coop/rose-ash
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

merge into: coop:loops/host-persist
Branches Tags
coop:main coop:loops/identity coop:loops/radar coop:loops/content coop:loops/fed-sx-m2 coop:loops/events coop:loops/commerce coop:loops/search coop:architecture coop:loops/host-persist coop:loops/acl coop:loops/mod coop:loops/persist coop:loops/flow coop:loops/feed coop:loops/ruby coop:loops/erlang coop:loops/fed-sx-m1 coop:loops/go coop:loops/fed-prims coop:loops/sx-vm-extensions coop:lib/guest/quoting coop:loops/scheme coop:hs-f coop:lib/guest/method-chain coop:lib/guest/test-runner coop:lib/smalltalk/refl-env coop:lib/tcl/uplevel coop:loops/kernel coop:loops/apl coop:loops/datalog coop:loops/js coop:loops/ocaml coop:loops/haskell coop:loops/minikanren coop:loops/tcl coop:bugs/resume-letrec coop:bugs/jit-bytecode-loop coop:loops/prolog coop:loops/smalltalk coop:loops/lua coop:loops/forth coop:loops/common-lisp coop:loops/hs coop:hs-e36-websocket coop:hs-e37-tokenizer coop:hs-e39-webworker coop:wasm coop:macros coop:sx coop:exorcism coop:cssx coop:decoupling coop:sexpression coop:relations
...
pull from: coop:loops/events
Branches Tags
coop:loops/identity coop:loops/radar coop:loops/content coop:loops/fed-sx-m2 coop:loops/events coop:loops/commerce coop:loops/search coop:architecture coop:loops/host-persist coop:loops/acl coop:loops/mod coop:loops/persist coop:loops/flow coop:loops/feed coop:loops/ruby coop:loops/erlang coop:loops/fed-sx-m1 coop:loops/go coop:loops/fed-prims coop:loops/sx-vm-extensions coop:lib/guest/quoting coop:loops/scheme coop:hs-f coop:lib/guest/method-chain coop:lib/guest/test-runner coop:lib/smalltalk/refl-env coop:lib/tcl/uplevel coop:loops/kernel coop:loops/apl coop:loops/datalog coop:loops/js coop:loops/ocaml coop:loops/haskell coop:loops/minikanren coop:loops/tcl coop:bugs/resume-letrec coop:bugs/jit-bytecode-loop coop:loops/prolog coop:loops/smalltalk coop:loops/lua coop:loops/forth coop:loops/common-lisp coop:loops/hs coop:hs-e36-websocket coop:hs-e37-tokenizer coop:hs-e39-webworker coop:main coop:wasm coop:macros coop:sx coop:exorcism coop:cssx coop:decoupling coop:sexpression coop:relations

71 Commits
loops/host ... loops/even

Author SHA1 Message Date
giles
29127d8613 events: federated free/busy across trusted peers + 10 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m4s
Details 
Peers publish busy intervals per actor (iCal free/busy model — privacy-
preserving, not event details). ev/peer-with-busy, ev/peer-busy;
ev/federated-busy unions local availability-db busy + trusted peers' published
busy (sorted); ev/federated-free? answers cross-instance availability,
half-open, trust-gated (untrusted peers ignored). 219/219 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 05:32:04 +00:00
giles
80174c7197 events: Phase 4 federation — trust-gated peer agenda merge + 13 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 17s
Details 
federation.sx: a peer publishes a schedule; ev/federated-agenda merges local
(origin :local) with trusted peers' agendas, sorted by start, tagged with
:origin provenance. Trust is a peer-id set re-checked per merge; untrusted
peers contribute nothing. Real transport slots behind ev/peer-agenda.
209/209 green — all four plan phases implemented.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 04:59:12 +00:00
giles
f6c1d1e9bf events: reminders + digests from the agenda + 14 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 40s
Details 
reminders.sx bridges calendar + durable rosters to notify: ev/occurrence-
reminders (one per booked attendee, fires lead before start, idempotency key
occ-key/recipient/lead), ev/agenda-reminders (sorted by fire-at),
ev/due-reminders (fire-at <= now), ev/reminder->msg (notify wire shape),
ev/agenda-digest + ev/agenda-for-p. 196/196 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 04:34:49 +00:00
giles
e35769411e events: notification delivery flows on lib/flow + 7 tests (Phase 3 start)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 34s
Details 
notify.sx: reminders + digests as durable flows over an injected transport.
A flow requests delivery (suspend); the host dispatch sends and resumes with
the outcome. At-least-once + idempotent (transport dedups by msg id; replay
logs outcomes). Retry rides suspend/resume with distinct per-attempt tags,
bounded by maxn. Digest delivers a batch with per-message outcomes.
182/182 green. Delivery core is the delivery-on-sx extraction seam.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 04:02:54 +00:00
giles
05d5c46730 events: paid-ticket contract (commerce) over holds + 31 tests (Phase 2 done)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 42s
Details 
ticket.sx: checkout-request (events->commerce) + payment-result
(commerce->events) wire shapes — commerce imports the contract. ev/request-
ticket! holds a seat + emits a checkout request; ev/settle-payment! confirms
on :paid, releases on failure/expiry. Idempotent; late paid for a vanished
hold -> :paid-but-no-hold (refund signal). 175/175 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 03:34:15 +00:00
giles
7153e742c8 events: provisional holds (hold/confirm/release) for paid tickets + 24 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 48s
Details 
Booking stream gains :hold/:confirm/:release; fold tracks per-actor seat state
(:held/:confirmed). A held seat counts toward capacity so a pending payment
can't be oversold. ev/hold! (capacity-safe), ev/confirm!, ev/release!,
ev/seat-state. Holds race test mirrors the booking race. 144/144 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 03:07:29 +00:00
giles
24d4db3f0d events: wire persist-backed booking into api.sx + 10 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 35s
Details 
Durable booking path alongside in-memory: ev/book-occ!, ev/cancel-occ!,
ev/roster-occ, ev/seats-left-occ (capacity from scheduled event); ev/free-p?,
ev/next-free-p, ev/conflicts-p derive availability by replaying persist
booking streams. Reordered conformance preloads. 120/120 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 02:39:19 +00:00
giles
9adeff1431 events: booking cancellation + seat release + 13 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 24s
Details 
Booking stream carries :booking/:cancel events; live roster is the folded
replay so cancelling frees a seat and capacity reopens. ev/cancel! (retrying
append-expect), no-op on unbooked, cancelled actor may re-book. Capacity count
is folded roster size. 110/110 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 02:09:58 +00:00
giles
80a2dee22f events: capacity-safe transactional booking on persist + 24 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 36s
Details 
booking.sx: per-occurrence append-only stream, roster = replay. Booking
decided against an observed (roster, last-seq) snapshot, committed via
persist/append-expect — atomic check+append, no overbooking, no lock.
Explicit last-seat race test: two bookers, one booked, one conflict, roster
capped. Idempotent per actor. 97/97 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 01:44:43 +00:00
giles
15e9503b05 events: api.sx — public events facade + 14 tests (Phase 1 complete)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 37s
Details 
Immutable store ({:events :bookings}) over calendar+availability:
ev/schedule, ev/book, ev/agenda, ev/agenda-for, ev/free?, ev/next-free,
ev/conflicts. Availability queries auto-widen expansion by longest event.
73/73 green. Phase 1 done.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 01:16:16 +00:00
giles
4674b797cb events: next-free slot search + 6 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 35s
Details 
ev-next-free finds the earliest free slot >= after for a duration within a
horizon, probing 'after' + busy-interval ends via the busy_in rule (ev-free?).
Finds gaps, skips too-short gaps, half-open at edges. 59/59 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 00:49:42 +00:00
giles
540933bfca events: availability.sx — free/busy + conflict detection on Datalog + 16 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m1s
Details 
occurrence/booking EDB; rules busy/conflict (canonical pair, half-open
overlap)/busy_in. API ev-busy, ev-conflicts, ev-has-conflict?, ev-free?
(transient qwindow). Integrates with calendar expansion. 53/53 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-07 00:23:51 +00:00
giles
70aea21601 events: MONTHLY RRULE expansion (bymonthday + ordinal byday) + 13 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 44s
Details 
BYMONTHDAY (negative = from end), ordinal BYDAY ({:ord :wd}, last-weekday),
default day-of-month skipping short months. Weekly+monthly share ev-emit-occs.
37/37 green.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 23:52:39 +00:00
giles
797c5f9147 events: Phase 1 calendar — DAILY/WEEKLY RRULE expansion + 24 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 32s
Details 
Civil date arithmetic (Hinnant), integer epoch-minute datetimes, bounded
windowed RRULE expansion (DAILY/WEEKLY with INTERVAL/COUNT/UNTIL/BYDAY),
multi-event merge. Conformance harness + scoreboard wired.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 23:48:34 +00:00
giles
d446562ed1 briefings: commerce / content / events / identity loop briefings 
Authored from plans/{commerce,content,events,identity}-on-sx.md.
Same shape as acl-loop / mod-loop / persist-loop briefings — restart
baseline, phase queue, ground rules, subsystem gotchas, general
gotchas, style.

Substrate dependencies noted in each:
  commerce -> minikanren + persist + flow
  content  -> smalltalk + persist
  events   -> datalog + persist + flow
  identity -> erlang + persist + acl

Phase 1 of each is unblocked by the substrate that already exists;
later phases gate on persist (and friends) landing.
 2026-06-06 23:25:15 +00:00
giles
9f8e4d995d Merge loops/mod into architecture: mod-on-sx moderation engine on Prolog
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 49s
Details 
Moderation-on-Prolog layer in lib/mod: report schema, policy DSL (boolean algebra
+ count/score/reporters/burst conditions), proof-carrying engine, append-only
audit, lifecycle state machine + escalation/appeal, federation (advisory trust,
wire format, ActivityPub export), plus repeat-offender, quorum, temporal burst,
analytics (trace/whatif/lint/batch/explain/linking), domain policies, and an
end-to-end triage pipeline. Roadmap (4 phases) + 19 extensions, 390/390. Imports
lib/prolog only; Prolog unmodified.
 2026-06-06 23:08:13 +00:00
giles
4c8e732803 Merge loops/acl into architecture: acl-on-sx Datalog ACL 
Fine-grained, explainable, federation-aware access control as a thin layer
over lib/datalog/. Four phases + hardening, 145/145 conformance:
- Phase 1 direct grants, deny-overrides via stratified negation
- Phase 2 inheritance (group/role member_of, resource child_of, role_grant)
- Phase 3 explanation (proof-tree reconstruction) + append-only audit log
- Phase 4 federation (trust-gated non-transitive delegation, revocation)
- hardening: diamonds, cycles, multi-peer, validation, audit save/restore

Surfaces the lib/guest/rules/ extraction seam (build-db/decide/explain/
revoke) for the second consumer (mod-on-sx). Records two substrate findings:
append! no-ops on map-derived lists; JIT loops on deep proof reconstruction
in warm processes (acl-explain only; acl-permit? unaffected).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 23:07:43 +00:00
giles
9437f99e28 acl: hardening suite (+25) — diamonds, cycles, validation, audit save/restore
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 35s
Details 
New adversarial/cross-phase coverage: diamond resource+group hierarchies
(deny wins per path), chain inheritance + leaf deny, cycle termination,
multi-peer delegation, fact validation, audit snapshot/restore round-trip.
Adds acl-validate-facts/acl-facts-valid? (schema) and acl-audit-snapshot/
restore!/copy (audit). Fixed acl-audit-restore! rebuilding the live log via
map (append! silently no-ops on map-derived lists).

