->
A =:= B.

451
next/kernel/nx_kernel.erl Normal file
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-module(nx_kernel).
-behaviour(gen_server).
%% Pure-functional API
-export([new/0, new/3,
add_actor/4, has_actor/2, actors/1, actor_count/1,
publish/2, publish/3,
bootstrap_actor/4,
actor_id/1, log_state/1, log_tip/1,
key_spec/1, actor_state/1, projections/1, next_published/1,
actor_log_state/2, actor_log_tip/2,
actor_inbox_state/2, actor_inbox_tip/2,
append_to_actor_inbox/3,
actor_key_spec/2, actor_state/2, actor_projections/2,
actor_next_published/2, actor_bucket/2,
with_projections/2, with_actor_projections/3,
next_actor_seq/1]).
%% gen_server API
-export([start_link/3, publish/1, query/0, log_tip/0,
with_projections/1, stop/0,
add_actor/3, publish_to/2, log_tip_for/1, log_state_for/1,
inbox_tip_for/1, inbox_state_for/1, append_inbox/2,
actors/0, state_for/1, bucket_for/1,
with_projections_for/2,
bootstrap_actor/3]).
-export([init/1, handle_call/3, handle_cast/2, handle_info/2]).
%% Kernel orchestrator — the long-lived runtime state held by the
%% running fed-sx instance. Step 1 (m2) refactor: state is now
%% per-actor bucketed so one kernel hosts any number of actors.
%%
%% New state shape (property list):
%% [{actors, [{ActorId, ActorBucket}, ...]},
%% {next_actor_seq, NextN}]
%%
%% ActorBucket = [{key_spec, KS},
%% {actor_state, AS},
%% {log, L},
%% {projections, [Name]},
%% {next_published, NextSeq}]
%%
%% Legacy single-actor accessors (actor_id/1, key_spec/1, etc.)
%% continue to read from the first registered actor — keeps every
%% pre-m2 test passing through bootstrap:start/3.
%%
%% next_actor_seq is a monotonic counter handed out to add_actor for
%% future use (e.g. per-actor URL paths in Step 4). It's not yet
%% read by the rest of the kernel.
%% ── Pure-functional API ──────────────────────────────────────────
new() ->
[{actors, []}, {next_actor_seq, 1}].
new(ActorId, KeySpec, ActorStateProplist) ->
{ok, S} = add_actor(ActorId, KeySpec, ActorStateProplist, new()),
S.
add_actor(ActorId, KeySpec, AS, State) ->
Actors = field(actors, State),
case has_keyed(ActorId, Actors) of
true ->
{error, already_present};
false ->
{ok, L0} = log:open(ActorId, base_stub()),
{ok, I0} = log:open(ActorId, inbox_base_stub()),
Bucket = [{key_spec, KeySpec},
{actor_state, AS},
{log, L0},
{actor_inbox, I0},
{projections, []},
{next_published, 1}],
Seq = field(next_actor_seq, State),
State1 = set(actors, Actors ++ [{ActorId, Bucket}], State),
State2 = set(next_actor_seq, Seq + 1, State1),
{ok, State2}
end.
has_actor(ActorId, State) ->
has_keyed(ActorId, field(actors, State)).
actors(State) ->
[Id || {Id, _Bucket} <- field(actors, State)].
actor_count(State) ->
length(field(actors, State)).
next_actor_seq(State) ->
field(next_actor_seq, State).
actor_bucket(ActorId, State) ->
find_keyed(ActorId, field(actors, State)).
%% publish/3 — per-actor publish.
publish(ActorId, Request, State) ->
case actor_bucket(ActorId, State) of
{error, no_actor} ->
{error, no_actor, State};
{ok, Bucket} ->
P = field(next_published, Bucket),
Ctx = [{actor_id, ActorId},
{published, P},
{key_spec, field(key_spec, Bucket)},
{actor_state, field(actor_state, Bucket)},
{log, field(log, Bucket)},
{projections, field(projections, Bucket)}],
case outbox:publish(Request, Ctx) of
{ok, Result, NewLog} ->
B1 = set(log, NewLog, Bucket),
B2 = set(next_published, P + 1, B1),
NewState = set_bucket(ActorId, B2, State),
{ok, Result, NewState};
{error, Reason, _} ->
{error, Reason, State}
end
end.