Suite is prover-free: a substrate JIT bug loops the recursive proof
reconstructor on deep chains in warm processes (documented in Blockers);
acl-permit? is unaffected. 145/145.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 22:44:28 +00:00
giles
98f5e1bf14 Merge loops/persist into architecture: persist-on-sx durable substrate
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 58s
Details 
The shared durable-state substrate (lib/persist) other subsystems build on:
log + kv facets over an injectable backend, projections, subscriptions,
snapshots + compaction, optimistic concurrency, a durable backend over the
kernel perform IO boundary (blobs by reference), plus extensions (materialized
views, kv CAS, stream catalog, query helpers, atomic batch, schema-evolution
upcasters, exactly-once append, global commit ordering) and a worked ACL
reference migration. 201/201 tests across 20 suites. Durability awaits the
host-side storage adapter (tracked in the plan's Blockers; loops/host-persist).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 22:21:27 +00:00
giles
538b8a53e0 plans: shared-plumbing extraction note — defer to post-merge integration
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 37s
Details 
mod-sx (Prolog) and acl-sx (Datalog) converged on the same module shape but run
on different engines. Only the audit log + fed trust/outbox shapes truly share;
extract at the architecture-merge point refactoring both consumers atomically,
not unilaterally from a loop branch.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 22:20:52 +00:00
giles
7e732b1933 Merge loops/flow into architecture: flow-on-sx durable DAG workflow engine 
166/166 across 11 suites, Phases 1-8. Combinators (sequence/parallel/branch/attempt/
map-flow/while/until + retry/timeout/try-catch/recover/tap/fail-model), durable
suspend/resume via deterministic replay (guest call/cc is escape-only), crash
recovery, fed-sx distribution (remote-node/failover/replication/handoff), operational
API + hygiene, and a host integration ABI + reference driver for art-dag / human-in-
the-loop. New lib/flow/** only; imports lib/scheme read-only.
 2026-06-06 22:20:18 +00:00
giles
739e743918 mod: Ext 19 — end-to-end triage pipeline (capstone), 390/390
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 41s
Details 
mod/triage-pipeline domain r reports actor composes domain-policy decision →
explanation → AP activity → wire into one bundle. Integration test runs the whole
federated path across 5 modules (decide → wire → peer → trust-gated apply),
confirming the module-by-module subsystem composes end to end. +15 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:40:36 +00:00
giles
c19f658cf2 mod: Ext 18 — ergonomic defrule / ruleset surface, 375/375
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 34s
Details 
mod/defrule collects trailing conditions via &rest; mod/ruleset assembles rules.
No macro needed — conditions are plain data, fn supports &rest here. Produces
structurally identical rules to mk-rule (asserted) and works in the engine
unchanged. Closes the roadmap's original defrule surface. +11 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:37:12 +00:00
giles
2f75ab11fc mod: Ext 17 — per-domain policy registry, 364/364
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 34s
Details 
mod/register-policy! domain rules + mod/decide-in domain r reports give each
rose-ash domain its own rule set; unregistered domains fall back to default-rules
(never unmoderated). Same spam report → remove under a strict market policy, hide
under blog default. Engine already took rules as a param, so this is registry +
fallback, no engine change. +14 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:33:24 +00:00
giles
9cfca1d008 flow: reference host driver flow-drive-host/flow-run-host + 4 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 34s
Details 
Completes the host ABI from work-queue to driver loop: the host supplies only a
(kind payload) -> answer dispatch fn; flow-drive-host services one tick of pending
requests, flow-run-host ticks until quiescent (bounded). Tested via the art-dag
render -> human-review -> publish pipeline driven entirely by flow-run-host. The
art-dag integration is now: define dispatch, call flow-run-host. 166/166, 11 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:33:04 +00:00
giles
82fbf01bb3 mod: Ext 16 — ActivityPub-shaped decision export, 350/350
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 32s
Details 
mod/decision->activity maps a decision to a moderation verb (remove→Delete,
ban→Block, hide/escalate→Flag, keep→no activity) shaped like an AP activity,
preserving the precise action. mod/decisions->activities batch-exports dropping
keeps. With wire (Ext 14) + fed trust (Phase 4) the federated moderation path is
end-to-end: decide → activity/wire → peer → trust-gate → apply. +17 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:28:49 +00:00
giles
3cbf33d2d2 flow: host integration ABI (request/await/host-queue) + 11 tests (Phase 8)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 38s
Details 
The seam for hooking flow to art-dag and human-in-the-loop later. (request kind
payload) suspends with a typed (flow-request kind payload) envelope and returns the
host's resume value; await-human/await-render sugar. (flow-host-requests) is the
host work queue: (id kind payload) for every suspended flow awaiting a host effect;
request?/request-kind/request-payload parse a tag. Tests include the art-dag-shaped
driver loop (render -> human-review -> publish). Host owns IO+persistence; flow only
requests (replay-safe). 162/162 across 11 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:24:16 +00:00
giles
329b3c4903 mod: Ext 15 — disjunctive (:any) conditions, 333/333
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 29s
Details 
(:any (list c1 c2 ...)) compiles to Prolog disjunction (g1 ; g2 ; ...), completing
the condition boolean algebra (AND via :when list, :not, :any). cond->goal
recurses so combinators nest arbitrarily; the proof tree shows the compiled
disjunction verbatim. Maps onto Prolog's control constructs rather than
reimplementing boolean logic in SX. +10 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:23:15 +00:00
giles
919bd961d1 apl: migrate conformance onto shared lib/guest driver (counters mode) 
Replaces the bespoke 116-line conformance.sh with a conformance.conf + 1-line
exec shim, reusing lib/guest/conformance.sh. Surfaced + fixed a silent undercount:
the old awk extractor reported pipeline=40, but pipeline.sx has 152 assertions —
real total is 562/562, not 450/450. Driver reads counter globals directly.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:17:28 +00:00
giles
b43901d297 mod: Ext 14 — decision wire format for federation transport, 323/323
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 28s
Details 
mod/decision->wire emits a versioned pipe-delimited line (MOD1|r1|hide|spam-hide);
mod/wire->decision parses it back (mod/wire-valid? guards). split-char built over
slice/len (loaded env has no split). Integration test runs the full federated
path: serialize → wire → deserialize → fed-receive-decision trust-gating
(untrusted→advisory, trusted→applied). +16 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:17:19 +00:00
giles
68c8e39508 mod: Ext 13 — SLA sweep over pending lifecycle cases, 307/307
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 6m28s
Details 
Composes lifecycle (Phase 3) with time (Ext 12): a timed-case pairs a case with
its state-entry tick; mod/overdue? flags pending cases (open/triaged/appealed)
past a deadline; mod/sla-sweep returns the breached report ids. Terminal states
never breach. Pure overlay — lifecycle stays timeless, caller stamps entry. +15 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:08:37 +00:00
giles
92addf5146 mod: Ext 12 — temporal burst detection, 292/292
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Has been cancelled
Details 
Reports gain an :at tick (deterministic, supplied). mod/decide-temporal counts
reports about a subject within [now-window, now], asserts burst_count/2, and a
(:burst-at-least K) rule fires only on a real burst. 3 reports at 10/11/12 → hide;
3 at 1/2/12 (window 5) → keep, while the plain count rule escalates both. Fifth
report field threaded through rebuild helpers, non-breaking. +15 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 19:00:51 +00:00
giles
8292607e38 mod: Ext 11 — batch triage + corpus analytics, 277/277
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 58s
Details 
mod/decide-batch triages a queue; mod/action-histogram summarizes outcomes by
action; mod/rule-coverage + mod/never-fired measure which rules fire across a
corpus — the empirical complement to lint's static unreachable check (lint finds
rules that can't fire; never-fired finds rules that didn't). +17 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:56:19 +00:00
giles
bf65de7b24 mod: Ext 10 — policy what-if / impact analysis, 260/260
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 57s
Details 
mod/decision-diff compares one report's action under two rule sets;
mod/policy-impact batches a set and returns only the reports whose decision flips;
mod/impact-count / mod/impact-report summarize. Lets a mod team measure a policy
change's blast radius before shipping (e.g. removing spam-hide flips r1 hide→keep).
Pure SX over decide-report. +13 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:51:47 +00:00
giles
3764b62206 mod: Ext 9 — policy dry-run trace diagnostics, 247/247
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 49s
Details 
mod/trace-rules evaluates a report against every rule, returning each rule's
proved/unproved status + goal-by-goal derivation (an unproved rule shows which
goal failed). mod/first-proved = winner (matches engine precedence, cross-checked),
mod/proved-rules the firing set, mod/trace-report a [fires]/[ - ] rendering.
Answers 'why didn't my rule fire?' without instrumenting the engine. +15 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:48:44 +00:00
giles
062a76e64f mod: Ext 8 — quorum over distinct reporters (anti-brigade), 232/232
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 55s
Details 
(:reporters-at-least N) compiles to setof(Br, report(_, Br, Sr), Bsr),
length(Bsr, Nr), Nr >= N — counts distinct reporters, not raw reports.
mod/decide-quorum asserts every report's report/3 fact (base engine scopes to the
decided report) so Prolog can aggregate reporters. One user filing 3 reports stays
:keep under quorum while the count rule escalates. Own suite. +9 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:45:28 +00:00
giles
c2d628e9c3 flow: README — API reference + deterministic-replay contract
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m10s
Details 
User-facing docs for the flow engine: the node model, every combinator, the
suspend/resume durability contract (escape-only call/cc -> deterministic replay),
lifecycle/introspection/hygiene API, fed-sx distribution, and substrate notes.
Doc-only; 151/151 unchanged.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:37:10 +00:00
giles
aabb950256 flow: store hygiene flow/gc + flow/forget + 9 tests
Some checks are pending
Test, Build, and Deploy / test-build-deploy (push) Waiting to run
Details 
flow/gc drops terminal (done/cancelled) records, keeps live suspended flows, returns
count removed; flow/forget id drops one terminal record and refuses live flows.
Bounds unbounded store growth (retention/GC). Bumped conformance sx_server timeout
to 540s for the 10-suite run under CPU contention. 151/151 across 10 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:34:53 +00:00
giles
50eb7079e5 briefings: mod-loop — cut/backtracking allowance + sx_write_file-first + loaded-env/not(Goal) gotchas
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m15s
Details 
Make explicit that the loop may lean on Prolog backtracking (pl-query-all) and cut,
preferring clause-order precedence via pl-query-one. Default to sx_write_file over
path/pattern edits; flag that sx_insert_near drops all but the first form. Document
the loaded-env primitive restriction (includes?/chars/etc. undefined after prolog
preloads; use the tokenizer's surviving set) and that negation is the not(Goal)
functor, not the prefix \+ operator.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:30:44 +00:00
giles
c3668e4461 mod: Ext 7 — repeat-offender escalation (audit log as evidence), 223/223
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m13s
Details 
mod/subject-sanctions counts prior hide/remove/ban decisions about a subject from
the append-only audit log; mod/decide-escalating upgrades a sanction to :ban when
the subject has >= k priors. Non-sanction outcomes (keep/escalate) pass through.
Closes the loop between audit and policy — the trail feeds future decisions. Own
suite. +19 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:29:36 +00:00
giles
01be84b5d8 mod: Ext 6 — strictest-wins decision strategy + action severity, 204/204
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m3s
Details 
mod/decide-strictest collects every proven rule (pl-query-all) and applies the
harshest action by mod/action-severity (keep<escalate<hide<remove<ban), an
alternative to the engine's first-match precedence. Diverges from first-match
exactly when rule order and severity disagree. Same decision shape + :strategy;
engine untouched. Own suite. +14 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:20:15 +00:00
giles
2b47b2925c flow: end-to-end integration suite + 10 tests (Phase 7)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 54s
Details 
Realistic flows composing every phase: an order pipeline (validate via attempt ->
payment suspend -> branch -> ledger federation via remote-node) and an onboarding
flow, each run through the full lifecycle including a simulated crash (export/wipe/
import) and a peer handoff mid-flow, with flow/pending|status|result introspection.
142/142 across 9 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:17:40 +00:00
giles
e53a292f1a mod: Ext 5 — policy rule-set lint (unreachable/catch-all/dups), 190/190
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m12s
Details 
Static analysis of a policy without running the engine: mod/unreachable-rules
flags rules after an unconditional rule (dead under first-match precedence),
mod/has-catchall? checks total coverage, mod/duplicate-rule-names + mod/rules-ok?
give a well-formedness verdict policy authors can assert. Own suite. +14 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:15:41 +00:00
giles
3d2c1d94f2 mod: Ext 4 — report linking + dedup (Prolog-backed retrieval), 176/176
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 49s
Details 
mod/related-ids and mod/reporters-of find reports about a subject via a Prolog
relational query (report(Id, _, 'subject')) — the policy substrate reused for
retrieval. mod/dedup-reports collapses identical reports by a normalized
reporter|subject|reason key; mod/distinct-reporters-of counts unique reporters.
Own suite (tests/link.sx). +12 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:09:37 +00:00
giles
d9b9da3843 flow: railway attempt combinator — fail-value short-circuit + 10 tests (Phase 6)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 55s
Details 
(attempt n1 n2 ...) threads like sequence but stops at the first node returning a
(fail ...) value, returning that failure. Makes the fail/recover error model
compose into validation/ETL pipelines (railway-oriented). 132/132 across 8 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:09:21 +00:00
giles
102c806451 mod: Ext 3 — human-readable proof explanation (mod/explain), 164/164
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 47s
Details 
mod/explain renders a decision's proof tree into legible text: action + rule,
evidence line, and each derivation goal with [proved]/[unproved] and the
unification bindings that satisfied it (e.g. {B=ann, N=3, S=dave}). Pure SX over
the Phase-2 proof data — the audit trail's 'why' made readable. +10 tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:06:29 +00:00
giles
0a1b89c975 flow: bounded iteration combinators flow-while/flow-until + 6 tests
Some checks are pending
Test, Build, and Deploy / test-build-deploy (push) Waiting to run
Details 
(flow-while pred body max) / (flow-until pred body max) re-run body threading the
value while/until pred holds, capped at max steps for a deterministic bound (no
unbounded loops in pure SX). 122/122 across 7 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:02:59 +00:00
giles
779a592614 mod: Ext 2 — weighted/aggregate scoring (:score-at-least), 154/154
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 52s
Details 
Report :signals ({:kind :weight}) project to signal(Id, 'kind', weight) facts;
condition (:score-at-least N) compiles to aggregate_all(sum(W), signal(Id,_,W),T),
T >= N. Low-confidence signals accumulate past a threshold via genuine Prolog
arithmetic aggregation. Default policy untouched — proven via custom rule sets.
+8 extension tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 18:02:52 +00:00
giles
2ea87796a1 mod: Ext 1 — negation-as-failure conditions (:not / :attr), 146/146
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 44s
Details 
Report attributes (:attrs) project to attr(Id, name) facts; policy gains (:attr x)
and (:not <cond>) conditions. The Prolog substrate exposes negation as a functor
not(Goal) (the prefix \+ operator doesn't parse here). Closed-world example:
hide spam unless author verified. Default policy untouched — feature proven via
custom rule sets, so all 132 base tests stay green. +14 extension tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:59:01 +00:00
giles
0e6ba55647 flow: combinator library — tap, recover, map-flow + 11 tests (Phase 5 complete)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 53s
Details 
tap: side-effecting pass-through (returns input). recover: fail-VALUE counterpart
of try-catch (run node; on (fail r) run handler on r). map-flow: run a node over
each item of a list, join results sequentially. 116/116 across 7 suites.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:57:48 +00:00
giles
ee9851c063 mod: Phase 4 — federation (trust, sharing, revocation), 132/132 — roadmap done
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 55s
Details 
Cross-instance reports ingest into the local registry with origin tags; the
engine decides them unchanged. Decision sharing pushes to a mock fed-sx outbox
(mod/fed-send! is the transport seam). Trust is advisory by default: a peer's
decision binds locally only under (mod/trusted? peer :mod), else it lands in the
advisory log unapplied. Revocation composes with the Phase-2 proof model —
fed-revoke-if-invalidated re-runs the engine and undoes moderation only when the
action no longer holds (exoneration flips hide→keep → revoked + origin notified).
+26 fed tests. Full mod-on-sx roadmap complete.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:54:37 +00:00
giles
c1d24eb9b3 flow: operational introspection API — flow/status,result,list,pending + 12 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 55s
Details 
flow/status id -> done|suspended|cancelled|unknown; flow/result id -> value or
error; flow/list -> (id status) per flow; flow/pending -> (id waiting-tag) for
suspended flows (operator view of what each awaits). Pure store introspection.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:53:23 +00:00
giles
f4f34c1d33 mod: Phase 3 — lifecycle state machine + escalation + appeal, 106/106
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 54s
Details 
Pure SX state machine (lib/mod/lifecycle.sx) over the engine:
open→triaged→decided→appealed→final, transition table guards illegal moves.
Auto-tier resolves terminal actions; escalate parks at human-tier (resolve
blocked until review supplies evidence). Appeal re-runs the engine — new
exonerated-keep rule at top precedence lets exoneration override a prior hide.
Api façade (mod/triage/resolve/review/appeal/finalize) over a case registry,
logging committed decisions to the audit trail. +46 escalation tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:50:05 +00:00
giles
16cb727406 flow: replication + handoff across instances + 6 tests (Phase 4 complete)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 42s
Details 
flow-replicate-to copies the plain-data store export to a peer's replica slot;
flow-restore-from imports it. Handoff = replicate, local instance dies, peer
restores and resumes by id. The replay log survives the move, so all resolved
suspends carry over. Same durable-data mechanism as crash recovery, across
instances. All four phases complete: 93/93.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:48:39 +00:00
giles
f8722b3b08 flow: remote-failover — try peers in order, fall through to local + 6 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 45s
Details 
(remote-failover addrs fn local) tries fn on each peer in order, moves to the next
on any raised error, and runs the local node if every peer fails. Threads input,
composes in sequences.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:44:04 +00:00
giles
e1f802cfff flow: remote-node via mock fed-sx transport + 7 tests (Phase 4 begins)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m4s
Details 
(remote-node addr fn) runs a node on a federation peer. Transport is the fed-sx
boundary, mocked by a peer registry (flow-peer-register!); raises
flow-remote-unreachable / flow-remote-no-fn. Composes with sequence/suspend/retry.
Also fixes conformance.sh to load remote.sx before api.sx.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:40:25 +00:00
giles
6e825e1283 mod: Phase 2 — evidence accumulation + proof trees + audit log, 60/60
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m7s
Details 
Reports carry an :evidence list, asserted as evidence/3 facts; reviewer-remove
rule (highest precedence) lets human review override classification. Proof tree
built constructively by re-querying each rule body goal against the same DB with
the report id bound, so derivations carry real unification bindings. Append-only
audit log records decision + proof + evidence snapshot per decide, monotonic seq,
never mutates prior entries. +29 audit tests.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:37:02 +00:00
giles
8dfc987095 mod: Phase 1 — report schema + policy engine on Prolog, 31/31
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 1m5s
Details 
Reports → Prolog facts (report/3, classification/2, report_count/2); ordered
policy rules compile to policy_action/3 clauses, first match wins via
pl-query-one. Decisions carry their proof (matching rule + conditions +
evidence). Spam/abuse keyword classification, repeated-report escalation via
Prolog join+arithmetic, no-rule→keep default. Registry api + conformance harness.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:30:50 +00:00
giles
97c7623743 flow: crash recovery — store export/import + resumable scan + 8 tests (Phase 3 complete)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 58s
Details 
Records are name-keyed (defflow registers names); flow-store-export nulls live
procs to plain data, flow-store-import! restores, flow-resumable-ids scans for
paused flows. Resume re-resolves the proc by name, so a flow survives a wiped
store (simulated restart). The whole durable model persists only plain data.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:25:47 +00:00
giles
e896deffc8 flow: Phase 3 suspend/resume/cancel via deterministic replay + 17 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 50s
Details 
Guest Scheme call/cc is escape-only (re-entry hangs), so durable resume uses
deterministic replay: suspend escapes to the driver; resume re-runs the flow and
replays resolved suspends from a (tag value) log. No live continuation is ever
serialized — persisted state is plain data, survives restart. Adds flow/start
(now state-returning, backward compatible), flow/resume, flow/cancel, store.sx.
Harness reuses one env with a per-test reset (full env rebuild 66x was too slow).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:20:09 +00:00
giles
72174941aa briefings: add mod-on-sx loop briefing
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 45s
Details 
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 17:18:02 +00:00
giles
40be9cd074 acl: Phase 4 federation (trust-gated delegation, revocation) + 31 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 10m25s
Details 
federation.sx adds peer/trust/delegate/level_covers facts and one engine
rule: delegated grants apply only when local trust covers the action,
re-checked every query (non-transitive, fail-safe). Local/inherited deny
overrides federated grants; delegation composes with group and resource
inheritance. acl-revoke!/acl-fed-assert! propagate retraction/assertion;
mock fed-sx transport for tests. Federated proofs reconstruct via the
existing explainer. Roadmap complete: 120/120.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:54:34 +00:00
giles
15c97119e4 acl: Phase 3 explanation + audit, 35 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 40s
Details 
explain.sx reconstructs a canonical proof tree (first-rule, first-solution)
by goal-directed search over the saturated db, since Datalog keeps no
provenance; depth-capped for cyclic safety. acl-explain returns
{:allowed? :proof :reason} with the blocking eff_deny proof on denial.
audit.sx is an append-only decision log (monotonic seq, disk serializer).
api gains acl/explain, acl/audit, acl/audit-tail.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:47:07 +00:00
giles
e762cc2e32 flow: timeout combinator — cooperative step budget + 7 tests (Phase 2 complete)
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 22s
Details 
(timeout budget node) bounds a node deterministically: nodes opt in via (tick),
budget ticks are allowed, the next raises flow-timeout. No scheduler/clock in pure
SX so the budget is a step count, not wall-clock. Budgets nest and are per-run.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:42:16 +00:00
giles
4674620d7e flow: retry combinator — re-run node on raised exceptions + 6 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 30s
Details 
(retry n node) re-runs up to n attempts on a raised exception; the last attempt's
exception propagates. Explicit (fail ...) values are NOT retried — they pass through.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:39:21 +00:00
giles
f3da3b975a flow: try-catch combinator — reify raised exceptions + 6 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 34s
Details 
(try-catch node handler) runs node; on a raised exception calls (handler error)
with the reified error via Scheme guard, returns the handler value.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:37:26 +00:00
giles
9261d69cc5 acl: Phase 2 inheritance (groups, resource trees, roles) + 30 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 36s
Details 
eff_grant/eff_deny derived relations inherit through member_of (group +
role membership) and child_of (resource hierarchy); role_grant confers
role capabilities. Deny-overrides via stratified negation, deny
authoritative across the inheritance closure. Cyclic membership
terminates. Phase 1 suite unchanged.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:36:24 +00:00
giles
1731476dc6 flow: error model — fail/failed?/fail-reason failure values + 6 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 29s
Details 
Explicit (fail reason) values flow downstream as data and are inspected with
failed?/fail-reason — distinct from raised exceptions (retry/try-catch territory).

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:35:40 +00:00
giles
65cbdb8387 flow: branch combinator (conditional) + 6 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 50s
Details 
Phase 2 control flow. (branch pred then else) selects then/else node by running
pred on the threaded input; named 'branch' since 'cond' is a Scheme special form.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:32:37 +00:00
giles
fe47334e52 acl: Phase 1 direct grants + deny-overrides, 24 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 56s
Details 
Datalog ACL layer (schema/facts/engine/api) over lib/datalog/. Direct
grant permits unless explicit deny names same (S,A,R) — deny-overrides
via stratified negation. Conformance wrapper + scoreboard.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:32:13 +00:00
giles
91ffba9975 flow: Phase 1 declarative DAG — sequence/parallel/defflow combinators + 18 tests
Some checks failed
Test, Build, and Deploy / test-build-deploy (push) Failing after 31s
Details 
Flow combinators as a Scheme prelude loaded onto scheme-standard-env; a flow is a
Scheme procedure input->output, run inside the interpreter (sets up Phase 3 call/cc
suspend). flow/start entry point, conformance runner, scoreboard.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
 2026-06-06 16:22:22 +00:00
119 changed files with 13766 additions and 222 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":"c4d97db1-361c-4a04-a99b-c838f9385469","pid":2426590,"procStart":"349789073","acquiredAt":1780789990975}

45
lib/acl/api.sx Normal file
View File

@@ -0,0 +1,45 @@
;; lib/acl/api.sx — public ACL surface over an implicit current db.
;;
;; Callers load a fact set once, then issue decisions without threading the db
;; through every call. The current db is module state; (acl/load! facts) rebuilds
;; it. This is the boundary the rest of rose-ash imports.
(define acl-current-db nil)
;; Replace the current fact base. Rebuilds the Datalog db under the active
;; ruleset (see lib/acl/engine.sx).
(define
acl/load!
(fn
(facts)
(do (set! acl-current-db (acl-build-db facts)) acl-current-db)))
;; Ensure a db exists, building an empty one on first use.
(define
acl-ensure-db!
(fn
()
(do
(when
(= acl-current-db nil)
(set! acl-current-db (acl-build-db (list))))
acl-current-db)))
;; Public decision against the current db (pure, no logging).
(define
acl/permit?
(fn (subj act res) (acl-permit? (acl-ensure-db!) subj act res)))
;; Decision-with-proof against the current db. See lib/acl/explain.sx.
(define
acl/explain
(fn (subj act res) (acl-explain (acl-ensure-db!) subj act res)))
;; Audited decision: logs the outcome to the append-only audit log and returns
;; the boolean. See lib/acl/audit.sx.
(define
acl/audit
(fn (subj act res) (acl-audit-decide! (acl-ensure-db!) subj act res)))
;; Recent audited decisions (chronological).
(define acl/audit-tail (fn (n) (acl-audit-tail n)))

110
lib/acl/audit.sx Normal file
View File

@@ -0,0 +1,110 @@
;; lib/acl/audit.sx — append-only decision log.
;;
;; Every decision routed through acl-audit-decide! is appended to an in-memory
;; log with a monotonic sequence number (no wall-clock — deterministic and
;; testable; a host can stamp time at the serializer boundary). The log is
;; append-only: there is no mutate or delete, only append, tail, clear,
;; snapshot/restore, and serialize-for-disk.
(define acl-audit-log (list))
(define acl-audit-seq 0)
;; Copy a list into a fresh, append!-able list. `map`/`rest`-derived lists are
;; NOT extensible by append! in this runtime (it silently no-ops), so the live
;; log must always be a list built with `list` + `append!`.
(define
acl-audit-copy
(fn
(xs)
(let
((fresh (list)))
(do (for-each (fn (e) (append! fresh e)) xs) fresh))))
(define
acl-audit-clear!
(fn
()
(do (set! acl-audit-log (list)) (set! acl-audit-seq 0) nil)))
;; Append a decision record. Returns the record.
(define
acl-audit-record!
(fn
(subj act res allowed?)
(let
((entry {:allowed? allowed? :act act :subj subj :res res :seq acl-audit-seq}))
(do
(set! acl-audit-seq (+ acl-audit-seq 1))
(append! acl-audit-log entry)
entry))))
;; Decide against db, log the outcome, and return the boolean. This is the
;; audited path; acl-permit? remains the pure, side-effect-free decision.
(define
acl-audit-decide!
(fn
(db subj act res)
(let
((allowed? (acl-permit? db subj act res)))
(do (acl-audit-record! subj act res allowed?) allowed?))))
(define acl-audit-count (fn () (len acl-audit-log)))
;; Most recent n entries (in chronological order). n >= log size returns all.
(define
acl-audit-tail
(fn
(n)
(let
((total (len acl-audit-log)))
(if
(<= total n)
acl-audit-log
(acl-audit-drop acl-audit-log (- total n))))))
(define
acl-audit-drop
(fn
(xs k)
(if (<= k 0) xs (acl-audit-drop (rest xs) (- k 1)))))
;; Structured snapshot for save/restore — a {:seq :entries} value carrying a
;; copy of the log (so later appends don't mutate a held snapshot).
(define acl-audit-snapshot (fn () {:seq acl-audit-seq :entries (acl-audit-copy acl-audit-log)}))
;; Replace the live log from a snapshot. Restores both entries and the seq
;; counter so subsequent records continue numbering correctly. The log is
;; rebuilt as a fresh append!-able list (see acl-audit-copy).
(define
acl-audit-restore!
(fn
(snap)
(do
(set! acl-audit-log (acl-audit-copy (get snap :entries)))
(set! acl-audit-seq (get snap :seq))
nil)))
;; Serialize the whole log to a disk-ready string: one record per line,
;; "seq\tsubj\tact\tres\tallowed?". A host writes this; structured reload is via
;; snapshot/restore.
(define
acl-audit-serialize
(fn
()
(reduce
(fn
(acc e)
(str
acc
(get e :seq)
"\t"
(get e :subj)
"\t"
(get e :act)
"\t"
(get e :res)
"\t"
(get e :allowed?)
"\n"))
""
acl-audit-log)))

32
lib/acl/conformance.conf Normal file
View File

@@ -0,0 +1,32 @@
# ACL conformance config — sourced by lib/guest/conformance.sh.
LANG_NAME=acl
MODE=dict
PRELOADS=(
lib/datalog/tokenizer.sx
lib/datalog/parser.sx
lib/datalog/unify.sx
lib/datalog/db.sx
lib/datalog/builtins.sx
lib/datalog/aggregates.sx
lib/datalog/strata.sx
lib/datalog/eval.sx
lib/datalog/api.sx
lib/datalog/magic.sx
lib/acl/schema.sx
lib/acl/facts.sx
lib/acl/engine.sx
lib/acl/explain.sx
lib/acl/audit.sx
lib/acl/federation.sx
lib/acl/api.sx
)
SUITES=(
"direct:lib/acl/tests/direct.sx:(acl-direct-tests-run!)"
"inherit:lib/acl/tests/inherit.sx:(acl-inherit-tests-run!)"
"explain:lib/acl/tests/explain.sx:(acl-explain-tests-run!)"
"fed:lib/acl/tests/fed.sx:(acl-fed-tests-run!)"
"harden:lib/acl/tests/harden.sx:(acl-harden-tests-run!)"
)

3
lib/acl/conformance.sh Executable file
View File

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

72
lib/acl/engine.sx Normal file
View File

@@ -0,0 +1,72 @@
;; lib/acl/engine.sx — ACL ruleset + decision reducer over lib/datalog/.
;;
;; The engine is a thin layer: it owns the permit ruleset (SX data rules) and
;; reduces a (subject, action, resource) decision to a Datalog query against a
;; db built from EDB facts. The rule engine itself is Datalog's.
;;
;; Policy — inheritance + federation with deny-overrides:
;;
;; eff_grant(S,A,R) :- grant(S,A,R). ; direct
;; eff_grant(S,A,R) :- member_of(S,G), eff_grant(G,A,R). ; group/role chain
;; eff_grant(S,A,R) :- child_of(R,P), eff_grant(S,A,P). ; resource tree
;; eff_grant(S,A,R) :- member_of(S,Role), role_grant(Role,A,R). ; role expansion
;; eff_grant(S,A,R) :- delegate(Peer,S,A,R), ; federated grant
;; trust(Peer,L), level_covers(L,A).
;;
;; eff_deny(S,A,R) :- deny(S,A,R). ; direct
;; eff_deny(S,A,R) :- member_of(S,G), eff_deny(G,A,R). ; group chain
;; eff_deny(S,A,R) :- child_of(R,P), eff_deny(S,A,P). ; resource tree
;;
;; permit(S,A,R) :- eff_grant(S,A,R), not eff_deny(S,A,R).
;;
;; DENY-OVERRIDES: an effective deny anywhere in the inheritance closure of
;; (S,A,R) defeats any effective grant — including federated grants. Deny
;; inherits through the *same* group and resource chains as grant, so a
;; group-level or ancestor-resource deny is authoritative for members/
;; descendants. This is the principled, fail-safe reading of "deny wins".
;;
;; FEDERATION — non-transitive trust: a peer's `delegate` fact only grants if a
;; *local* `trust(Peer, L)` exists AND that level `level_covers` the action.
;; Trust is re-checked on every query (it is a body literal), never baked in at
;; fact-ingestion time, so revoking trust or narrowing a level takes effect
;; immediately on the next decision.
;;
;; Termination & stratification:
;; - eff_grant/eff_deny recurse only over member_of and child_of, which are
;; EDB relations with no function symbols, so the closure is finite (cyclic
;; membership/containment just reaches a fixpoint, never loops). The
;; federation rule is non-recursive.
;; - permit negates eff_deny; neither eff_grant nor eff_deny depends on
;; permit, so the program is stratifiable (permit sits in a higher stratum).
(define
acl-rules
(quote
((eff_grant S A R <- (grant S A R))
(eff_grant S A R <- (member_of S G) (eff_grant G A R))
(eff_grant S A R <- (child_of R P) (eff_grant S A P))
(eff_grant S A R <- (member_of S Role) (role_grant Role A R))
(eff_grant
S
A
R
<-
(delegate Peer S A R)
(trust Peer L)
(level_covers L A))
(eff_deny S A R <- (deny S A R))
(eff_deny S A R <- (member_of S G) (eff_deny G A R))
(eff_deny S A R <- (child_of R P) (eff_deny S A P))
(permit S A R <- (eff_grant S A R) {:neg (eff_deny S A R)}))))
;; Build a Datalog db from a list of EDB facts under the ACL ruleset.
(define acl-build-db (fn (facts) (dl-program-data facts acl-rules)))
;; Core decision: does the db permit subject S to perform action A on
;; resource R? Reduces to a ground Datalog query on the derived `permit`
;; relation — non-empty result means permitted.
(define
acl-permit?
(fn
(db subj act res)
(> (len (dl-query db (list (quote permit) subj act res))) 0)))

125
lib/acl/explain.sx Normal file
View File

@@ -0,0 +1,125 @@
;; lib/acl/explain.sx — proof-tree reconstruction over the saturated db.
;;
;; lib/datalog/ records derived facts but not their provenance, so the proof is
;; reconstructed here by goal-directed search over the *saturated* db: for a
;; ground goal we find the first ACL rule (in rule order) whose body holds, take
;; the first solution binding its remaining variables, and recurse on each body
;; literal. Negated literals are recorded as verified `:neg-ok` leaves.
;;
;; CANONICAL DERIVATION: the Datalog derivation graph is a DAG (a fact may hold
;; many ways). We pick ONE canonical proof — first matching rule, first solution
;; — matching the rule order in lib/acl/engine.sx (direct/EDB rules first). A
;; depth cap guards against pathological cyclic data producing unbounded search.
;;
;; A proof node is one of:
;; {:fact <lit> :via "edb"} — base EDB fact
;; {:fact <lit> :rule <head> :body (<node|negleaf> ...)} — derived
;; {:neg-ok <lit>} — negation verified to fail
;; {:fact <lit> :truncated true} — depth cap hit
(define acl-proof-max-depth 64)
;; Substitute a body literal, descending into {:neg ...} dicts (dl-apply-subst
;; does not recurse into dicts, which would leak the neg's free vars).
(define
acl-subst-lit
(fn
(lit s)
(if
(and (dict? lit) (has-key? lit :neg))
{:neg (dl-apply-subst (get lit :neg) s)}
(dl-apply-subst lit s))))
(define
acl-lit-edb?
(fn
(lit)
(and
(list? lit)
(> (len lit) 0)
(symbol? (first lit))
(has-key? acl-edb-arity (symbol->string (first lit))))))
(define
acl-subst-zip!
(fn
(d ks vs)
(when
(> (len ks) 0)
(do
(dict-set! d (symbol->string (first ks)) (first vs))
(acl-subst-zip! d (rest ks) (rest vs))))))
;; Bind a rule head's variables to a ground goal's arguments (positional).
(define
acl-bind-head
(fn
(head goal)
(let
((d {}))
(do (acl-subst-zip! d (rest head) (rest goal)) d))))
(define
acl-subst-union
(fn
(a b)
(let
((d {}))
(do
(for-each (fn (k) (dict-set! d k (get a k))) (keys a))
(for-each (fn (k) (dict-set! d k (get b k))) (keys b))
d))))
(define acl-prove (fn (db goal) (acl-prove-d db goal 0)))
(define
acl-prove-d
(fn
(db goal depth)
(cond
((> depth acl-proof-max-depth) {:truncated true :fact goal})
((acl-lit-edb? goal)
(if (> (len (dl-query db goal)) 0) {:via "edb" :fact goal} nil))
(else (acl-prove-rules db goal acl-rules depth)))))
(define
acl-prove-rules
(fn
(db goal rules depth)
(if
(= (len rules) 0)
nil
(let
((p (dl-rule-from-list (first rules))))
(if
(= (first (get p :head)) (first goal))
(let
((hs (acl-bind-head (get p :head) goal)))
(let
((qbody (map (fn (l) (acl-subst-lit l hs)) (get p :body))))
(let
((sols (dl-query db qbody)))
(if
(> (len sols) 0)
(acl-prove-build db goal p hs (first sols) depth)
(acl-prove-rules db goal (rest rules) depth)))))
(acl-prove-rules db goal (rest rules) depth))))))
(define
acl-prove-build
(fn
(db goal p hs sol depth)
(let ((full (acl-subst-union hs sol))) {:body (map (fn (l) (let ((g (acl-subst-lit l full))) (if (and (dict? g) (has-key? g :neg)) {:neg-ok (get g :neg)} (acl-prove-d db g (+ depth 1))))) (get p :body)) :rule (get p :head) :fact goal})))
;; Public decision-with-proof. Returns:
;; {:allowed? <bool> :proof <node|nil> :reason <eff_deny proof|nil>}
;; When permitted, :proof is the permit derivation. When denied, :proof is nil
;; and :reason carries the blocking eff_deny proof if one exists (an explicit or
;; inherited deny), else nil (simply no grant).
(define
acl-explain
(fn
(db subj act res)
(let
((proof (acl-prove db (list (quote permit) subj act res))))
(if (= proof nil) {:allowed? false :proof nil :reason (acl-prove db (list (quote eff_deny) subj act res))} {:allowed? true :proof proof :reason nil}))))

47
lib/acl/facts.sx Normal file
View File

@@ -0,0 +1,47 @@
;; lib/acl/facts.sx — EDB fact constructors.
;;
;; Each constructor returns a Datalog fact tuple (a list whose head is the
;; predicate symbol). These are the only shapes lib/acl/engine.sx feeds to
;; lib/datalog/.
;; Phase 1: actor/resource/grant/deny.
;; Phase 2: member_of (subject -> group/role), child_of (resource -> parent),
;; role_grant (role -> action,resource capability).
;; Phase 4: peer/trust/delegate/level_covers (federation).
(define acl-actor (fn (id kind) (list (quote actor) id kind)))
(define acl-resource-fact (fn (id kind) (list (quote resource) id kind)))
(define acl-grant (fn (subj act res) (list (quote grant) subj act res)))
(define acl-deny (fn (subj act res) (list (quote deny) subj act res)))
;; subject S is a member of group/role G (one hop; transitivity is derived).
(define acl-member-of (fn (subj grp) (list (quote member_of) subj grp)))
;; resource R is a child of parent P (one hop; transitivity is derived).
(define acl-child-of (fn (res parent) (list (quote child_of) res parent)))
;; role confers capability (act on res) to every member of the role.
(define
acl-role-grant
(fn (role act res) (list (quote role_grant) role act res)))
;; --- federation ---
;; a known peer instance at addr, of some kind (e.g. peer).
(define acl-peer (fn (addr kind) (list (quote peer) addr kind)))
;; local trust in a peer at a named level. Gates delegated grants at query time.
(define acl-trust (fn (peer level) (list (quote trust) peer level)))
;; a peer asserts that subject S may A on R. Only takes effect if local trust in
;; that peer covers action A (see level_covers).
(define
acl-delegate
(fn (peer subj act res) (list (quote delegate) peer subj act res)))
;; local policy: trust `level` authorises delegated grants for action `act`.
(define
acl-level-covers
(fn (level act) (list (quote level_covers) level act)))

61
lib/acl/federation.sx Normal file
View File

@@ -0,0 +1,61 @@
;; lib/acl/federation.sx — cross-instance ACL facts + revocation.
;;
;; fed-sx replicates ACL facts between instances; this module models the local
;; side. A peer's authority arrives as `delegate(Peer, S, A, R)` facts, which
;; only take effect when a local `trust(Peer, L)` and `level_covers(L, A)`
;; authorise them (enforced by the engine rule, re-checked every query). The
;; actual network transport is fed-sx's job and is mocked in tests as a dict.
;;
;; Trust is NOT transitive: trusting peer α does not extend to peers α trusts.
;; Only delegate facts that α itself asserts, and that local trust covers, flow.
;; Mock fed-sx pull: `transport` is a dict mapping a peer address (its string
;; name) to the list of delegate facts that peer asserts. Returns the facts for
;; `addr`, or an empty list if the peer is unknown / unreachable.
(define
acl-fed-fetch
(fn
(transport addr)
(let
((k (if (symbol? addr) (symbol->string addr) addr)))
(if (has-key? transport k) (get transport k) (list)))))
;; Gather delegate facts from every peer in `addrs` via the transport.
(define
acl-fed-collect
(fn
(transport addrs)
(let
((acc (list)))
(do
(for-each
(fn
(addr)
(for-each
(fn (f) (append! acc f))
(acl-fed-fetch transport addr)))
addrs)
acc))))
;; Build a db from local facts plus delegate facts pulled from `peers`. Local
;; facts must include the `trust`/`level_covers` policy; replicated delegate
;; facts are gated against it by the engine rule at query time.
(define
acl-fed-build-db
(fn
(local-facts transport peers)
(let
((all (list)))
(do
(for-each (fn (f) (append! all f)) local-facts)
(for-each
(fn (f) (append! all f))
(acl-fed-collect transport peers))
(acl-build-db all)))))
;; Propagated revocation: retract a replicated fact (e.g. a peer's delegate, or
;; local trust) from a live db. The next decision re-saturates and reflects it.
(define acl-revoke! (fn (db fact) (do (dl-retract! db fact) db)))
;; Propagated assertion: ingest a newly replicated fact into a live db.
(define acl-fed-assert! (fn (db fact) (do (dl-assert! db fact) db)))

71
lib/acl/schema.sx Normal file
View File

@@ -0,0 +1,71 @@
;; lib/acl/schema.sx — ACL sorts and EDB predicate vocabulary.
;;
;; Datalog is untyped; this module is the schema-as-data layer. It declares
;; the subject/resource/action sorts and the arity of every EDB predicate the
;; ACL engine recognises, plus light validators. Facts that pass these checks
;; are well-formed inputs to lib/acl/engine.sx.
(define acl-subject-kinds (quote (user group role service)))
(define acl-resource-kinds (quote (page post thread peer)))
;; Actions are open-ended (a grant may name any action symbol), but these are
;; the platform's well-known verbs.
(define acl-actions (quote (read edit comment moderate federate)))
;; EDB predicate name -> arity.
;; Phase 1: actor/resource/grant/deny.
;; Phase 2: member_of (subject->group/role), child_of (resource->parent),
;; role_grant (role->action,resource).
;; Phase 4: peer (addr->kind), trust (peer->level),
;; delegate (peer->subj,action,resource), level_covers (level->action).
(define acl-edb-arity {:role_grant 3 :child_of 2 :trust 2 :peer 2 :actor 2 :level_covers 2 :delegate 4 :member_of 2 :deny 3 :grant 3 :resource 2})
(define
acl-member?
(fn
(x xs)
(cond
((= (len xs) 0) false)
((= (first xs) x) true)
(else (acl-member? x (rest xs))))))
(define acl-subject-kind? (fn (k) (acl-member? k acl-subject-kinds)))
(define acl-resource-kind? (fn (k) (acl-member? k acl-resource-kinds)))
(define acl-known-action? (fn (a) (acl-member? a acl-actions)))
;; A fact is a list whose head is a predicate symbol. Valid when the predicate
;; is known and the argument count matches the declared arity.
(define
acl-fact-valid?
(fn
(f)
(and
(list? f)
(> (len f) 0)
(symbol? (first f))
(let
((pred (symbol->string (first f))))
(and
(has-key? acl-edb-arity pred)
(= (- (len f) 1) (get acl-edb-arity pred)))))))
;; Return the sublist of facts that fail acl-fact-valid?. Empty list means the
;; whole set is well-formed. acl-build-db stays lenient (Datalog accepts any
;; tuple, and custom action symbols are allowed); callers opt in to checking.
(define
acl-validate-facts
(fn
(facts)
(let
((bad (list)))
(do
(for-each
(fn (f) (when (not (acl-fact-valid? f)) (append! bad f)))
facts)
bad))))
(define
acl-facts-valid?
(fn (facts) (= (len (acl-validate-facts facts)) 0)))

14
lib/acl/scoreboard.json Normal file
View File

@@ -0,0 +1,14 @@
{
"lang": "acl",
"total_passed": 145,
"total_failed": 0,
"total": 145,
"suites": [
{"name":"direct","passed":24,"failed":0,"total":24},
{"name":"inherit","passed":30,"failed":0,"total":30},
{"name":"explain","passed":35,"failed":0,"total":35},
{"name":"fed","passed":31,"failed":0,"total":31},
{"name":"harden","passed":25,"failed":0,"total":25}
],
"generated": "2026-06-06T22:43:27+00:00"
}

11
lib/acl/scoreboard.md Normal file
View File

@@ -0,0 +1,11 @@
# acl scoreboard
**145 / 145 passing** (0 failure(s)).
| Suite | Passed | Total | Status |
|-------|--------|-------|--------|
| direct | 24 | 24 | ok |
| inherit | 30 | 30 | ok |
| explain | 35 | 35 | ok |
| fed | 31 | 31 | ok |
| harden | 25 | 25 | ok |

170
lib/acl/tests/direct.sx Normal file
View File

@@ -0,0 +1,170 @@
;; lib/acl/tests/direct.sx — Phase 1: direct grants + deny-overrides.
(define acl-dt-pass 0)
(define acl-dt-fail 0)
(define acl-dt-failures (list))
(define
acl-dt-check!
(fn
(name got expected)
(if
(= got expected)
(set! acl-dt-pass (+ acl-dt-pass 1))
(do
(set! acl-dt-fail (+ acl-dt-fail 1))
(append!
acl-dt-failures
(str name "\n expected: " expected "\n got: " got))))))
;; A small fixture used by most cases: alice can read page1, is denied edit on
;; page1, and a service may federate peer1.
(define
acl-dt-fixture
(fn
()
(acl-build-db
(list
(acl-actor (quote alice) (quote user))
(acl-actor (quote svc1) (quote service))
(acl-resource-fact (quote page1) (quote page))
(acl-resource-fact (quote peer1) (quote peer))
(acl-grant (quote alice) (quote read) (quote page1))
(acl-grant (quote alice) (quote edit) (quote page1))
(acl-deny (quote alice) (quote edit) (quote page1))
(acl-grant (quote svc1) (quote federate) (quote peer1))))))
(define
acl-dt-run-all!
(fn
()
(let
((db (acl-dt-fixture)))
(do
(acl-dt-check!
"direct grant permits"
(acl-permit? db (quote alice) (quote read) (quote page1))
true)
(acl-dt-check!
"service grant permits federate"
(acl-permit? db (quote svc1) (quote federate) (quote peer1))
true)
(acl-dt-check!
"missing action denied"
(acl-permit? db (quote alice) (quote comment) (quote page1))
false)
(acl-dt-check!
"missing resource denied"
(acl-permit? db (quote alice) (quote read) (quote page2))
false)
(acl-dt-check!
"missing subject denied"
(acl-permit? db (quote bob) (quote read) (quote page1))
false)
(acl-dt-check!
"wrong subject for service grant denied"
(acl-permit? db (quote alice) (quote federate) (quote peer1))
false)
(acl-dt-check!
"grant plus deny -> deny wins"
(acl-permit? db (quote alice) (quote edit) (quote page1))
false)
(acl-dt-check!
"deny alone still denies"
(acl-permit?
(acl-build-db
(list (acl-deny (quote alice) (quote read) (quote page1))))
(quote alice)
(quote read)
(quote page1))
false)
(acl-dt-check!
"deny on edit does not block read"
(acl-permit? db (quote alice) (quote read) (quote page1))
true)
(acl-dt-check!
"empty db denies"
(acl-permit?
(acl-build-db (list))
(quote alice)
(quote read)
(quote page1))
false)
(let
((db2 (acl-build-db (list (acl-grant (quote a) (quote read) (quote r)) (acl-grant (quote b) (quote read) (quote r)) (acl-deny (quote b) (quote read) (quote r))))))
(do
(acl-dt-check!
"subject a allowed"
(acl-permit? db2 (quote a) (quote read) (quote r))
true)
(acl-dt-check!
"subject b denied by override"
(acl-permit? db2 (quote b) (quote read) (quote r))
false)))
(let
((db3 (acl-build-db (list (acl-actor (quote editors) (quote role)) (acl-grant (quote editors) (quote edit) (quote post1))))))
(acl-dt-check!
"role subject direct grant"
(acl-permit? db3 (quote editors) (quote edit) (quote post1))
true))
(do
(acl/load!
(list
(acl-grant (quote carol) (quote moderate) (quote thread1))))
(acl-dt-check!
"api permit via current db"
(acl/permit? (quote carol) (quote moderate) (quote thread1))
true)
(acl-dt-check!
"api deny via current db"
(acl/permit? (quote carol) (quote read) (quote thread1))
false))
(do
(acl/load! (list))
(acl-dt-check!
"api reload clears prior grants"
(acl/permit? (quote carol) (quote moderate) (quote thread1))
false))
(acl-dt-check!
"schema grant arity valid"
(acl-fact-valid? (acl-grant (quote x) (quote read) (quote y)))
true)
(acl-dt-check!
"schema bad arity invalid"
(acl-fact-valid? (list (quote grant) (quote x)))
false)
(acl-dt-check!
"schema unknown predicate invalid"
(acl-fact-valid? (list (quote frobnicate) (quote x)))
false)
(acl-dt-check!
"schema subject kind known"
(acl-subject-kind? (quote service))
true)
(acl-dt-check!
"schema resource kind unknown"
(acl-resource-kind? (quote galaxy))
false)
(acl-dt-check!
"schema known action"
(acl-known-action? (quote moderate))
true)
(acl-dt-check!
"grant constructor shape"
(acl-grant (quote u) (quote read) (quote p))
(list (quote grant) (quote u) (quote read) (quote p)))
(acl-dt-check!
"actor constructor shape"
(acl-actor (quote u) (quote user))
(list (quote actor) (quote u) (quote user)))))))
(define
acl-direct-tests-run!
(fn
()
(do
(set! acl-dt-pass 0)
(set! acl-dt-fail 0)
(set! acl-dt-failures (list))
(acl-dt-run-all!)
{:failures acl-dt-failures :total (+ acl-dt-pass acl-dt-fail) :passed acl-dt-pass :failed acl-dt-fail})))