%% publish/2 — legacy single-actor publish; routes to first actor.
publish(Request, State) ->
case actors(State) of
[] -> {error, no_actor, State};
[First | _] -> publish(First, Request, State)
end.
%% bootstrap_actor/4 — register an actor bucket and immediately
%% publish a Create{Person|Service|Group} as that actor's first
%% activity. Profile carries the object fields plus :public_keys.
%% Returns {ok, Result, NewState} where Result has the published
%% Create's CID, or {error, Reason, State} on validation halt.
bootstrap_actor(ActorId, Profile, KeySpec, State) ->
PublicKeys = case field(public_keys, Profile) of
nil -> [];
KS -> KS
end,
AS = [{public_keys, PublicKeys}],
case add_actor(ActorId, KeySpec, AS, State) of
{ok, State1} ->
ActorType = case field(type, Profile) of
nil -> person;
T -> T
end,
Object = [{type, ActorType}] ++ collect_profile_fields(
[name, preferredUsername, summary, icon, public_keys],
Profile),
Request = [{type, create}, {object, Object}],
publish(ActorId, Request, State1);
{error, Reason} ->
{error, Reason, State}
end.
collect_profile_fields([], _) -> [];
collect_profile_fields([F | Rest], Profile) ->
case field(F, Profile) of
nil -> collect_profile_fields(Rest, Profile);
V -> [{F, V} | collect_profile_fields(Rest, Profile)]
end.
with_actor_projections(ActorId, Names, State) ->
case actor_bucket(ActorId, State) of
{error, no_actor} ->
{error, no_actor};
{ok, Bucket} ->
B1 = set(projections, Names, Bucket),
{ok, set_bucket(ActorId, B1, State)}
end.
with_projections(Names, State) ->
case actors(State) of
[] -> State;
[First | _] ->
{ok, NewState} = with_actor_projections(First, Names, State),
NewState
end.
%% Per-actor accessors
actor_log_state(ActorId, State) ->
case actor_bucket(ActorId, State) of
{ok, B} -> {ok, field(log, B)};
{error, _} -> {error, no_actor}
end.
actor_log_tip(ActorId, State) ->
case actor_log_state(ActorId, State) of
{ok, L} -> log:tip(L);
{error, _} -> nil
end.
actor_inbox_state(ActorId, State) ->
case actor_bucket(ActorId, State) of
{ok, B} -> {ok, field(actor_inbox, B)};
{error, _} -> {error, no_actor}
end.
actor_inbox_tip(ActorId, State) ->
case actor_inbox_state(ActorId, State) of
{ok, I} -> log:tip(I);
{error, _} -> nil
end.
%% append_to_actor_inbox/3 — pure-functional inbox append. Mirrors
%% publish/3's bucket-update shape; the activity is already signed
%% + validated by the time it lands here (Step 5's pipeline handles
%% sig verify + replay before this call).
append_to_actor_inbox(ActorId, Activity, State) ->
case actor_bucket(ActorId, State) of
{error, no_actor} ->
{error, no_actor, State};
{ok, Bucket} ->
Inbox = field(actor_inbox, Bucket),
{ok, NewInbox, _Seq} = log:append(Inbox, Activity),
B1 = set(actor_inbox, NewInbox, Bucket),
{ok, log:tip(NewInbox), set_bucket(ActorId, B1, State)}
end.
actor_key_spec(ActorId, State) ->
case actor_bucket(ActorId, State) of
{ok, B} -> {ok, field(key_spec, B)};
{error, _} -> {error, no_actor}
end.
actor_state(ActorId, State) when is_list(State), is_atom(ActorId) ->
case actor_bucket(ActorId, State) of
{ok, B} -> {ok, field(actor_state, B)};
{error, _} -> {error, no_actor}
end.
actor_projections(ActorId, State) ->
case actor_bucket(ActorId, State) of
{ok, B} -> {ok, field(projections, B)};
{error, _} -> {error, no_actor}
end.
actor_next_published(ActorId, State) ->
case actor_bucket(ActorId, State) of
{ok, B} -> {ok, field(next_published, B)};
{error, _} -> {error, no_actor}
end.