316
lib/acl/tests/explain.sx Normal file
View File

@@ -0,0 +1,316 @@
;; lib/acl/tests/explain.sx — Phase 3: proof correctness + audit completeness.
(define acl-et-pass 0)
(define acl-et-fail 0)
(define acl-et-failures (list))
;; Name-based deep equality. The host `=` compares symbols by interned
;; identity, which is unstable across substitution/saturation; comparing by
;; name (as the datalog suite does) makes structural assertions deterministic.
(define
acl-et-eq?
(fn
(a b)
(cond
((and (list? a) (list? b))
(and (= (len a) (len b)) (acl-et-eq-l? a b 0)))
((and (dict? a) (dict? b))
(let
((ka (keys a)) (kb (keys b)))
(and (= (len ka) (len kb)) (acl-et-eq-d? a b ka 0))))
((and (symbol? a) (symbol? b))
(= (symbol->string a) (symbol->string b)))
(else (= a b)))))
(define
acl-et-eq-l?
(fn
(a b i)
(cond
((>= i (len a)) true)
((not (acl-et-eq? (nth a i) (nth b i))) false)
(else (acl-et-eq-l? a b (+ i 1))))))
(define
acl-et-eq-d?
(fn
(a b ka i)
(cond
((>= i (len ka)) true)
((let ((k (nth ka i))) (not (acl-et-eq? (get a k) (get b k))))
false)
(else (acl-et-eq-d? a b ka (+ i 1))))))
(define
acl-et-check!
(fn
(name got expected)
(if
(acl-et-eq? got expected)
(set! acl-et-pass (+ acl-et-pass 1))
(do
(set! acl-et-fail (+ acl-et-fail 1))
(append!
acl-et-failures
(str name "\n expected: " expected "\n got: " got))))))
;; --- proof-tree walkers ---
;; True if EDB fact `target` appears as a base leaf anywhere in the proof.
(define
acl-et-has-leaf?
(fn
(node target)
(cond
((= node nil) false)
((and (dict? node) (has-key? node :via))
(acl-et-eq? (get node :fact) target))
((and (dict? node) (has-key? node :body))
(acl-et-any-leaf? (get node :body) target))
(else false))))
(define
acl-et-any-leaf?
(fn
(nodes target)
(cond
((= (len nodes) 0) false)
((acl-et-has-leaf? (first nodes) target) true)
(else (acl-et-any-leaf? (rest nodes) target)))))
;; True if the proof records a verified negation (deny did not fire).
(define
acl-et-has-negok?
(fn
(node)
(cond
((= node nil) false)
((and (dict? node) (has-key? node :neg-ok)) true)
((and (dict? node) (has-key? node :body))
(acl-et-any-negok? (get node :body)))
(else false))))
(define
acl-et-any-negok?
(fn
(nodes)
(cond
((= (len nodes) 0) false)
((acl-et-has-negok? (first nodes)) true)
(else (acl-et-any-negok? (rest nodes))))))
(define
acl-et-run-all!
(fn
()
(do
(let
((db (acl-build-db (list (acl-grant (quote u) (quote read) (quote p))))))
(let
((e (acl-explain db (quote u) (quote read) (quote p))))
(do
(acl-et-check! "direct: allowed?" (get e :allowed?) true)
(acl-et-check!
"direct: proof root fact"
(get (get e :proof) :fact)
(list (quote permit) (quote u) (quote read) (quote p)))
(acl-et-check!
"direct: grant leaf present"
(acl-et-has-leaf?
(get e :proof)
(list (quote grant) (quote u) (quote read) (quote p)))
true)
(acl-et-check!
"direct: negation verified"
(acl-et-has-negok? (get e :proof))
true)
(acl-et-check!
"direct: reason nil when allowed"
(get e :reason)
nil))))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-member-of (quote team) (quote org)) (acl-grant (quote org) (quote read) (quote doc))))))
(let
((e (acl-explain db (quote alice) (quote read) (quote doc))))
(do
(acl-et-check! "group: allowed?" (get e :allowed?) true)
(acl-et-check!
"group: member_of alice leaf"
(acl-et-has-leaf?
(get e :proof)
(list (quote member_of) (quote alice) (quote team)))
true)
(acl-et-check!
"group: member_of team leaf"
(acl-et-has-leaf?
(get e :proof)
(list (quote member_of) (quote team) (quote org)))
true)
(acl-et-check!
"group: grant org leaf at base"
(acl-et-has-leaf?
(get e :proof)
(list (quote grant) (quote org) (quote read) (quote doc)))
true))))
(let
((db (acl-build-db (list (acl-child-of (quote sec) (quote book)) (acl-grant (quote u) (quote read) (quote book))))))
(let
((e (acl-explain db (quote u) (quote read) (quote sec))))
(do
(acl-et-check! "resource: allowed?" (get e :allowed?) true)
(acl-et-check!
"resource: child_of leaf"
(acl-et-has-leaf?
(get e :proof)
(list (quote child_of) (quote sec) (quote book)))
true)
(acl-et-check!
"resource: grant on parent leaf"
(acl-et-has-leaf?
(get e :proof)
(list (quote grant) (quote u) (quote read) (quote book)))
true))))
(let
((db (acl-build-db (list (acl-member-of (quote bob) (quote editor)) (acl-role-grant (quote editor) (quote edit) (quote page1))))))
(let
((e (acl-explain db (quote bob) (quote edit) (quote page1))))
(do
(acl-et-check! "role: allowed?" (get e :allowed?) true)
(acl-et-check!
"role: member_of leaf"
(acl-et-has-leaf?
(get e :proof)
(list (quote member_of) (quote bob) (quote editor)))
true)
(acl-et-check!
"role: role_grant leaf"
(acl-et-has-leaf?
(get e :proof)
(list
(quote role_grant)
(quote editor)
(quote edit)
(quote page1)))
true))))
(let
((db (acl-build-db (list (acl-grant (quote u) (quote edit) (quote p)) (acl-deny (quote u) (quote edit) (quote p))))))
(let
((e (acl-explain db (quote u) (quote edit) (quote p))))
(do
(acl-et-check! "deny: not allowed" (get e :allowed?) false)
(acl-et-check! "deny: no proof" (get e :proof) nil)
(acl-et-check!
"deny: reason root is eff_deny"
(get (get e :reason) :fact)
(list (quote eff_deny) (quote u) (quote edit) (quote p)))
(acl-et-check!
"deny: reason has deny leaf"
(acl-et-has-leaf?
(get e :reason)
(list (quote deny) (quote u) (quote edit) (quote p)))
true))))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-grant (quote alice) (quote read) (quote doc)) (acl-deny (quote team) (quote read) (quote doc))))))
(let
((e (acl-explain db (quote alice) (quote read) (quote doc))))
(do
(acl-et-check!
"inherited deny: not allowed"
(get e :allowed?)
false)
(acl-et-check!
"inherited deny: reason has member_of leaf"
(acl-et-has-leaf?
(get e :reason)
(list (quote member_of) (quote alice) (quote team)))
true)
(acl-et-check!
"inherited deny: reason has group deny leaf"
(acl-et-has-leaf?
(get e :reason)
(list (quote deny) (quote team) (quote read) (quote doc)))
true))))
(let
((db (acl-build-db (list))))
(let
((e (acl-explain db (quote u) (quote read) (quote p))))
(do
(acl-et-check! "no grant: not allowed" (get e :allowed?) false)
(acl-et-check! "no grant: proof nil" (get e :proof) nil)
(acl-et-check! "no grant: reason nil" (get e :reason) nil))))
(let
((db (acl-build-db (list (acl-grant (quote u) (quote read) (quote p)) (acl-deny (quote u) (quote edit) (quote p))))))
(do
(acl-audit-clear!)
(acl-et-check! "audit: starts empty" (acl-audit-count) 0)
(acl-et-check!
"audit decide allowed returns true"
(acl-audit-decide! db (quote u) (quote read) (quote p))
true)
(acl-et-check!
"audit decide denied returns false"
(acl-audit-decide! db (quote u) (quote edit) (quote p))
false)
(acl-audit-decide! db (quote u) (quote comment) (quote p))
(acl-et-check!
"audit: count after three decisions"
(acl-audit-count)
3)
(acl-et-check!
"audit: tail size respects n"
(len (acl-audit-tail 2))
2)
(acl-et-check!
"audit: tail returns most recent"
(get (first (acl-audit-tail 1)) :act)
(quote comment))
(acl-et-check!
"audit: first record seq is 0"
(get (first (acl-audit-tail 3)) :seq)
0)
(acl-et-check!
"audit: allowed flag recorded"
(get (first (acl-audit-tail 3)) :allowed?)
true)
(acl-et-check!
"audit: serialize line count"
(len (acl-et-lines (acl-audit-serialize)))
3)
(acl-audit-clear!)
(acl-et-check!
"audit: clear resets count"
(acl-audit-count)
0))))))
;; count newline-terminated lines in a serialized log
(define acl-et-lines (fn (s) (acl-et-count-nl s 0 0)))
(define
acl-et-count-nl
(fn
(s i n)
(if
(>= i (len s))
(if (= n 0) (list) (acl-et-rangelist n))
(acl-et-count-nl
s
(+ i 1)
(if (= (slice s i (+ i 1)) "\n") (+ n 1) n)))))
(define
acl-et-rangelist
(fn
(n)
(if
(<= n 0)
(list)
(cons n (acl-et-rangelist (- n 1))))))
(define
acl-explain-tests-run!
(fn
()
(do
(set! acl-et-pass 0)
(set! acl-et-fail 0)
(set! acl-et-failures (list))
(acl-et-run-all!)
{:failures acl-et-failures :total (+ acl-et-pass acl-et-fail) :passed acl-et-pass :failed acl-et-fail})))

273
lib/acl/tests/fed.sx Normal file
View File

@@ -0,0 +1,273 @@
;; lib/acl/tests/fed.sx — Phase 4: federation (peer trust, delegation,
;; cross-instance chains, revocation). fed-sx transport is mocked as a dict.
(define acl-ft-pass 0)
(define acl-ft-fail 0)
(define acl-ft-failures (list))
;; Name-based deep equality (host `=` compares symbols by unstable interned
;; identity; see lib/acl/tests/explain.sx).
(define
acl-ft-eq?
(fn
(a b)
(cond
((and (list? a) (list? b))
(and (= (len a) (len b)) (acl-ft-eq-l? a b 0)))
((and (symbol? a) (symbol? b))
(= (symbol->string a) (symbol->string b)))
(else (= a b)))))
(define
acl-ft-eq-l?
(fn
(a b i)
(cond
((>= i (len a)) true)
((not (acl-ft-eq? (nth a i) (nth b i))) false)
(else (acl-ft-eq-l? a b (+ i 1))))))
(define
acl-ft-check!
(fn
(name got expected)
(if
(acl-ft-eq? got expected)
(set! acl-ft-pass (+ acl-ft-pass 1))
(do
(set! acl-ft-fail (+ acl-ft-fail 1))
(append!
acl-ft-failures
(str name "\n expected: " expected "\n got: " got))))))
;; proof leaf walker (federated proofs reconstruct through the engine rule).
(define
acl-ft-has-leaf?
(fn
(node target)
(cond
((= node nil) false)
((and (dict? node) (has-key? node :via))
(acl-ft-eq? (get node :fact) target))
((and (dict? node) (has-key? node :body))
(acl-ft-any-leaf? (get node :body) target))
(else false))))
(define
acl-ft-any-leaf?
(fn
(nodes target)
(cond
((= (len nodes) 0) false)
((acl-ft-has-leaf? (first nodes) target) true)
(else (acl-ft-any-leaf? (rest nodes) target)))))
(define acl-ft-p? (fn (db s a r) (acl-permit? db s a r)))
;; A standard federation fixture: local trusts peer alpha at "readonly", which
;; covers read+comment. alpha delegates several capabilities to alice.
(define
acl-ft-fixture
(fn
()
(acl-build-db
(list
(acl-trust (quote alpha) (quote readonly))
(acl-level-covers (quote readonly) (quote read))
(acl-level-covers (quote readonly) (quote comment))
(acl-delegate (quote alpha) (quote alice) (quote read) (quote doc))
(acl-delegate (quote alpha) (quote alice) (quote edit) (quote doc))))))
(define
acl-ft-run-all!
(fn
()
(do
(let
((db (acl-ft-fixture)))
(do
(acl-ft-check!
"trusted delegate, level covers action -> permit"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true)
(acl-ft-check!
"trusted delegate, level does NOT cover action -> deny"
(acl-ft-p? db (quote alice) (quote edit) (quote doc))
false)
(acl-ft-check!
"delegated but action class uncovered (comment has no delegate)"
(acl-ft-p? db (quote alice) (quote comment) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-level-covers (quote readonly) (quote read)) (acl-delegate (quote beta) (quote bob) (quote read) (quote doc))))))
(acl-ft-check!
"untrusted peer delegate -> deny"
(acl-ft-p? db (quote bob) (quote read) (quote doc))
false))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote readonly)) (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc))))))
(acl-ft-check!
"trust but no level_covers -> deny"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
false))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc)) (acl-delegate (quote beta) (quote bob) (quote read) (quote doc))))))
(do
(acl-ft-check!
"trust is per-peer: alpha's delegate applies"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true)
(acl-ft-check!
"trust not transitive: beta's delegate does not apply"
(acl-ft-p? db (quote bob) (quote read) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc)) (acl-deny (quote alice) (quote read) (quote doc))))))
(acl-ft-check!
"local deny overrides federated grant"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
false))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-member-of (quote alice) (quote team)) (acl-delegate (quote alpha) (quote team) (quote read) (quote doc))))))
(acl-ft-check!
"federated grant to group reaches member"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-child-of (quote sec) (quote book)) (acl-delegate (quote alpha) (quote u) (quote read) (quote book))))))
(acl-ft-check!
"federated grant on parent resource reaches child"
(acl-ft-p? db (quote u) (quote read) (quote sec))
true))
(let
((transport {:gamma (list (acl-delegate (quote gamma) (quote carol) (quote read) (quote post))) :alpha (list (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc)))}))
(do
(acl-ft-check!
"fetch known peer returns its delegates"
(len (acl-fed-fetch transport (quote alpha)))
1)
(acl-ft-check!
"fetch unknown peer returns empty"
(len (acl-fed-fetch transport (quote delta)))
0)
(acl-ft-check!
"collect across peers"
(len
(acl-fed-collect transport (list (quote alpha) (quote gamma))))
2)
(let
((db (acl-fed-build-db (list (acl-trust (quote alpha) (quote readonly)) (acl-trust (quote gamma) (quote readonly)) (acl-level-covers (quote readonly) (quote read))) transport (list (quote alpha) (quote gamma)))))
(do
(acl-ft-check!
"fed-build-db: alpha delegate permits"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true)
(acl-ft-check!
"fed-build-db: gamma delegate permits"
(acl-ft-p? db (quote carol) (quote read) (quote post))
true)
(acl-ft-check!
"fed-build-db: untrusted action still denied"
(acl-ft-p? db (quote alice) (quote edit) (quote doc))
false)))))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc))))))
(do
(acl-ft-check!
"before revoke: permitted"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true)
(acl-revoke!
db
(acl-delegate
(quote alpha)
(quote alice)
(quote read)
(quote doc)))
(acl-ft-check!
"after delegate revoked: denied"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc))))))
(do
(acl-ft-check!
"before trust revoke: permitted"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true)
(acl-revoke! db (acl-trust (quote alpha) (quote full)))
(acl-ft-check!
"after trust revoked: denied"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote alice) (quote read) (quote doc))))))
(do
(acl-ft-check!
"delegate without trust: denied"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
false)
(acl-fed-assert! db (acl-trust (quote alpha) (quote full)))
(acl-ft-check!
"trust ingested then re-checked: permitted"
(acl-ft-p? db (quote alice) (quote read) (quote doc))
true)))
(let
((db (acl-ft-fixture)))
(let
((e (acl-explain db (quote alice) (quote read) (quote doc))))
(do
(acl-ft-check! "federated proof allowed?" (get e :allowed?) true)
(acl-ft-check!
"federated proof has delegate leaf"
(acl-ft-has-leaf?
(get e :proof)
(list
(quote delegate)
(quote alpha)
(quote alice)
(quote read)
(quote doc)))
true)
(acl-ft-check!
"federated proof has trust leaf"
(acl-ft-has-leaf?
(get e :proof)
(list (quote trust) (quote alpha) (quote readonly)))
true)
(acl-ft-check!
"federated proof has level_covers leaf"
(acl-ft-has-leaf?
(get e :proof)
(list (quote level_covers) (quote readonly) (quote read)))
true))))
(acl-ft-check!
"schema delegate arity valid"
(acl-fact-valid?
(acl-delegate (quote p) (quote s) (quote a) (quote r)))
true)
(acl-ft-check!
"schema trust arity valid"
(acl-fact-valid? (acl-trust (quote p) (quote l)))
true)
(acl-ft-check!
"schema peer arity valid"
(acl-fact-valid? (acl-peer (quote p) (quote peer)))
true)
(acl-ft-check!
"schema level_covers arity valid"
(acl-fact-valid? (acl-level-covers (quote l) (quote read)))
true)
(acl-ft-check!
"schema delegate bad arity invalid"
(acl-fact-valid? (list (quote delegate) (quote p) (quote s)))
false))))
(define
acl-fed-tests-run!
(fn
()
(do
(set! acl-ft-pass 0)
(set! acl-ft-fail 0)
(set! acl-ft-failures (list))
(acl-ft-run-all!)
{:failures acl-ft-failures :total (+ acl-ft-pass acl-ft-fail) :passed acl-ft-pass :failed acl-ft-fail})))

228
lib/acl/tests/harden.sx Normal file
View File

@@ -0,0 +1,228 @@
;; lib/acl/tests/harden.sx — adversarial / cross-phase hardening.
;;
;; Diamond hierarchies, conflict resolution where deny must win through every
;; path, chain inheritance, cycle termination, multi-peer delegation, fact
;; validation, and audit save/restore.
;;
;; PROVER-FREE BY DESIGN: this suite calls only acl-permit? (which runs in
;; compiled Datalog, safe at any depth) plus pure data ops — never acl-explain /
;; acl-prove-d. The SX-side proof reconstructor recurses, and once the kernel
;; JIT-compiles it (after the explain/fed suites warm the process) it loops on
;; chains deeper than ~3 (substrate JIT bug — see plan Blockers). Proof
;; reconstruction is covered by tests/explain.sx (and federated proofs by
;; tests/fed.sx), both of which stay under the warm-process depth threshold.
(define acl-hd-pass 0)
(define acl-hd-fail 0)
(define acl-hd-failures (list))
(define
acl-hd-check!
(fn
(name got expected)
(if
(= got expected)
(set! acl-hd-pass (+ acl-hd-pass 1))
(do
(set! acl-hd-fail (+ acl-hd-fail 1))
(append!
acl-hd-failures
(str name "\n expected: " expected "\n got: " got))))))
(define acl-hd-p? (fn (db s a r) (acl-permit? db s a r)))
(define
acl-hd-run-all!
(fn
()
(do
(let
((grant-deny (acl-build-db (list (acl-child-of (quote r) (quote p1)) (acl-child-of (quote r) (quote p2)) (acl-grant (quote u) (quote read) (quote p1)) (acl-deny (quote u) (quote read) (quote p2)))))
(both-grant
(acl-build-db
(list
(acl-child-of (quote r) (quote p1))
(acl-child-of (quote r) (quote p2))
(acl-grant (quote u) (quote read) (quote p1))
(acl-grant (quote u) (quote read) (quote p2))))))
(do
(acl-hd-check!
"diamond resource: grant+deny parents -> deny wins"
(acl-hd-p? grant-deny (quote u) (quote read) (quote r))
false)
(acl-hd-check!
"diamond resource: both grant -> permit"
(acl-hd-p? both-grant (quote u) (quote read) (quote r))
true)
(acl-hd-check!
"diamond resource: deny does not leak to other parent"
(acl-hd-p? grant-deny (quote u) (quote read) (quote p1))
true)))
(let
((grant-deny (acl-build-db (list (acl-member-of (quote alice) (quote g1)) (acl-member-of (quote alice) (quote g2)) (acl-grant (quote g1) (quote read) (quote doc)) (acl-deny (quote g2) (quote read) (quote doc)))))
(both-grant
(acl-build-db
(list
(acl-member-of (quote alice) (quote g1))
(acl-member-of (quote alice) (quote g2))
(acl-grant (quote g1) (quote read) (quote doc))
(acl-grant (quote g2) (quote read) (quote doc))))))
(do
(acl-hd-check!
"diamond group: grant+deny groups -> deny wins"
(acl-hd-p? grant-deny (quote alice) (quote read) (quote doc))
false)
(acl-hd-check!
"diamond group: both grant -> permit"
(acl-hd-p? both-grant (quote alice) (quote read) (quote doc))
true)))
(let
((chain (acl-build-db (list (acl-member-of (quote a0) (quote a1)) (acl-member-of (quote a1) (quote a2)) (acl-member-of (quote a2) (quote a3)) (acl-member-of (quote a3) (quote a4)) (acl-grant (quote a4) (quote read) (quote res)))))
(chain-deny
(acl-build-db
(list
(acl-member-of (quote a0) (quote a1))
(acl-member-of (quote a1) (quote a2))
(acl-member-of (quote a2) (quote a3))
(acl-member-of (quote a3) (quote a4))
(acl-grant (quote a4) (quote read) (quote res))
(acl-deny (quote a0) (quote read) (quote res))))))
(do
(acl-hd-check!
"chain: top-group grant reaches leaf member"
(acl-hd-p? chain (quote a0) (quote read) (quote res))
true)
(acl-hd-check!
"chain: intermediate also covered"
(acl-hd-p? chain (quote a2) (quote read) (quote res))
true)
(acl-hd-check!
"chain: leaf-member deny overrides top grant"
(acl-hd-p? chain-deny (quote a0) (quote read) (quote res))
false)
(acl-hd-check!
"chain: deny on leaf does not block sibling level"
(acl-hd-p? chain-deny (quote a1) (quote read) (quote res))
true)))
(let
((self-member (acl-build-db (list (acl-member-of (quote a) (quote a)) (acl-grant (quote a) (quote read) (quote r)))))
(self-child
(acl-build-db
(list
(acl-child-of (quote r) (quote r))
(acl-grant (quote u) (quote read) (quote r)))))
(two-cycle
(acl-build-db
(list
(acl-member-of (quote x) (quote y))
(acl-member-of (quote y) (quote x))
(acl-grant (quote y) (quote read) (quote r))))))
(do
(acl-hd-check!
"self-membership cycle terminates and grants"
(acl-hd-p? self-member (quote a) (quote read) (quote r))
true)
(acl-hd-check!
"self-child cycle terminates and grants"
(acl-hd-p? self-child (quote u) (quote read) (quote r))
true)
(acl-hd-check!
"two-node membership cycle terminates"
(acl-hd-p? two-cycle (quote x) (quote read) (quote r))
true)))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-member-of (quote alice) (quote team)) (acl-delegate (quote alpha) (quote team) (quote read) (quote doc)) (acl-deny (quote alice) (quote read) (quote doc))))))
(acl-hd-check!
"federated group grant, local member deny -> deny wins"
(acl-hd-p? db (quote alice) (quote read) (quote doc))
false))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote bob) (quote read) (quote doc)) (acl-delegate (quote beta) (quote bob) (quote read) (quote doc))))))
(acl-hd-check!
"two peers delegate, one trusted -> permit"
(acl-hd-p? db (quote bob) (quote read) (quote doc))
true))
(let
((db (acl-build-db (list (acl-trust (quote alpha) (quote full)) (acl-trust (quote beta) (quote full)) (acl-level-covers (quote full) (quote read)) (acl-delegate (quote alpha) (quote bob) (quote read) (quote doc)) (acl-delegate (quote beta) (quote bob) (quote read) (quote doc))))))
(acl-hd-check!
"two peers both trusted -> permit"
(acl-hd-p? db (quote bob) (quote read) (quote doc))
true))
(let
((empty (acl-build-db (list))))
(acl-hd-check!
"empty db: nothing permitted"
(acl-hd-p? empty (quote u) (quote read) (quote r))
false))
(do
(acl-hd-check!
"validate: clean set has no bad facts"
(len
(acl-validate-facts
(list
(acl-grant (quote u) (quote read) (quote p))
(acl-member-of (quote u) (quote g))
(acl-delegate (quote pe) (quote u) (quote read) (quote p)))))
0)
(acl-hd-check!
"validate: facts-valid? true on clean set"
(acl-facts-valid?
(list (acl-grant (quote u) (quote read) (quote p))))
true)
(acl-hd-check!
"validate: surfaces wrong-arity and unknown predicate"
(len
(acl-validate-facts
(list
(acl-grant (quote u) (quote read) (quote p))
(list (quote grant) (quote u))
(list (quote bogus) (quote x) (quote y)))))
2)
(acl-hd-check!
"validate: empty set is valid"
(acl-facts-valid? (list))
true))
(let
((db (acl-build-db (list (acl-grant (quote u) (quote read) (quote p)) (acl-deny (quote u) (quote edit) (quote p))))))
(do
(acl-audit-clear!)
(acl-audit-decide! db (quote u) (quote read) (quote p))
(acl-audit-decide! db (quote u) (quote edit) (quote p))
(let
((snap (acl-audit-snapshot)))
(do
(acl-audit-clear!)
(acl-hd-check!
"audit: cleared count is 0"
(acl-audit-count)
0)
(acl-audit-restore! snap)
(acl-hd-check!
"audit: restored count"
(acl-audit-count)
2)
(acl-hd-check!
"audit: restored last act"
(get (first (acl-audit-tail 1)) :act)
(quote edit))
(acl-audit-decide! db (quote u) (quote comment) (quote p))
(acl-hd-check!
"audit: seq continues after restore"
(get (first (acl-audit-tail 1)) :seq)
2)
(acl-hd-check!
"audit: snapshot is an immutable copy"
(len (get snap :entries))
2)
(acl-audit-clear!))))))))
(define
acl-harden-tests-run!
(fn
()
(do
(set! acl-hd-pass 0)
(set! acl-hd-fail 0)
(set! acl-hd-failures (list))
(acl-hd-run-all!)
{:failures acl-hd-failures :total (+ acl-hd-pass acl-hd-fail) :passed acl-hd-pass :failed acl-hd-fail})))

202
lib/acl/tests/inherit.sx Normal file
View File

@@ -0,0 +1,202 @@
;; lib/acl/tests/inherit.sx — Phase 2: inheritance (groups, resource trees,
;; role expansion) with deny-overrides.
(define acl-it-pass 0)
(define acl-it-fail 0)
(define acl-it-failures (list))
(define
acl-it-check!
(fn
(name got expected)
(if
(= got expected)
(set! acl-it-pass (+ acl-it-pass 1))
(do
(set! acl-it-fail (+ acl-it-fail 1))
(append!
acl-it-failures
(str name "\n expected: " expected "\n got: " got))))))
(define acl-it-p? (fn (db s a r) (acl-permit? db s a r)))
(define
acl-it-run-all!
(fn
()
(do
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-grant (quote team) (quote read) (quote doc))))))
(do
(acl-it-check!
"group grant reaches member"
(acl-it-p? db (quote alice) (quote read) (quote doc))
true)
(acl-it-check!
"group grant: non-member excluded"
(acl-it-p? db (quote bob) (quote read) (quote doc))
false)
(acl-it-check!
"group grant: wrong action"
(acl-it-p? db (quote alice) (quote edit) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-member-of (quote team) (quote org)) (acl-member-of (quote org) (quote company)) (acl-grant (quote company) (quote read) (quote doc))))))
(do
(acl-it-check!
"deep nested group grant reaches leaf member"
(acl-it-p? db (quote alice) (quote read) (quote doc))
true)
(acl-it-check!
"intermediate group also covered"
(acl-it-p? db (quote team) (quote read) (quote doc))
true)
(acl-it-check!
"mid group org covered"
(acl-it-p? db (quote org) (quote read) (quote doc))
true)))
(let
((db (acl-build-db (list (acl-member-of (quote a) (quote b)) (acl-member-of (quote b) (quote a)) (acl-grant (quote b) (quote read) (quote r))))))
(do
(acl-it-check!
"cyclic membership terminates and grants"
(acl-it-p? db (quote a) (quote read) (quote r))
true)
(acl-it-check!
"cyclic membership covers both"
(acl-it-p? db (quote b) (quote read) (quote r))
true)))
(let
((db (acl-build-db (list (acl-child-of (quote sec) (quote chap)) (acl-child-of (quote chap) (quote book)) (acl-grant (quote u) (quote read) (quote book))))))
(do
(acl-it-check!
"parent grant reaches direct child"
(acl-it-p? db (quote u) (quote read) (quote chap))
true)
(acl-it-check!
"parent grant reaches deep descendant"
(acl-it-p? db (quote u) (quote read) (quote sec))
true)
(acl-it-check!
"parent grant covers parent itself"
(acl-it-p? db (quote u) (quote read) (quote book))
true)
(acl-it-check!
"child grant does not climb to parent"
(acl-it-p?
(acl-build-db
(list
(acl-child-of (quote sec) (quote book))
(acl-grant (quote u) (quote read) (quote sec))))
(quote u)
(quote read)
(quote book))
false)))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-child-of (quote post1) (quote board)) (acl-grant (quote team) (quote comment) (quote board))))))
(do
(acl-it-check!
"group + resource: member on child resource"
(acl-it-p? db (quote alice) (quote comment) (quote post1))
true)
(acl-it-check!
"group + resource: member on parent resource"
(acl-it-p? db (quote alice) (quote comment) (quote board))
true)))
(let
((db (acl-build-db (list (acl-member-of (quote bob) (quote editor)) (acl-role-grant (quote editor) (quote edit) (quote page1)) (acl-role-grant (quote editor) (quote read) (quote page1))))))
(do
(acl-it-check!
"role confers edit to member"
(acl-it-p? db (quote bob) (quote edit) (quote page1))
true)
(acl-it-check!
"role confers read to member"
(acl-it-p? db (quote bob) (quote read) (quote page1))
true)
(acl-it-check!
"role: capability not in tuple denied"
(acl-it-p? db (quote bob) (quote moderate) (quote page1))
false)
(acl-it-check!
"role: non-member excluded"
(acl-it-p? db (quote eve) (quote edit) (quote page1))
false)))
(let
((db (acl-build-db (list (acl-member-of (quote bob) (quote editor)) (acl-child-of (quote draft) (quote page1)) (acl-role-grant (quote editor) (quote edit) (quote page1))))))
(acl-it-check!
"role grant flows to child resource"
(acl-it-p? db (quote bob) (quote edit) (quote draft))
true))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-grant (quote team) (quote read) (quote doc)) (acl-deny (quote alice) (quote read) (quote doc))))))
(acl-it-check!
"explicit deny beats inherited group allow"
(acl-it-p? db (quote alice) (quote read) (quote doc))
false))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-grant (quote alice) (quote read) (quote doc)) (acl-deny (quote team) (quote read) (quote doc))))))
(do
(acl-it-check!
"group deny inherits and overrides direct grant"
(acl-it-p? db (quote alice) (quote read) (quote doc))
false)
(acl-it-check!
"group deny: another member also blocked"
(acl-it-p? db (quote team) (quote read) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-child-of (quote sec) (quote book)) (acl-grant (quote u) (quote read) (quote sec)) (acl-deny (quote u) (quote read) (quote book))))))
(acl-it-check!
"ancestor deny overrides descendant grant"
(acl-it-p? db (quote u) (quote read) (quote sec))
false))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-grant (quote team) (quote read) (quote doc)) (acl-grant (quote team) (quote edit) (quote doc)) (acl-deny (quote alice) (quote edit) (quote doc))))))
(do
(acl-it-check!
"deny on edit leaves inherited read intact"
(acl-it-p? db (quote alice) (quote read) (quote doc))
true)
(acl-it-check!
"deny on edit blocks edit"
(acl-it-p? db (quote alice) (quote edit) (quote doc))
false)))
(let
((db (acl-build-db (list (acl-member-of (quote alice) (quote team)) (acl-deny (quote team) (quote read) (quote doc))))))
(acl-it-check!
"inherited deny, no grant: denied"
(acl-it-p? db (quote alice) (quote read) (quote doc))
false))
(let
((db (acl-build-db (list (acl-child-of (quote a) (quote root)) (acl-child-of (quote b) (quote root)) (acl-grant (quote u) (quote read) (quote root)) (acl-deny (quote u) (quote read) (quote a))))))
(do
(acl-it-check!
"deny on sibling a blocks a"
(acl-it-p? db (quote u) (quote read) (quote a))
false)
(acl-it-check!
"deny on sibling a leaves b permitted"
(acl-it-p? db (quote u) (quote read) (quote b))
true)
(acl-it-check!
"root itself still permitted"
(acl-it-p? db (quote u) (quote read) (quote root))
true)))
(let
((db (acl-build-db (list (acl-grant (quote x) (quote read) (quote y))))))
(acl-it-check!
"direct grant under inheritance ruleset"
(acl-it-p? db (quote x) (quote read) (quote y))
true)))))
(define
acl-inherit-tests-run!
(fn
()
(do
(set! acl-it-pass 0)
(set! acl-it-fail 0)
(set! acl-it-failures (list))
(acl-it-run-all!)
{:failures acl-it-failures :total (+ acl-it-pass acl-it-fail) :passed acl-it-pass :failed acl-it-fail})))

63
lib/apl/conformance.conf Normal file
View File

@@ -0,0 +1,63 @@
# APL conformance config — sourced by lib/guest/conformance.sh.
LANG_NAME=apl
MODE=counters
COUNTERS_PASS=apl-test-pass
COUNTERS_FAIL=apl-test-fail
TIMEOUT_PER_SUITE=300
PRELOADS=(
spec/stdlib.sx
lib/r7rs.sx
lib/apl/runtime.sx
lib/apl/tokenizer.sx
lib/apl/parser.sx
lib/apl/transpile.sx
lib/apl/test-harness.sx
)
SUITES=(
"structural:lib/apl/tests/structural.sx"
"operators:lib/apl/tests/operators.sx"
"dfn:lib/apl/tests/dfn.sx"
"tradfn:lib/apl/tests/tradfn.sx"
"valence:lib/apl/tests/valence.sx"
"programs:lib/apl/tests/programs.sx"
"system:lib/apl/tests/system.sx"
"idioms:lib/apl/tests/idioms.sx"
"eval-ops:lib/apl/tests/eval-ops.sx"
"pipeline:lib/apl/tests/pipeline.sx"
)
emit_scoreboard_json() {
local n=${#GC_NAMES[@]} i sep
printf '{\n'
printf ' "suites": {\n'
for ((i=0; i<n; i++)); do
sep=","; [ $i -eq $((n-1)) ] && sep=""
printf ' "%s": {"pass": %d, "fail": %d}%s\n' \
"${GC_NAMES[$i]}" "${GC_PASS[$i]}" "${GC_FAIL[$i]}" "$sep"
done
printf ' },\n'
printf ' "total_pass": %d,\n' "$GC_TOTAL_PASS"
printf ' "total_fail": %d,\n' "$GC_TOTAL_FAIL"
printf ' "total": %d\n' "$GC_TOTAL"
printf '}\n'
}
emit_scoreboard_md() {
local n=${#GC_NAMES[@]} i
printf '# APL Conformance Scoreboard\n\n'
printf '_Generated by `lib/apl/conformance.sh`_\n\n'
printf '| Suite | Pass | Fail | Total |\n'
printf '|-------|-----:|-----:|------:|\n'
for ((i=0; i<n; i++)); do
printf '| %s | %d | %d | %d |\n' \
"${GC_NAMES[$i]}" "${GC_PASS[$i]}" "${GC_FAIL[$i]}" "${GC_TOTAL_S[$i]}"
done
printf '| **Total** | **%d** | **%d** | **%d** |\n' "$GC_TOTAL_PASS" "$GC_TOTAL_FAIL" "$GC_TOTAL"
printf '\n'
printf '## Notes\n\n'
printf '%s\n' '- Suites use the standard `apl-test name got expected` framework loaded against `lib/apl/runtime.sx` + `lib/apl/transpile.sx`.'
printf '%s\n' '- `lib/apl/tests/parse.sx` and `lib/apl/tests/scalar.sx` use their own self-contained frameworks and are excluded from this scoreboard.'
}

119
lib/apl/conformance.sh
View File

@@ -1,116 +1,5 @@
#!/usr/bin/env bash #!/usr/bin/env bash
# lib/apl/conformance.sh — run APL test suites, emit scoreboard.json + scoreboard.md. # lib/apl/conformance.sh — APL conformance via the shared guest driver.
# Config lives in lib/apl/conformance.conf (MODE=counters). Override the binary
set -uo pipefail # with SX_SERVER=path/to/sx_server.exe bash lib/apl/conformance.sh
cd "$(git rev-parse --show-toplevel)" exec bash "$(dirname "$0")/../guest/conformance.sh" "$(dirname "$0")/conformance.conf" "$@"
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=(structural operators dfn tradfn valence programs system idioms eval-ops pipeline)
OUT_JSON="lib/apl/scoreboard.json"
OUT_MD="lib/apl/scoreboard.md"
run_suite() {
local suite=$1
local file="lib/apl/tests/${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/apl/tokenizer.sx")
(load "lib/apl/parser.sx")
(load "lib/apl/transpile.sx")
(epoch 2)
(eval "(define apl-test-pass 0)")
(eval "(define apl-test-fail 0)")
(eval "(define apl-test (fn (name got expected) (if (= got expected) (set! apl-test-pass (+ apl-test-pass 1)) (set! apl-test-fail (+ apl-test-fail 1)))))")
(epoch 3)
(load "${file}")
(epoch 4)
(eval "(list apl-test-pass apl-test-fail)")
EPOCHS
local OUTPUT
OUTPUT=$(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} ${F}"
}
declare -A SUITE_PASS
declare -A SUITE_FAIL
TOTAL_PASS=0
TOTAL_FAIL=0
echo "Running APL conformance suite..." >&2
for s in "${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 '# APL Conformance Scoreboard\n\n'
printf '_Generated by `lib/apl/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))"
printf '\n'
printf '## Notes\n\n'
printf '%s\n' '- Suites use the standard `apl-test name got expected` framework loaded against `lib/apl/runtime.sx` + `lib/apl/transpile.sx`.'
printf '%s\n' '- `lib/apl/tests/parse.sx` and `lib/apl/tests/scalar.sx` use their own self-contained frameworks and are excluded from this scoreboard.'
} > "$OUT_MD"
echo "Wrote $OUT_JSON and $OUT_MD" >&2
echo "Total: $TOTAL_PASS pass, $TOTAL_FAIL fail" >&2
[ "$TOTAL_FAIL" -eq 0 ]