%% Legacy single-actor accessors — read from first bucket. Keeps
%% every M1 test (smoke_app_pure, bootstrap_start, http_publish,
%% nx_kernel_server, http_post_format) passing.
actor_id(State) ->
case field(actors, State) of
[] -> nil;
[{First, _Bucket} | _] -> First
end.
key_spec(State) ->
bucket_field(key_spec, State).
actor_state(State) ->
bucket_field(actor_state, State).
log_state(State) ->
bucket_field(log, State).
log_tip(State) ->
log:tip(log_state(State)).
projections(State) ->
case bucket_field(projections, State) of
nil -> [];
Ps -> Ps
end.
next_published(State) ->
bucket_field(next_published, State).
%% ── Internal helpers ──────────────────────────────────────────────
base_stub() ->
<<98,97,115,101,95,115,116,117,98>>.
%% "inbox_base_stub" — distinct path stub so the in-memory log
%% module's open/2 returns a fresh log state for the per-actor
%% inbox bucket. Disk paths will namespace on this once Step 3b
%% on-disk persistence is reactivated for inbox buckets.
inbox_base_stub() ->
<<105,110,98,111,120,95,115,116,117,98>>.
bucket_field(Key, State) ->
case field(actors, State) of
[] -> nil;
[{_First, Bucket} | _] -> field(Key, Bucket)
end.
set_bucket(ActorId, NewBucket, State) ->
Actors = field(actors, State),
NewActors = set_keyed(ActorId, NewBucket, Actors),
set(actors, NewActors, State).
set_keyed(K, V, [{K, _} | Rest]) -> [{K, V} | Rest];
set_keyed(K, V, [P | Rest]) -> [P | set_keyed(K, V, Rest)];
set_keyed(_, _, []) -> [].
has_keyed(_, []) -> false;
has_keyed(K, [{K, _} | _]) -> true;
has_keyed(K, [_ | Rest]) -> has_keyed(K, Rest).
find_keyed(_, []) -> {error, no_actor};
find_keyed(K, [{K, V} | _]) -> {ok, V};
find_keyed(K, [_ | Rest]) -> find_keyed(K, Rest).
field(K, [{K, V} | _]) -> V;
field(K, [_ | Rest]) -> field(K, Rest);
field(_, []) -> nil.
set(K, V, []) -> [{K, V}];
set(K, V, [{K, _} | Rest]) -> [{K, V} | Rest];
set(K, V, [P | Rest]) -> [P | set(K, V, Rest)].
%% ── gen_server wrapper ──────────────────────────────────────────
%%
%% Mirrors the registry / projection gen_server patterns from
%% Steps 5b and 7b. Same port quirks: raw Pid return, no `?MODULE`
%% macro, spawned processes don't persist across separate
%% erlang-eval-ast calls — tests inline start_link with operations.
%%
%% Step 1b (m2) adds multi-actor gen_server calls:
%% add_actor/3, publish_to/2, log_tip_for/1, actors/0, state_for/1,
%% with_projections_for/2 — all delegating to the pure-functional
%% bucket APIs. Existing single-actor calls (publish/1, log_tip/0,
%% with_projections/1) continue to route through bucket 0.
start_link(ActorId, KeySpec, ActorStateProplist) ->
Pid = gen_server:start_link(nx_kernel,
[ActorId, KeySpec, ActorStateProplist]),
erlang:register(nx_kernel, Pid),
Pid.
stop() ->
R = gen_server:call(nx_kernel, '$gen_stop'),
erlang:unregister(nx_kernel),
R.
publish(Request) ->
gen_server:call(nx_kernel, {publish, Request}).
query() ->
gen_server:call(nx_kernel, get_state).
log_tip() ->
gen_server:call(nx_kernel, get_log_tip).
with_projections(Names) ->
gen_server:call(nx_kernel, {set_projections, Names}).
%% Step 1b — multi-actor gen_server calls.
add_actor(ActorId, KeySpec, AS) ->
gen_server:call(nx_kernel, {add_actor, ActorId, KeySpec, AS}).
publish_to(ActorId, Request) ->
gen_server:call(nx_kernel, {publish_to, ActorId, Request}).
log_tip_for(ActorId) ->
gen_server:call(nx_kernel, {log_tip_for, ActorId}).
log_state_for(ActorId) ->
gen_server:call(nx_kernel, {log_state_for, ActorId}).
inbox_tip_for(ActorId) ->
gen_server:call(nx_kernel, {inbox_tip_for, ActorId}).
inbox_state_for(ActorId) ->
gen_server:call(nx_kernel, {inbox_state_for, ActorId}).