6
lib/apl/scoreboard.json
View File

@@ -9,9 +9,9 @@
"system": {"pass": 13, "fail": 0}, "system": {"pass": 13, "fail": 0},
"idioms": {"pass": 64, "fail": 0}, "idioms": {"pass": 64, "fail": 0},
"eval-ops": {"pass": 14, "fail": 0}, "eval-ops": {"pass": 14, "fail": 0},
"pipeline": {"pass": 40, "fail": 0} "pipeline": {"pass": 152, "fail": 0}
}, },
"total_pass": 450, "total_pass": 562,
"total_fail": 0, "total_fail": 0,
"total": 450 "total": 562
} }

4
lib/apl/scoreboard.md
View File

@@ -13,8 +13,8 @@ _Generated by `lib/apl/conformance.sh`_
| system | 13 | 0 | 13 | | system | 13 | 0 | 13 |
| idioms | 64 | 0 | 64 | | idioms | 64 | 0 | 64 |
| eval-ops | 14 | 0 | 14 | | eval-ops | 14 | 0 | 14 |
| pipeline | 40 | 0 | 40 | | pipeline | 152 | 0 | 152 |
| **Total** | **450** | **0** | **450** | | **Total** | **562** | **0** | **562** |
## Notes ## Notes

15
lib/apl/test-harness.sx Normal file
View File

@@ -0,0 +1,15 @@
; lib/apl/test-harness.sx — counters + assertion fn for the shared conformance
; driver (lib/guest/conformance.sh, MODE=counters). Loaded as a PRELOAD so each
; suite starts from a fresh 0/0; suites call (apl-test name got expected).
(define apl-test-pass 0)
(define apl-test-fail 0)
(define
apl-test
(fn
(name got expected)
(if
(= got expected)
(set! apl-test-pass (+ apl-test-pass 1))
(set! apl-test-fail (+ apl-test-fail 1)))))

251
lib/events/api.sx Normal file
View File

@@ -0,0 +1,251 @@
;; lib/events/api.sx — public events surface over calendar + availability.
;;
;; A `store` is an immutable value holding scheduled events and (in-memory)
;; bookings:
;;
;; {:events (event ...) :bookings ((actor key) ...)}
;;
;; The in-memory `:bookings` list supports pure, value-level queries. The
;; DURABLE booking path (ev/*-occ! and ev/*-p) keeps bookings in persist
;; streams via booking.sx — capacity-safe, cancellable, replayable — and
;; derives availability from those streams. Use the persist path for real
;; bookings; the in-memory path for projections and tests.
;;
;; All queries are windowed: agenda/free/next-free expand recurring events into
;; concrete occurrences within an explicit (or derived) window before running
;; the Datalog availability rules.
(define ev/store (fn (events bookings) {:bookings bookings :events events}))
(define ev/empty (fn () (ev/store (list) (list))))
(define ev/events (fn (store) (get store :events)))
(define ev/bookings (fn (store) (get store :bookings)))
;; Add a (constructed) event to the store.
(define
ev/add-event
(fn
(store event)
(ev/store (cons event (ev/events store)) (ev/bookings store))))
;; Schedule a fresh event from parts, returning the updated store. rrule may be
;; nil for a one-off. (Booking is separate — see ev/book.)
(define
ev/schedule
(fn
(store id dtstart duration rrule capacity)
(ev/add-event store (ev-event id dtstart duration rrule capacity))))
;; Record that `actor` holds the occurrence with `key` (in-memory only — see
;; ev/book-occ! for the durable, capacity-safe path).
(define
ev/book
(fn
(store actor key)
(ev/store
(ev/events store)
(cons (list actor key) (ev/bookings store)))))
;; The event with `id`, or nil.
(define
ev/event-by-id
(fn
(store id)
(reduce
(fn
(found ev)
(if (nil? found) (if (= (get ev :id) id) ev found) found))
nil
(ev/events store))))
;; Capacity of the event an occurrence belongs to (0 if unknown).
(define
ev/capacity-of
(fn
(store occ)
(let
((ev (ev/event-by-id store (get occ :id))))
(if (nil? ev) 0 (get ev :capacity)))))
;; The maximum event duration in the store (0 when empty) — used to widen
;; expansion windows so any occurrence overlapping a query is captured.
(define
ev/store-max-duration
(fn
(store)
(reduce
(fn (m ev) (max m (get ev :duration)))
0
(ev/events store))))
;; All occurrences across all events within [ws, we), ascending by start.
(define
ev/agenda
(fn (store ws we) (ev-expand-all (ev/events store) ws we)))
(define
ev-key-member?
(fn
(k keys)
(cond
((empty? keys) false)
((= k (first keys)) true)
(else (ev-key-member? k (rest keys))))))
;; Occurrence keys `actor` has booked (in-memory store).
(define
ev/actor-keys
(fn
(store actor)
(reduce
(fn
(acc b)
(if (= (first b) actor) (cons (first (rest b)) acc) acc))
(list)
(ev/bookings store))))
;; The agenda restricted to occurrences `actor` is booked into (in-memory).
(define
ev/agenda-for
(fn
(store actor ws we)
(let
((keys (ev/actor-keys store actor)))
(filter
(fn (o) (ev-key-member? (ev-occ-key o) keys))
(ev/agenda store ws we)))))
;; Build an availability db over occurrences expanded in [ws, we) using the
;; in-memory bookings.
(define
ev/avail-window-db
(fn
(store ws we)
(ev-avail-db (ev/agenda store ws we) (ev/bookings store))))
;; Is `actor` free across [qs, qe)? Expands a window wide enough (back by the
;; longest event) to capture any occurrence that could overlap.
(define
ev/free?
(fn
(store actor qs qe)
(ev-free?
(ev/avail-window-db store (- qs (ev/store-max-duration store)) qe)
actor
qs
qe)))
;; Earliest free slot of `duration` for `actor` in [after, horizon), or nil.
(define
ev/next-free
(fn
(store actor after duration horizon)
(ev-next-free
(ev/avail-window-db
store
(- after (ev/store-max-duration store))
horizon)
actor
after
duration
horizon)))
;; Overlapping double-bookings for `actor` among occurrences in [ws, we).
(define
ev/conflicts
(fn
(store actor ws we)
(ev-conflicts (ev/avail-window-db store ws we) actor)))
(define
ev/has-conflict?
(fn
(store actor ws we)
(> (len (ev/conflicts store actor ws we)) 0)))
;; ---- durable, persist-backed booking path ----
;; These take a persist backend `b` (persist/open) plus the schedule `store`.
;; Bookings live in per-occurrence streams (booking.sx); availability is derived
;; by replaying those streams for the occurrences in the query window.
;; Durably book `actor` into occurrence `occ` (dict {:id :start :end}),
;; capacity-safe. Returns the booking.sx result (:booked / :full / :already).
(define
ev/book-occ!
(fn
(b store actor occ)
(ev/book! b (ev-occ-key occ) (ev/capacity-of store occ) actor)))
;; Durably cancel `actor`'s seat on `occ`, freeing capacity.
(define
ev/cancel-occ!
(fn (b store actor occ) (ev/cancel! b (ev-occ-key occ) actor)))
;; Live roster / seats-left for a specific occurrence from persist.
(define ev/roster-occ (fn (b occ) (ev/roster b (ev-occ-key occ))))
(define
ev/seats-left-occ
(fn
(b store occ)
(ev/seats-left b (ev-occ-key occ) (ev/capacity-of store occ))))
;; Derive (actor key) booking pairs from the persist rosters of `occs`.
(define
ev/persist-bookings
(fn
(b occs)
(reduce
(fn
(acc occ)
(let
((key (ev-occ-key occ)))
(append
acc
(map (fn (actor) (list actor key)) (ev/roster b key)))))
(list)
occs)))
;; Availability db over [ws, we) with bookings sourced from persist streams.
(define
ev/avail-db-p
(fn
(b store ws we)
(let
((occs (ev/agenda store ws we)))
(ev-avail-db occs (ev/persist-bookings b occs)))))
;; Persist-backed availability queries (mirror the in-memory ev/free? etc).
(define
ev/free-p?
(fn
(b store actor qs qe)
(ev-free?
(ev/avail-db-p b store (- qs (ev/store-max-duration store)) qe)
actor
qs
qe)))
(define
ev/next-free-p
(fn
(b store actor after duration horizon)
(ev-next-free
(ev/avail-db-p b store (- after (ev/store-max-duration store)) horizon)
actor
after
duration
horizon)))
(define
ev/conflicts-p
(fn
(b store actor ws we)
(ev-conflicts (ev/avail-db-p b store ws we) actor)))
(define
ev/has-conflict-p?
(fn
(b store actor ws we)
(> (len (ev/conflicts-p b store actor ws we)) 0)))

177
lib/events/availability.sx Normal file
View File

@@ -0,0 +1,177 @@
;; lib/events/availability.sx — free/busy + conflict detection on Datalog.
;;
;; Availability is per-actor and is forward-chained Datalog over two EDB
;; relations:
;;
;; (occurrence Key EventId Start End) ; an expanded calendar occurrence
;; (booking Actor Key) ; actor attends/holds that occurrence
;;
;; The derived relations are the whole policy:
;;
;; busy(A,S,E) — A is committed for [S,E) (a booked occurrence)
;; conflict(A,O1,O2) — A double-booked into two overlapping occurrences
;; busy_in(A,QS,QE) — A is busy somewhere inside query window [QS,QE)
;;
;; Intervals are half-open [Start,End) in epoch minutes (see calendar.sx), so
;; adjacent slots (E == next start) do NOT conflict. Conflict pairs are
;; canonical (O1 < O2 by key) so each overlap is reported once. The same `busy`
;; rule answers "is A free in [QS,QE)?" (busy_in is empty) and feeds "when is A
;; next free?" (ev-next-free probes candidate slots with the same rule).
;; A stable key for an occurrence dict {:id :start :end}.
(define ev-occ-key (fn (occ) (str (get occ :id) "@" (get occ :start))))
(define
ev-occurrence-fact
(fn
(occ)
(list
(quote occurrence)
(ev-occ-key occ)
(get occ :id)
(get occ :start)
(get occ :end))))
(define ev-occurrence-facts (fn (occs) (map ev-occurrence-fact occs)))
(define ev-booking-fact (fn (actor key) (list (quote booking) actor key)))
(define ev-qwindow-fact (fn (qs qe) (list (quote qwindow) qs qe)))
;; Range restriction: each comparison's variables are bound by an earlier
;; positive literal (qwindow / busy precede the < tests). Conflict uses
;; (< O1 O2) on the keys so each overlapping pair is reported once.
(define
ev-avail-rules
(quote
((busy A S E <- (booking A O) (occurrence O _ S E))
(conflict
A
O1
O2
<-
(booking A O1)
(booking A O2)
(occurrence O1 _ S1 E1)
(occurrence O2 _ S2 E2)
(< O1 O2)
(< S1 E2)
(< S2 E1))
(busy_in A QS QE <- (qwindow QS QE) (busy A S E) (< S QE) (< QS E)))))
;; Build a Datalog db from EDB facts under the availability ruleset.
(define ev-build-avail (fn (facts) (dl-program-data facts ev-avail-rules)))
;; Convenience: build a db from occurrence dicts + booking pairs.
;; bookings is a list of (actor key) pairs.
(define
ev-avail-db
(fn
(occs bookings)
(ev-build-avail
(append
(ev-occurrence-facts occs)
(map
(fn (b) (ev-booking-fact (first b) (first (rest b))))
bookings)))))
;; Helper: insertion sort a list of (S E ...) lists ascending by S then E.
(define
ev-list-before?
(fn
(a b)
(cond
((< (first a) (first b)) true)
((> (first a) (first b)) false)
(else (< (first (rest a)) (first (rest b)))))))
(define
ev-list-insert
(fn
(x sorted)
(cond
((empty? sorted) (list x))
((ev-list-before? x (first sorted)) (cons x sorted))
(else (cons (first sorted) (ev-list-insert x (rest sorted)))))))
(define
ev-sort-lists
(fn (xs) (reduce (fn (acc x) (ev-list-insert x acc)) (list) xs)))
(define
ev-dedup-sorted
(fn
(xs)
(cond
((empty? xs) xs)
((empty? (rest xs)) xs)
((= (first xs) (first (rest xs))) (ev-dedup-sorted (rest xs)))
(else (cons (first xs) (ev-dedup-sorted (rest xs)))))))
;; All busy intervals (list S E) for an actor, ascending by start.
(define
ev-busy
(fn
(db actor)
(let
((rows (dl-query db (list (quote busy) actor (quote S) (quote E)))))
(ev-sort-lists (map (fn (b) (list (get b :S) (get b :E))) rows)))))
;; Distinct conflicting occurrence-key pairs for an actor (each pair once).
(define
ev-conflicts
(fn
(db actor)
(dl-query db (list (quote conflict) actor (quote O1) (quote O2)))))
(define
ev-has-conflict?
(fn (db actor) (> (len (ev-conflicts db actor)) 0)))
;; Is `actor` free across the whole window [qs,qe)? (no booked occurrence
;; overlaps it). Asserts a transient qwindow fact, queries, retracts.
(define
ev-free?
(fn
(db actor qs qe)
(do
(dl-assert! db (ev-qwindow-fact qs qe))
(let
((rows (dl-query db (list (quote busy_in) actor (quote QS) (quote QE)))))
(begin (dl-retract! db (ev-qwindow-fact qs qe)) (empty? rows))))))
;; ---- next-free slot search ----
;; The earliest start s >= `after` such that [s, s+duration) is entirely free
;; for `actor` and ends at or before `horizon`, or nil if none. The earliest
;; such slot must begin either at `after` or immediately after some busy
;; interval ends (classic interval packing), so those are the only candidates
;; we probe — each probe reuses the busy_in rule via ev-free?.
(define
ev-first-free
(fn
(db actor cands duration horizon)
(cond
((empty? cands) nil)
(else
(let
((s (first cands)))
(if
(and
(<= (+ s duration) horizon)
(ev-free? db actor s (+ s duration)))
s
(ev-first-free db actor (rest cands) duration horizon)))))))
(define
ev-next-free
(fn
(db actor after duration horizon)
(let
((ends (filter (fn (e) (>= e after)) (map (fn (iv) (first (rest iv))) (ev-busy db actor)))))
(ev-first-free
db
actor
(ev-dedup-sorted (sort (cons after ends)))
duration
horizon))))

271
lib/events/booking.sx Normal file
View File

@@ -0,0 +1,271 @@
;; lib/events/booking.sx — transactional, capacity-safe booking on persist.
;;
;; Each bookable occurrence has an append-only stream of booking events:
;;
;; :booking free booking — actor immediately holds a confirmed seat
;; :hold provisional hold — seat reserved while payment is pending
;; :confirm a held seat becomes confirmed (payment succeeded)
;; :release a held seat is abandoned (payment failed/expired) — seat freed
;; :cancel a held or confirmed seat is given up — seat freed
;;
;; The live state is the stream FOLDED in order into per-actor seat states
;; (:held / :confirmed); an actor in ANY state occupies a seat, so both held and
;; confirmed seats count toward capacity — a pending payment cannot be
;; oversold. A freed seat (release/cancel) reopens capacity.
;;
;; Capacity safety is the contract: two writers racing for the last seat must
;; NEVER both succeed. Seat-ACQUIRING writes (:booking, :hold) go through
;; persist's optimistic concurrency — `persist/append-expect` appends only if
;; the stream's last-seq still equals what the writer observed; else it returns
;; a conflict the writer retries. Seat-FREEING writes (:cancel, :release) and
;; the state transition (:confirm) never oversell, so they append directly.
(define ev-booking-stream (fn (occ-key) (str "booking:" occ-key)))
(define
ev-bk-member?
(fn
(x xs)
(cond
((empty? xs) false)
((= x (first xs)) true)
(else (ev-bk-member? x (rest xs))))))
(define
ev-bk-index
(fn
(xs x i)
(cond
((empty? xs) -1)
((= (first xs) x) i)
(else (ev-bk-index (rest xs) x (+ i 1))))))
;; ---- per-actor state association list: ((actor state) ...) in join order ----
(define
ev-state-has?
(fn
(states actor)
(cond
((empty? states) false)
((= (first (first states)) actor) true)
(else (ev-state-has? (rest states) actor)))))
(define
ev-state-get
(fn
(states actor)
(cond
((empty? states) :none)
((= (first (first states)) actor) (first (rest (first states))))
(else (ev-state-get (rest states) actor)))))
(define
ev-state-del
(fn (states actor) (filter (fn (p) (not (= (first p) actor))) states)))
(define
ev-state-set
(fn
(states actor st)
(if
(ev-state-has? states actor)
(map (fn (p) (if (= (first p) actor) (list actor st) p)) states)
(append states (list (list actor st))))))
;; Fold the booking stream into per-actor seat states (join order preserved).
(define
ev-fold-states
(fn
(events)
(reduce
(fn
(acc e)
(let
((typ (persist/event-type e))
(actor (get (persist/event-data e) :actor)))
(cond
((= typ :booking) (ev-state-set acc actor :confirmed))
((= typ :hold) (ev-state-set acc actor :held))
((= typ :confirm)
(if
(ev-state-has? acc actor)
(ev-state-set acc actor :confirmed)
acc))
((= typ :cancel) (ev-state-del acc actor))
((= typ :release) (ev-state-del acc actor))
(else acc))))
(list)
events)))
(define
ev-states-of
(fn
(b occ-key)
(ev-fold-states (persist/read b (ev-booking-stream occ-key)))))
;; Live roster (actors holding a seat — held or confirmed), oldest active first.
(define
ev-booked-actors
(fn (b occ-key) (map (fn (p) (first p)) (ev-states-of b occ-key))))
(define
ev-actor-booked?
(fn (b occ-key actor) (ev-bk-member? actor (ev-booked-actors b occ-key))))
;; Live seat count (folded roster size — both held and confirmed seats).
(define
ev-booking-count
(fn (b occ-key) (len (ev-booked-actors b occ-key))))
;; Seat state for an actor: :held / :confirmed / :none.
(define
ev/seat-state
(fn (b occ-key actor) (ev-state-get (ev-states-of b occ-key) actor)))
;; 1-based seat number for an actor on the roster (0 if not booked).
(define
ev-seat-of
(fn
(actors actor)
(let
((i (ev-bk-index actors actor 0)))
(if (< i 0) 0 (+ i 1)))))
;; ---- seat-acquiring writes (capacity-guarded via append-expect) ----
;; One seat-acquiring attempt of `kind` (:booking or :hold) against an OBSERVED
;; snapshot (roster the writer saw + the last-seq). Returns :already / :full /
;; :conflict, or a success dict tagged with `ok-status`. :conflict means a
;; concurrent append landed since the snapshot — the caller must re-observe.
(define
ev-acquire-with-observed
(fn
(b occ-key capacity actor observed-actors expected kind ok-status)
(cond
((ev-bk-member? actor observed-actors) {:seat (ev-seat-of observed-actors actor) :actor actor :status :already})
((>= (len observed-actors) capacity) {:actor actor :capacity capacity :status :full})
(else
(let
((r (persist/append-expect b (ev-booking-stream occ-key) expected kind 0 {:actor actor})))
(if (persist/conflict? r) {:actual (persist/conflict-actual r) :actor actor :status :conflict} {:seat (+ (len observed-actors) 1) :actor actor :status ok-status}))))))
(define
ev-acquire!
(fn
(b occ-key capacity actor kind ok-status)
(let
((res (ev-acquire-with-observed b occ-key capacity actor (ev-booked-actors b occ-key) (persist/last-seq b (ev-booking-stream occ-key)) kind ok-status)))
(if
(= (get res :status) :conflict)
(ev-acquire! b occ-key capacity actor kind ok-status)
res))))
;; Capacity-safe confirmed booking (retrying on conflict).
(define
ev/book!
(fn
(b occ-key capacity actor)
(ev-acquire! b occ-key capacity actor :booking :booked)))
;; Capacity-safe provisional hold (retrying on conflict). The seat is reserved
;; (counts toward capacity) until confirmed or released.
(define
ev/hold!
(fn
(b occ-key capacity actor)
(ev-acquire! b occ-key capacity actor :hold :held)))
;; Test seam: one attempt against a caller-supplied snapshot (book or hold).
(define
ev/book-with-observed
(fn
(b occ-key capacity actor observed-actors expected)
(ev-acquire-with-observed
b
occ-key
capacity
actor
observed-actors
expected
:booking :booked)))
(define
ev/hold-with-observed
(fn
(b occ-key capacity actor observed-actors expected)
(ev-acquire-with-observed
b
occ-key
capacity
actor
observed-actors
expected
:hold :held)))
;; ---- state transitions / seat-freeing writes (no oversell, append direct) ----
;; Confirm a held seat (payment succeeded). :confirmed on success,
;; :already-confirmed if it was confirmed, :not-held otherwise.
(define
ev/confirm!
(fn
(b occ-key actor)
(let
((st (ev/seat-state b occ-key actor)))
(cond
((= st :held)
(begin
(persist/append
b
(ev-booking-stream occ-key)
:confirm 0
{:actor actor})
{:actor actor :status :confirmed}))
((= st :confirmed) {:actor actor :status :already-confirmed})
(else {:actor actor :status :not-held})))))
;; Release a held seat (payment failed/expired), freeing it. Only valid for a
;; held seat — confirmed bookings are given up via ev/cancel!.
(define
ev/release!
(fn
(b occ-key actor)
(let
((st (ev/seat-state b occ-key actor)))
(if
(= st :held)
(begin
(persist/append
b
(ev-booking-stream occ-key)
:release 0
{:actor actor})
{:actor actor :status :released})
{:actor actor :status :not-held}))))
;; Cancel a held or confirmed seat, freeing it. :cancelled or :not-booked.
(define
ev/cancel!
(fn
(b occ-key actor)
(if
(ev-bk-member? actor (ev-booked-actors b occ-key))
(begin
(persist/append
b
(ev-booking-stream occ-key)
:cancel 0
{:actor actor})
{:actor actor :status :cancelled})
{:actor actor :status :not-booked})))
;; The roster as a plain list of actors (oldest active first).
(define ev/roster (fn (b occ-key) (ev-booked-actors b occ-key)))
;; Seats remaining for an occurrence of the given capacity.
(define
ev/seats-left
(fn
(b occ-key capacity)
(max 0 (- capacity (ev-booking-count b occ-key)))))

468
lib/events/calendar.sx Normal file
View File

@@ -0,0 +1,468 @@
;; lib/events/calendar.sx — civil date arithmetic + RRULE expansion in a window.
;;
;; Datetimes are integer "epoch minutes": days-since-1970-01-01 * 1440 plus
;; minute-of-day. Ordering, window bounds, and durations are plain integer
;; arithmetic. Civil <-> day-number conversion uses Howard Hinnant's algorithm
;; (exact, branch-free, correct for the proleptic Gregorian calendar).
;;
;; RRULE expansion is the bridge to Datalog: a recurring event expands to a
;; bounded list of occurrence dicts within an explicit (win-start, win-end)
;; window. Expansion is ALWAYS windowed — an RRULE without a window is an
;; infinite computation and is never permitted. Supported subset (RFC 5545):
;; FREQ=DAILY|WEEKLY|MONTHLY, INTERVAL, COUNT, UNTIL, BYDAY (weekly: weekday
;; numbers; monthly: {:ord N :wd W} ordinal weekdays), BYMONTHDAY (monthly,
;; negative = from month end). YEARLY and the rest are deferred.
;; ---- integer helpers ----
;; Floored integer division (modulo is already floored, so the remainder
;; subtraction makes the quotient exact and floor-correct for any sign).
(define ev-floor-div (fn (a b) (quotient (- a (modulo a b)) b)))
(define ev-or (fn (x d) (if (nil? x) d x)))
(define ev-filter-nil (fn (xs) (filter (fn (x) (not (nil? x))) xs)))
;; ---- civil date core (Hinnant) ----
;; Days since 1970-01-01 for civil (y, m, d). m in [1,12], d in [1,31].
(define
ev-days-from-civil
(fn
(y0 m d)
(let
((y (if (<= m 2) (- y0 1) y0)))
(let
((era (ev-floor-div (if (>= y 0) y (- y 399)) 400)))
(let
((yoe (- y (* era 400)))
(doy
(+
(ev-floor-div
(+
(*
153
(+ m (if (> m 2) -3 9)))
2)
5)
(- d 1))))
(let
((doe (+ (* yoe 365) (ev-floor-div yoe 4) (- (ev-floor-div yoe 100)) doy)))
(+ (* era 146097) doe -719468)))))))
;; Civil (y m d) list from a day-number.
(define
ev-civil-from-days
(fn
(z0)
(let
((z (+ z0 719468)))
(let
((era (ev-floor-div (if (>= z 0) z (- z 146096)) 146097)))
(let
((doe (- z (* era 146097))))
(let
((yoe (ev-floor-div (+ (- doe (ev-floor-div doe 1460)) (ev-floor-div doe 36524) (- (ev-floor-div doe 146096))) 365)))
(let
((y (+ yoe (* era 400)))
(doy
(-
doe
(+
(* 365 yoe)
(ev-floor-div yoe 4)
(- (ev-floor-div yoe 100))))))
(let
((mp (ev-floor-div (+ (* 5 doy) 2) 153)))
(let
((d (+ (- doy (ev-floor-div (+ (* 153 mp) 2) 5)) 1))
(m
(if
(< mp 10)
(+ mp 3)
(- mp 9))))
(list (if (<= m 2) (+ y 1) y) m d))))))))))
;; Weekday of a day-number: 0=Mon .. 6=Sun (1970-01-01 is Thursday = 3).
(define ev-weekday-of-days (fn (z) (modulo (+ z 3) 7)))
(define
ev-days-in-month
(fn
(y m)
(-
(ev-days-from-civil
(if (= m 12) (+ y 1) y)
(if (= m 12) 1 (+ m 1))
1)
(ev-days-from-civil y m 1))))
;; Add k months to (y,m), returning (list y2 m2).
(define
ev-add-months
(fn
(y m k)
(let
((total (+ (* y 12) (- m 1) k)))
(list
(ev-floor-div total 12)
(+ (modulo total 12) 1)))))
;; ---- datetime (epoch minutes) ----
(define
ev-dt
(fn
(y m d hh mm)
(+ (* (ev-days-from-civil y m d) 1440) (* hh 60) mm)))
(define ev-date (fn (y m d) (ev-dt y m d 0 0)))
(define ev-dt->days (fn (t) (ev-floor-div t 1440)))
(define ev-dt->civil (fn (t) (ev-civil-from-days (ev-dt->days t))))
(define ev-dt-weekday (fn (t) (ev-weekday-of-days (ev-dt->days t))))
(define ev-dt-tod (fn (t) (modulo t 1440)))
(define ev-civ-y (fn (c) (first c)))
(define ev-civ-m (fn (c) (first (rest c))))
(define ev-civ-d (fn (c) (first (rest (rest c)))))
;; ---- event + occurrence constructors ----
;; rrule is nil (single event) or a dict:
;; {:freq :daily|:weekly|:monthly :interval N :count N|nil :until DT|nil
;; :byday ...|nil :bymonthday (list 15 -1)|nil}
;; weekly :byday -> (list 0 2 4) weekday numbers, 0=Mon
;; monthly :byday -> (list {:ord 2 :wd 1}) nth weekday (ord<0 from end)
;; monthly :bymonthday -> (list 15 -1) day of month (negative from end)
(define ev-event (fn (id dtstart duration rrule capacity) {:duration duration :id id :dtstart dtstart :capacity capacity :rrule rrule}))
(define ev-occ (fn (id start dur) {:id id :start start :end (+ start dur)}))
;; ---- DAILY expansion ----
;; occ starts at dtstart; n counts every generated occurrence (window-
;; independent, so COUNT/UNTIL bound the rule, not the view). Emits only
;; occurrences inside [win-start, win-end].
(define
ev-daily-loop
(fn
(id occ duration step count until dtstart win-start win-end acc n)
(cond
((> occ win-end) acc)
((and (not (nil? count)) (>= n count)) acc)
((and (not (nil? until)) (> occ until)) acc)
(else
(begin
(when (>= occ win-start) (append! acc (ev-occ id occ duration)))
(ev-daily-loop
id
(+ occ step)
duration
step
count
until
dtstart
win-start
win-end
acc
(+ n 1)))))))
;; ---- shared per-period emit ----
;; Walk a start-ascending list of candidate occurrence datetimes for one
;; period, generating (count toward COUNT) those >= dtstart within UNTIL, and
;; emitting those also inside the window. Returns the updated running n.
(define
ev-emit-occs
(fn
(id occs duration count until dtstart win-start win-end acc n)
(if
(empty? occs)
n
(let
((occ (first occs)))
(let
((generates? (and (>= occ dtstart) (or (nil? until) (<= occ until)) (or (nil? count) (< n count)))))
(begin
(when
(and generates? (>= occ win-start) (<= occ win-end))
(append! acc (ev-occ id occ duration)))
(ev-emit-occs
id
(rest occs)
duration
count
until
dtstart
win-start
win-end
acc
(if generates? (+ n 1) n))))))))
;; ---- WEEKLY expansion ----
;; Iterate week by week from the Monday of dtstart's week; within each active
;; week emit each BYDAY (sorted). n counts every generated occurrence.
(define
ev-week0-days
(fn (dtstart) (- (ev-dt->days dtstart) (ev-dt-weekday dtstart))))
(define
ev-byday-default
(fn
(byday dtstart)
(if (nil? byday) (list (ev-dt-weekday dtstart)) (sort byday))))
(define
ev-weekly-loop
(fn
(id
week-days
tod
duration
week-step
bd
count
until
dtstart
win-start
win-end
acc
n)
(let
((week-start-dt (* week-days 1440)))
(cond
((> week-start-dt win-end) acc)
((and (not (nil? count)) (>= n count)) acc)
(else
(let
((occs (map (fn (wd) (+ (* (+ week-days wd) 1440) tod)) bd)))
(let
((n2 (ev-emit-occs id occs duration count until dtstart win-start win-end acc n)))
(ev-weekly-loop
id
(+ week-days week-step)
tod
duration
week-step
bd
count
until
dtstart
win-start
win-end
acc
n2))))))))
;; ---- MONTHLY expansion ----
;; Iterate month by month from dtstart's month, stepping by INTERVAL months.
;; Candidate days per month come from BYMONTHDAY, then ordinal BYDAY, else the
;; day-of-month of dtstart (skipped in months too short to contain it).
;; Resolve a BYMONTHDAY value to a valid day-of-month, or nil.
(define
ev-resolve-monthday
(fn
(y m bmd)
(let
((dim (ev-days-in-month y m)))
(let
((day (if (< bmd 0) (+ dim 1 bmd) bmd)))
(if (and (>= day 1) (<= day dim)) day nil)))))
;; Resolve an ordinal weekday {:ord :wd} to a day-of-month, or nil.
(define
ev-resolve-nth-weekday
(fn
(y m ord wd)
(let
((dim (ev-days-in-month y m)))
(if
(> ord 0)
(let
((first-wd (ev-weekday-of-days (ev-days-from-civil y m 1))))
(let
((day (+ 1 (modulo (- wd first-wd) 7) (* (- ord 1) 7))))
(if (<= day dim) day nil)))
(let
((last-wd (ev-weekday-of-days (ev-days-from-civil y m dim))))
(let
((day (- dim (modulo (- last-wd wd) 7) (* (- (- ord) 1) 7))))
(if (>= day 1) day nil)))))))
(define
ev-month-candidates
(fn
(y m rrule dtstart)
(let
((bmd (get rrule :bymonthday)) (byday (get rrule :byday)))
(cond
((not (nil? bmd))
(ev-filter-nil (map (fn (d) (ev-resolve-monthday y m d)) bmd)))
((not (nil? byday))
(ev-filter-nil
(map
(fn
(e)
(ev-resolve-nth-weekday y m (get e :ord) (get e :wd)))
byday)))
(else
(ev-filter-nil
(list
(ev-resolve-monthday y m (ev-civ-d (ev-dt->civil dtstart))))))))))
(define
ev-monthly-loop
(fn
(id
y
m
rrule
duration
tod
interval
count
until
dtstart
win-start
win-end
acc
n)
(let
((month-start (ev-dt y m 1 0 0)))
(cond
((> month-start win-end) acc)
((and (not (nil? count)) (>= n count)) acc)
(else
(let
((days (sort (ev-month-candidates y m rrule dtstart))))
(let
((occs (map (fn (d) (+ (* (ev-days-from-civil y m d) 1440) tod)) days)))
(let
((n2 (ev-emit-occs id occs duration count until dtstart win-start win-end acc n))
(nm (ev-add-months y m interval)))
(ev-monthly-loop
id
(ev-civ-y nm)
(ev-civ-m nm)
rrule
duration
tod
interval
count
until
dtstart
win-start
win-end
acc
n2)))))))))
;; ---- top-level expansion ----
;; Returns a list of occurrence dicts {:id :start :end} within the window.
(define
ev-expand
(fn
(event win-start win-end)
(let
((id (get event :id))
(dtstart (get event :dtstart))
(duration (get event :duration))
(rrule (get event :rrule)))
(if
(nil? rrule)
(if
(and (>= dtstart win-start) (<= dtstart win-end))
(list (ev-occ id dtstart duration))
(list))
(let
((freq (get rrule :freq))
(interval (ev-or (get rrule :interval) 1))
(count (get rrule :count))
(until (get rrule :until))
(byday (get rrule :byday))
(acc (list)))
(begin
(cond
((= freq :daily)
(ev-daily-loop
id
dtstart
duration
(* interval 1440)
count
until
dtstart
win-start
win-end
acc
0))
((= freq :weekly)
(ev-weekly-loop
id
(ev-week0-days dtstart)
(ev-dt-tod dtstart)
duration
(* interval 7)
(ev-byday-default byday dtstart)
count
until
dtstart
win-start
win-end
acc
0))
((= freq :monthly)
(let
((civ (ev-dt->civil dtstart)))
(ev-monthly-loop
id
(ev-civ-y civ)
(ev-civ-m civ)
rrule
duration
(ev-dt-tod dtstart)
interval
count
until
dtstart
win-start
win-end
acc
0)))
(else (error (str "ev-expand: unsupported freq: " freq))))
acc))))))
;; ---- multi-event expansion (sorted by start) ----
;; Insertion of one occurrence into a start-ascending list.
(define
ev-occ-insert
(fn
(o sorted)
(cond
((empty? sorted) (list o))
((<= (get o :start) (get (first sorted) :start)) (cons o sorted))
(else (cons (first sorted) (ev-occ-insert o (rest sorted)))))))
(define
ev-sort-occs
(fn (occs) (reduce (fn (acc o) (ev-occ-insert o acc)) (list) occs)))
;; Expand many events into one occurrence list, ascending by start.
(define
ev-expand-all
(fn
(events win-start win-end)
(let
((acc (list)))
(begin
(for-each
(fn
(ev)
(for-each
(fn (o) (append! acc o))
(ev-expand ev win-start win-end)))
events)
(ev-sort-occs acc)))))

56
lib/events/conformance.conf Normal file
View File

@@ -0,0 +1,56 @@
# events-on-sx conformance config — sourced by lib/guest/conformance.sh.
LANG_NAME=events
MODE=dict
SCOREBOARD_DIR=lib/events
PRELOADS=(
spec/stdlib.sx
lib/r7rs.sx
lib/datalog/tokenizer.sx
lib/datalog/parser.sx
lib/datalog/unify.sx
lib/datalog/db.sx
lib/datalog/builtins.sx
lib/datalog/aggregates.sx
lib/datalog/strata.sx
lib/datalog/eval.sx
lib/datalog/api.sx
lib/datalog/magic.sx
lib/events/calendar.sx
lib/events/availability.sx
lib/persist/event.sx
lib/persist/backend.sx
lib/persist/log.sx
lib/persist/kv.sx
lib/persist/concurrency.sx
lib/persist/api.sx
lib/events/booking.sx
lib/events/ticket.sx
lib/guest/lex.sx
lib/guest/reflective/env.sx
lib/guest/reflective/quoting.sx
lib/scheme/parser.sx
lib/scheme/eval.sx
lib/scheme/runtime.sx
lib/flow/spec.sx
lib/flow/store.sx
lib/flow/remote.sx
lib/flow/host.sx
lib/flow/api.sx
lib/events/notify.sx
lib/events/api.sx
lib/events/reminders.sx
lib/events/federation.sx
)
SUITES=(
"calendar:lib/events/tests/calendar.sx:(ev-calendar-tests-run!)"
"availability:lib/events/tests/availability.sx:(ev-availability-tests-run!)"
"api:lib/events/tests/api.sx:(ev-api-tests-run!)"
"booking:lib/events/tests/booking.sx:(ev-booking-tests-run!)"
"ticket:lib/events/tests/ticket.sx:(ev-ticket-tests-run!)"
"notify:lib/events/tests/notify.sx:(ev-notify-tests-run!)"
"reminders:lib/events/tests/reminders.sx:(ev-reminders-tests-run!)"
"federation:lib/events/tests/federation.sx:(ev-federation-tests-run!)"
)

3
lib/events/conformance.sh Executable file
View File

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

165
lib/events/federation.sx Normal file
View File

@@ -0,0 +1,165 @@
;; lib/events/federation.sx — cross-instance calendar federation (trust-gated).
;;
;; A peer is another events instance that publishes a schedule (an events
;; store). We merge a peer's agenda into ours ONLY if we trust it — trust is a
;; set of peer ids, re-checked on every merge, so revoking a peer takes effect
;; immediately. Merged occurrences carry :origin provenance (:local for ours, or
;; the peer id) so a consumer always knows where a slot came from.
;;
;; This is the trust-gated stub: peers publish plain schedules and we fold the
;; trusted ones into a single sorted agenda. Real transport (fed-sx / signed
;; fetch) slots in behind `ev/peer-agenda` without changing the merge.
;;
;; Federated FREE/BUSY follows the iCal model: a peer publishes BUSY intervals
;; for an actor (not event details — privacy-preserving), and we union local +
;; trusted-peer busy to answer "is this actor free?" across instances.
(define ev/peer (fn (id store) {:id id :busy (list) :store store}))
;; A peer that also publishes free/busy: `busy` is a list of
;; (actor ((start end) ...)) pairs.
(define ev/peer-with-busy (fn (id store busy) {:id id :busy busy :store store}))
(define ev/peer-id (fn (p) (get p :id)))
(define ev/peer-store (fn (p) (get p :store)))
(define ev/peer-busy-table (fn (p) (get p :busy)))
(define
ev-fed-member?
(fn
(x xs)
(cond
((empty? xs) false)
((= x (first xs)) true)
(else (ev-fed-member? x (rest xs))))))
;; Do we trust this peer id? (trust is a list of trusted peer ids.)
(define ev/trusts? (fn (trust peer-id) (ev-fed-member? peer-id trust)))
;; The trusted subset of a peer list.
(define
ev/trusted-peers
(fn
(peers trust)
(filter (fn (p) (ev/trusts? trust (ev/peer-id p))) peers)))
;; Tag occurrences with provenance.
(define ev-tag-origin (fn (occs origin) (map (fn (o) {:id (get o :id) :start (get o :start) :end (get o :end) :origin origin}) occs)))
;; A peer's agenda over [ws, we), tagged with the peer's id as :origin.
(define
ev/peer-agenda
(fn
(peer ws we)
(ev-tag-origin (ev/agenda (ev/peer-store peer) ws we) (ev/peer-id peer))))
;; ---- merge (sorted by start, then origin for ties) ----
(define
ev-fed-before?
(fn
(a c)
(cond
((< (get a :start) (get c :start)) true)
((> (get a :start) (get c :start)) false)
(else (< (str (get a :origin)) (str (get c :origin)))))))
(define
ev-fed-insert
(fn
(x sorted)
(cond
((empty? sorted) (list x))
((ev-fed-before? x (first sorted)) (cons x sorted))
(else (cons (first sorted) (ev-fed-insert x (rest sorted)))))))
(define
ev-fed-sort
(fn (xs) (reduce (fn (acc x) (ev-fed-insert x acc)) (list) xs)))
;; Local agenda (origin :local) merged with every TRUSTED peer's agenda,
;; sorted by start. Untrusted peers contribute nothing.
(define
ev/federated-agenda
(fn
(local-store peers trust ws we)
(let
((acc (list)))
(begin
(for-each
(fn (o) (append! acc o))
(ev-tag-origin (ev/agenda local-store ws we) :local))
(for-each
(fn
(peer)
(when
(ev/trusts? trust (ev/peer-id peer))
(for-each
(fn (o) (append! acc o))
(ev/peer-agenda peer ws we))))
peers)
(ev-fed-sort acc)))))
;; Filter a federated agenda to occurrences from one origin.
(define
ev/from-origin
(fn
(agenda origin)
(filter (fn (o) (= (get o :origin) origin)) agenda)))
;; ---- federated free/busy ----
;; A peer's published busy intervals for `actor` ((start end) ...), or empty.
(define
ev/peer-busy
(fn
(peer actor)
(let
((row (ev-fed-assoc actor (ev/peer-busy-table peer))))
(if (nil? row) (list) (first (rest row))))))
(define
ev-fed-assoc
(fn
(k pairs)
(cond
((empty? pairs) nil)
((= (first (first pairs)) k) (first pairs))
(else (ev-fed-assoc k (rest pairs))))))
;; All busy intervals for `actor` across the LOCAL availability db plus every
;; TRUSTED peer's published free/busy, merged and sorted by start.
;; `local-db` is an availability db (see availability.sx ev-build-avail).
(define
ev/federated-busy
(fn
(local-db peers trust actor)
(let
((acc (list)))
(begin
(for-each (fn (iv) (append! acc iv)) (ev-busy local-db actor))
(for-each
(fn
(peer)
(when
(ev/trusts? trust (ev/peer-id peer))
(for-each
(fn (iv) (append! acc iv))
(ev/peer-busy peer actor))))
peers)
(ev-sort-lists acc)))))
;; Half-open overlap of interval (s e) with window [qs, qe).
(define
ev-fed-overlaps?
(fn (iv qs qe) (and (< (first iv) qe) (< qs (first (rest iv))))))
;; Is `actor` free across [qs, qe) considering local + trusted-peer busy?
(define
ev/federated-free?
(fn
(local-db peers trust actor qs qe)
(not
(some
(fn (iv) (ev-fed-overlaps? iv qs qe))
(ev/federated-busy local-db peers trust actor)))))