append_inbox(ActorId, Activity) ->
gen_server:call(nx_kernel, {append_inbox, ActorId, Activity}).
actors() ->
gen_server:call(nx_kernel, get_actors).
state_for(ActorId) ->
gen_server:call(nx_kernel, {state_for, ActorId}).
bucket_for(ActorId) ->
gen_server:call(nx_kernel, {bucket_for, ActorId}).
with_projections_for(ActorId, Names) ->
gen_server:call(nx_kernel, {set_projections_for, ActorId, Names}).
bootstrap_actor(ActorId, Profile, KeySpec) ->
gen_server:call(nx_kernel, {bootstrap_actor, ActorId, Profile, KeySpec}).
%% gen_server callbacks
init([ActorId, KeySpec, AS]) ->
{ok, new(ActorId, KeySpec, AS)}.
handle_call({publish, Request}, _From, State) ->
case publish(Request, State) of
{ok, Result, NewState} ->
{reply, {ok, Result}, NewState};
{error, Reason, SameState} ->
{reply, {error, Reason}, SameState}
end;
handle_call(get_state, _From, State) ->
{reply, State, State};
handle_call(get_log_tip, _From, State) ->
{reply, log_tip(State), State};
handle_call({set_projections, Names}, _From, State) ->
{reply, ok, with_projections(Names, State)};
handle_call({add_actor, ActorId, KeySpec, AS}, _From, State) ->
case add_actor(ActorId, KeySpec, AS, State) of
{ok, NewState} -> {reply, ok, NewState};
{error, Reason} -> {reply, {error, Reason}, State}
end;
handle_call({publish_to, ActorId, Request}, _From, State) ->
case publish(ActorId, Request, State) of
{ok, Result, NewState} -> {reply, {ok, Result}, NewState};
{error, Reason, SameState} -> {reply, {error, Reason}, SameState}
end;
handle_call({log_tip_for, ActorId}, _From, State) ->
{reply, actor_log_tip(ActorId, State), State};
handle_call({log_state_for, ActorId}, _From, State) ->
{reply, actor_log_state(ActorId, State), State};
handle_call({inbox_tip_for, ActorId}, _From, State) ->
{reply, actor_inbox_tip(ActorId, State), State};
handle_call({inbox_state_for, ActorId}, _From, State) ->
{reply, actor_inbox_state(ActorId, State), State};
handle_call({append_inbox, ActorId, Activity}, _From, State) ->
case append_to_actor_inbox(ActorId, Activity, State) of
{ok, Tip, NewState} -> {reply, {ok, Tip}, NewState};
{error, Reason, Same} -> {reply, {error, Reason}, Same}
end;
handle_call(get_actors, _From, State) ->
{reply, actors(State), State};
handle_call({state_for, ActorId}, _From, State) ->
{reply, actor_state(ActorId, State), State};
handle_call({bucket_for, ActorId}, _From, State) ->
{reply, actor_bucket(ActorId, State), State};
handle_call({set_projections_for, ActorId, Names}, _From, State) ->
case with_actor_projections(ActorId, Names, State) of
{ok, NewState} -> {reply, ok, NewState};
{error, Reason} -> {reply, {error, Reason}, State}
end;
handle_call({bootstrap_actor, ActorId, Profile, KeySpec}, _From, State) ->
case bootstrap_actor(ActorId, Profile, KeySpec, State) of
{ok, Result, NewState} -> {reply, {ok, Result}, NewState};
{error, Reason, SameState} -> {reply, {error, Reason}, SameState}
end.
handle_cast(_, S) -> {noreply, S}.
handle_info(_, S) -> {noreply, S}.

116
next/kernel/outbox.erl Normal file
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-module(outbox).
-export([construct/4, sign/2, cid_of/1, publish/2]).
%% Outbox envelope construction + signing per design §3.1.
%%
%% construct/4 builds an unsigned activity envelope from caller-supplied
%% (Type, ActorId, Published, Object). The envelope's `:id` field is
%% derived from the host `cid:to_string` BIF over a skeleton tag, so
%% recipients can address the activity by its content hash. The
%% returned property list is the canonical key-sorted form that
%% `envelope:canonical_bytes/1` operates on.
%%
%% sign/2 takes the unsigned envelope plus a KeySpec proplist that
%% mirrors a `public_keys` entry: `[{key_id, _}, {algorithm, _},
%% {value, KeyMaterial}]`. It computes the v1 HMAC stand-in
%% `crypto:hash(sha256, <<KeyMaterial/binary, CanonicalBytes/binary>>)`
%% — the same scheme `envelope:verify_signature/2` checks — and
%% appends a `:signature` pair.
%%
%% Real Ed25519 / RSA signing arrives in milestone 2 once
%% `crypto:sign_ed25519/2` BIFs land; the API shape doesn't change.
%% construct/4 — Type and ActorId are atoms; Published is an
%% integer timestamp the caller supplies (no clock BIF in this
%% port; the HTTP layer / outbox:publish caller injects it).
%% Object can be any term, including a property list of inner
%% fields.
construct(Type, ActorId, Published, Object) ->
Skeleton = [{actor, ActorId},
{object, Object},
{published, Published},
{type, Type}],
Id = cid:to_string({activity_envelope, Skeleton}),
[{actor, ActorId},
{id, Id},
{object, Object},
{published, Published},
{type, Type}].
%% sign/2 — KeySpec carries key_id, algorithm, value (key material).
sign(Envelope, KeySpec) ->
{ok, KeyId} = envelope:get_field(key_id, KeySpec),
{ok, Alg} = envelope:get_field(algorithm, KeySpec),
{ok, KM} = envelope:get_field(value, KeySpec),
CB = envelope:canonical_bytes(Envelope),
SigValue = crypto:hash(sha256, <<KM/binary, CB/binary>>),
Sig = [{algorithm, Alg}, {key_id, KeyId}, {value, SigValue}],
Envelope ++ [{signature, Sig}].
%% cid_of/1 — extract the :id field from a constructed envelope.
%% Convenience for callers that don't want to thread the CID
%% separately when both the envelope and its ID matter.
cid_of(Envelope) ->
{ok, Id} = envelope:get_field(id, Envelope),
Id.
%% publish/2 — the outbound activity pipeline orchestrator.
%%
%% Request shape: [{type, T}, {object, O}]
%% Context shape: [{actor_id, A}, {published, P}, {key_spec, KS},
%% {actor_state, AS}, {log, L}]
%%
%% Returns:
%% {ok, [{cid, Cid}, {activity, Signed}], NewLog} — happy path
%% {error, Reason, LogState} — validation halted
%%
%% Stages run in order: envelope shape, signature, replay. The
%% replay check uses the log state pre-append, so if the caller
%% publishes the same Request twice with the same Published
%% timestamp the second call halts with {error, replay, _}.
%%
%% Projection-scheduler dispatch (the async fold the design calls
%% for) is deferred to Step 7 — once the projection gen_server
%% exists, this function will broadcast `Signed` to it.
publish(Request, Context) ->
Type = envelope_field(type, Request),
Object = envelope_field(object, Request),
ActorId = envelope_field(actor_id, Context),
Published = envelope_field(published, Context),
KeySpec = envelope_field(key_spec, Context),
ActorState = envelope_field(actor_state, Context),
LogState = envelope_field(log, Context),
Unsigned = construct(Type, ActorId, Published, Object),
Signed = sign(Unsigned, KeySpec),
Stages = [
fun (A) -> pipeline:stage_envelope(A) end,
pipeline:stage_signature(ActorState),
pipeline:stage_replay(LogState)
],
case pipeline:run_stages(Signed, Stages) of
ok ->
{ok, NewLog, _Seq} = log:append(LogState, Signed),
broadcast(Signed, envelope_field(projections, Context)),
Result = [{cid, cid_of(Signed)}, {activity, Signed}],
{ok, Result, NewLog};
{error, Reason} ->
{error, Reason, LogState}
end.
%% broadcast/2 — fire-and-forget cast to each named projection.
%% Missing/nil/empty list is a no-op; the publish API does not
%% require projections to exist. Activity is the post-sign Signed
%% envelope (same value that landed in the log).
broadcast(_Activity, nil) -> ok;
broadcast(_Activity, []) -> ok;
broadcast(Activity, [Name | Rest]) ->
projection:async_fold(Name, Activity),
broadcast(Activity, Rest).
envelope_field(K, PL) ->
case envelope:get_field(K, PL) of
{ok, V} -> V;
not_found -> nil
end.

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