38
lib/events/notify.sx Normal file
View File

@@ -0,0 +1,38 @@
;; lib/events/notify.sx — durable notification delivery flows over an injected
;; transport (lib/flow).
;;
;; Reminders and digests are durable `flow`s: a flow `request`s delivery (a
;; suspend point), the HOST performs the actual send via an injected `dispatch`
;; (the transport — email/push/etc.), and resumes the flow with the outcome.
;; Because flow uses deterministic replay, a completed delivery is never re-run
;; on recovery; the host owns IO and persistence.
;;
;; Delivery is AT-LEAST-ONCE with idempotency. Each message carries an id (the
;; idempotency key). Two protections stop double-delivery:
;; 1. The transport dedups by id — a re-send of a delivered id is a no-op
;; that still reports ok, so a retry never produces two pings.
;; 2. flow's replay log records each resolved request, so recovery replays the
;; logged outcome instead of re-issuing the send.
;;
;; Retry/backoff rides flow suspend/resume: each attempt issues a request with a
;; DISTINCT tag `(deliver <id> <n>)` — distinct tags keep deterministic replay
;; correct across retries. The dispatch returns (ok info) to finish or
;; (retry reason) to try again, bounded by `maxn` (then (failed id reason)).
;;
;; A message is a 3-element list (id recipient body). The transport is generic
;; and injected — when feed/notify lands, both consumers share one transport,
;; so this delivery core is a candidate for extraction to `delivery-on-sx`.
;;
;; The Scheme flow source below loads into a flow env (see lib/flow/api.sx).
;; `ev/notify-run` prepends it to a caller program and evaluates in the shared
;; flow env.
(define
ev-notify-flows-src
"(define (ev-msg-id m) (car m))\n (define (ev-msg-recipient m) (car (cdr m)))\n (define (ev-msg-body m) (car (cdr (cdr m))))\n (define (ev-mem x xs)\n (if (null? xs) #f (if (equal? x (car xs)) #t (ev-mem x (cdr xs)))))\n (define (ev-notify-attempt m n maxn)\n (let ((r (request (list (quote deliver) (ev-msg-id m) n) m)))\n (if (eq? (car r) (quote ok))\n (list (quote delivered) (ev-msg-id m) n)\n (if (>= n maxn)\n (list (quote failed) (ev-msg-id m) (car (cdr r)))\n (ev-notify-attempt m (+ n 1) maxn)))))\n (define (ev-deliver-reminder maxn)\n (flow-node (lambda (m) (ev-notify-attempt m 1 maxn))))\n (define (ev-digest-step ms maxn)\n (if (null? ms)\n (list)\n (cons (ev-notify-attempt (car ms) 1 maxn)\n (ev-digest-step (cdr ms) maxn))))\n (define (ev-deliver-digest maxn)\n (flow-node (lambda (ms) (ev-digest-step ms maxn))))")
;; Run a Scheme flow program with the notify flows preloaded, in the shared
;; flow env. Returns the program's value (SX-native).
(define
ev/notify-run
(fn (prog) (flow-run (str ev-notify-flows-src "\n" prog))))

96
lib/events/reminders.sx Normal file
View File

@@ -0,0 +1,96 @@
;; lib/events/reminders.sx — derive reminder + digest messages from the agenda.
;;
;; Bridges the schedule (calendar) and the durable roster (booking on persist)
;; to the notification layer (notify.sx). For each booked attendee of each
;; upcoming occurrence we derive a reminder message that fires `lead` minutes
;; before the occurrence starts. Each message has a deterministic idempotency
;; key — occ-key / recipient / lead — so re-deriving over an overlapping window
;; never produces a duplicate ping (the notify transport dedups on this id).
;;
;; A reminder is a dict:
;; {:id :recipient :event :start :fire-at}
;; `ev/reminder->msg` projects it to notify's (id recipient body) wire shape.
;; Reminders for one occurrence: one per booked attendee (durable roster).
(define
ev/occurrence-reminders
(fn
(b occ lead)
(let
((occ-key (ev-occ-key occ))
(start (get occ :start))
(evid (get occ :id)))
(map (fn (actor) {:id (str occ-key "/" actor "/" lead) :event evid :start start :fire-at (- start lead) :recipient actor}) (ev/roster-occ b occ)))))
;; Insertion sort of reminder dicts ascending by :fire-at (then :id for ties).
(define
ev-rem-before?
(fn
(a c)
(cond
((< (get a :fire-at) (get c :fire-at)) true)
((> (get a :fire-at) (get c :fire-at)) false)
(else (< (get a :id) (get c :id))))))
(define
ev-rem-insert
(fn
(r sorted)
(cond
((empty? sorted) (list r))
((ev-rem-before? r (first sorted)) (cons r sorted))
(else (cons (first sorted) (ev-rem-insert r (rest sorted)))))))
(define
ev-rem-sort
(fn (rs) (reduce (fn (acc r) (ev-rem-insert r acc)) (list) rs)))
;; All reminders across the agenda in [ws, we), ascending by fire-at.
(define
ev/agenda-reminders
(fn
(b store ws we lead)
(let
((acc (list)))
(begin
(for-each
(fn
(occ)
(for-each
(fn (r) (append! acc r))
(ev/occurrence-reminders b occ lead)))
(ev/agenda store ws we))
(ev-rem-sort acc)))))
;; Reminders whose fire-at has arrived (fire-at <= now) — what a scheduler
;; should hand to the notify transport at time `now`.
(define
ev/due-reminders
(fn
(reminders now)
(filter (fn (r) (<= (get r :fire-at) now)) reminders)))
;; Project a reminder to notify's (id recipient body) wire shape.
(define
ev/reminder->msg
(fn
(r)
(list
(get r :id)
(get r :recipient)
(list :reminder (get r :event) (get r :start)))))
;; ---- digests ----
;; The occurrences `actor` is booked into (durable roster), within window.
(define
ev/agenda-for-p
(fn
(b store actor ws we)
(filter
(fn (occ) (ev-bk-member? actor (ev/roster-occ b occ)))
(ev/agenda store ws we))))
;; A single digest message summarising an actor's upcoming booked occurrences.
;; :items is ({:event :start} ...); empty when the actor has nothing booked.
(define ev/agenda-digest (fn (b store actor ws we) {:items (map (fn (occ) {:event (get occ :id) :start (get occ :start)}) (ev/agenda-for-p b store actor ws we)) :id (str actor "/digest/" ws "-" we) :recipient actor}))

17
lib/events/scoreboard.json Normal file
View File

@@ -0,0 +1,17 @@
{
"lang": "events",
"total_passed": 219,
"total_failed": 0,
"total": 219,
"suites": [
{"name":"calendar","passed":37,"failed":0,"total":37},
{"name":"availability","passed":22,"failed":0,"total":22},
{"name":"api","passed":24,"failed":0,"total":24},
{"name":"booking","passed":61,"failed":0,"total":61},
{"name":"ticket","passed":31,"failed":0,"total":31},
{"name":"notify","passed":7,"failed":0,"total":7},
{"name":"reminders","passed":14,"failed":0,"total":14},
{"name":"federation","passed":23,"failed":0,"total":23}
],
"generated": "2026-06-07T05:31:56+00:00"
}

14
lib/events/scoreboard.md Normal file
View File

@@ -0,0 +1,14 @@
# events scoreboard
**219 / 219 passing** (0 failure(s)).
| Suite | Passed | Total | Status |
|-------|--------|-------|--------|
| calendar | 37 | 37 | ok |
| availability | 22 | 22 | ok |
| api | 24 | 24 | ok |
| booking | 61 | 61 | ok |
| ticket | 31 | 31 | ok |
| notify | 7 | 7 | ok |
| reminders | 14 | 14 | ok |
| federation | 23 | 23 | ok |

271
lib/events/tests/api.sx Normal file
View File

@@ -0,0 +1,271 @@
;; lib/events/tests/api.sx — public events facade (schedule/agenda/free/book).
(define ev-api-pass 0)
(define ev-api-fail 0)
(define ev-api-failures (list))
(define
ev-api-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-api-pass (+ ev-api-pass 1))
(do
(set! ev-api-fail (+ ev-api-fail 1))
(append!
ev-api-failures
(str name "\n expected: " expected "\n got: " got))))))
;; A store with a weekly yoga class (Mon+Wed 18:00, 60m, 4 occurrences).
(define
ev-api-store
(fn
()
(ev/schedule
(ev/empty)
(quote yoga)
(ev-dt 2026 6 1 18 0)
60
{:freq :weekly :count 4 :byday (list 0 2)}
20)))
(define
ev-api-run-all!
(fn
()
(let
((s0 (ev-api-store)))
(let
((occs (ev/agenda s0 (ev-date 2026 6 1) (ev-date 2026 7 1))))
(let
((s1 (ev/book (ev/book s0 (quote nia) (ev-occ-key (first occs))) (quote nia) (ev-occ-key (first (rest occs))))))
(do
(ev-api-check!
"agenda expands weekly class to four occurrences"
(map (fn (o) (ev-dt->civil (get o :start))) occs)
(list
(list 2026 6 1)
(list 2026 6 3)
(list 2026 6 8)
(list 2026 6 10)))
(ev-api-check!
"empty store has empty agenda"
(ev/agenda
(ev/empty)
(ev-date 2026 6 1)
(ev-date 2026 7 1))
(list))
(ev-api-check!
"max duration reflects scheduled events"
(ev/store-max-duration s0)
60)
(ev-api-check!
"max duration of empty store is zero"
(ev/store-max-duration (ev/empty))
0)
(ev-api-check!
"event-by-id finds the scheduled event"
(get (ev/event-by-id s0 (quote yoga)) :capacity)
20)
(ev-api-check!
"event-by-id is nil for unknown id"
(ev/event-by-id s0 (quote nope))
nil)
(ev-api-check!
"agenda-for lists only booked occurrences"
(map
(fn (o) (ev-dt->civil (get o :start)))
(ev/agenda-for
s1
(quote nia)
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
(list
(list 2026 6 1)
(list 2026 6 3)))
(ev-api-check!
"agenda-for empty for unbooked actor"
(ev/agenda-for
s1
(quote zed)
(ev-date 2026 6 1)
(ev-date 2026 7 1))
(list))
(ev-api-check!
"free? false during a booked occurrence"
(ev/free?
s1
(quote nia)
(ev-dt 2026 6 1 18 30)
(ev-dt 2026 6 1 19 0))
false)
(ev-api-check!
"free? true in an open window"
(ev/free?
s1
(quote nia)
(ev-dt 2026 6 1 9 0)
(ev-dt 2026 6 1 10 0))
true)
(ev-api-check!
"free? half-open at occurrence end"
(ev/free?
s1
(quote nia)
(ev-dt 2026 6 1 19 0)
(ev-dt 2026 6 1 20 0))
true)
(ev-api-check!
"free? true for an actor who booked nothing"
(ev/free?
s1
(quote zed)
(ev-dt 2026 6 1 18 0)
(ev-dt 2026 6 1 19 0))
true)
(ev-api-check!
"next-free skips the booked slot to the hour after"
(ev-dt-tod
(ev/next-free
s1
(quote nia)
(ev-dt
2026
6
1
18
0)
60
(ev-dt
2026
6
1
23
0)))
(* 19 60))
(ev-api-check!
"next-free returns `after` when already open"
(ev/next-free
s1
(quote nia)
(ev-dt 2026 6 1 9 0)
60
(ev-dt 2026 6 1 18 0))
(ev-dt 2026 6 1 9 0))
(ev-api-check!
"no conflict among disjoint bookings"
(ev/has-conflict?
s1
(quote nia)
(ev-date 2026 6 1)
(ev-date 2026 7 1))
false)
(let
((sc (ev/book (ev/schedule s1 (quote talk) (ev-dt 2026 6 1 18 30) 60 nil 5) (quote nia) (ev-occ-key (ev-occ (quote talk) (ev-dt 2026 6 1 18 30) 60)))))
(ev-api-check!
"overlapping second booking creates a conflict"
(ev/has-conflict?
sc
(quote nia)
(ev-date 2026 6 1)
(ev-date 2026 7 1))
true))
(let
((b (persist/open)) (occ1 (first occs)))
(do
(let
((sp (ev/schedule (ev/empty) (quote clinic) (ev-dt 2026 6 5 9 0) 30 nil 2)))
(let
((occ (ev-occ (quote clinic) (ev-dt 2026 6 5 9 0) 30)))
(do
(ev-api-check!
"durable book returns booked"
(get (ev/book-occ! b sp (quote a) occ) :status)
:booked)
(ev/book-occ! b sp (quote c) occ)
(ev-api-check!
"durable book past capacity is full"
(get (ev/book-occ! b sp (quote d) occ) :status)
:full)
(ev-api-check!
"durable roster reflects persisted bookings"
(ev/roster-occ b occ)
(list (quote a) (quote c)))
(ev-api-check!
"durable seats-left honours capacity"
(ev/seats-left-occ b sp occ)
0)
(ev-api-check!
"persist free? false during a durable booking"
(ev/free-p?
b
sp
(quote a)
(ev-dt
2026
6
5
9
10)
(ev-dt
2026
6
5
9
20))
false)
(ev-api-check!
"persist free? true in an open window"
(ev/free-p?
b
sp
(quote a)
(ev-dt
2026
6
5
10
0)
(ev-dt
2026
6
5
10
30))
true)
(ev/cancel-occ! b sp (quote a) occ)
(ev-api-check!
"durable cancel frees a seat"
(ev/seats-left-occ b sp occ)
1)
(ev-api-check!
"persist free? true after cancellation"
(ev/free-p?
b
sp
(quote a)
(ev-dt
2026
6
5
9
10)
(ev-dt
2026
6
5
9
20))
true))))))))))))
(define
ev-api-tests-run!
(fn
()
(do
(set! ev-api-pass 0)
(set! ev-api-fail 0)
(set! ev-api-failures (list))
(ev-api-run-all!)
{:failures ev-api-failures :total (+ ev-api-pass ev-api-fail) :passed ev-api-pass :failed ev-api-fail})))

331
lib/events/tests/availability.sx Normal file
View File

@@ -0,0 +1,331 @@
;; lib/events/tests/availability.sx — free/busy + conflict rules on Datalog.
(define ev-av-pass 0)
(define ev-av-fail 0)
(define ev-av-failures (list))
(define
ev-av-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-av-pass (+ ev-av-pass 1))
(do
(set! ev-av-fail (+ ev-av-fail 1))
(append!
ev-av-failures
(str name "\n expected: " expected "\n got: " got))))))
;; Fixture: three occurrences on 2026-06-01.
;; standup 09:0009:30 review 09:1510:15 (overlaps standup)
;; lunch 12:0013:00
(define
ev-av-occs
(fn
()
(list
(ev-occ
(quote standup)
(ev-dt 2026 6 1 9 0)
30)
(ev-occ
(quote review)
(ev-dt 2026 6 1 9 15)
60)
(ev-occ
(quote lunch)
(ev-dt 2026 6 1 12 0)
60))))
(define ev-av-key (fn (id start) (str id "@" start)))
;; alice: standup + review (overlap → conflict). bob: lunch only.
(define
ev-av-db
(fn
()
(ev-avail-db
(ev-av-occs)
(list
(list
(quote alice)
(ev-av-key
(quote standup)
(ev-dt 2026 6 1 9 0)))
(list
(quote alice)
(ev-av-key
(quote review)
(ev-dt 2026 6 1 9 15)))
(list
(quote bob)
(ev-av-key
(quote lunch)
(ev-dt 2026 6 1 12 0)))))))
;; Disjoint fixture for slot search: 09:0010:00 then 10:3011:30 (a 30m gap).
(define
ev-av-gap-db
(fn
()
(ev-avail-db
(list
(ev-occ
(quote a)
(ev-dt 2026 6 1 9 0)
60)
(ev-occ
(quote b)
(ev-dt 2026 6 1 10 30)
60))
(list
(list
(quote sam)
(ev-av-key
(quote a)
(ev-dt 2026 6 1 9 0)))
(list
(quote sam)
(ev-av-key
(quote b)
(ev-dt 2026 6 1 10 30)))))))
(define
ev-av-run-all!
(fn
()
(let
((db (ev-av-db)))
(do
(ev-av-check!
"busy lists alice committed intervals ascending"
(ev-busy db (quote alice))
(list
(list
(ev-dt 2026 6 1 9 0)
(ev-dt 2026 6 1 9 30))
(list
(ev-dt 2026 6 1 9 15)
(ev-dt 2026 6 1 10 15))))
(ev-av-check!
"busy lists bob single interval"
(ev-busy db (quote bob))
(list
(list
(ev-dt 2026 6 1 12 0)
(ev-dt 2026 6 1 13 0))))
(ev-av-check!
"busy empty for unknown actor"
(ev-busy db (quote carol))
(list))
(ev-av-check!
"alice has an overlap conflict"
(ev-has-conflict? db (quote alice))
true)
(ev-av-check!
"alice conflict reported once (canonical pair)"
(len (ev-conflicts db (quote alice)))
1)
(ev-av-check!
"bob has no conflict"
(ev-has-conflict? db (quote bob))
false)
(ev-av-check!
"non-overlapping bookings do not conflict"
(ev-has-conflict?
(ev-avail-db
(list
(ev-occ
(quote a)
(ev-dt
2026
6
1
9
0)
30)
(ev-occ
(quote b)
(ev-dt
2026
6
1
9
30)
30))
(list
(list
(quote dave)
(ev-av-key
(quote a)
(ev-dt
2026
6
1
9
0)))
(list
(quote dave)
(ev-av-key
(quote b)
(ev-dt
2026
6
1
9
30)))))
(quote dave))
false)
(ev-av-check!
"alice free in an empty window"
(ev-free?
db
(quote alice)
(ev-dt 2026 6 1 13 0)
(ev-dt 2026 6 1 14 0))
true)
(ev-av-check!
"alice not free overlapping a booking"
(ev-free?
db
(quote alice)
(ev-dt 2026 6 1 9 20)
(ev-dt 2026 6 1 9 40))
false)
(ev-av-check!
"free? is half-open at the trailing edge"
(ev-free?
db
(quote alice)
(ev-dt 2026 6 1 10 15)
(ev-dt 2026 6 1 11 0))
true)
(ev-av-check!
"free? is half-open at the leading edge"
(ev-free?
db
(quote bob)
(ev-dt 2026 6 1 11 0)
(ev-dt 2026 6 1 12 0))
true)
(ev-av-check!
"free? false when window straddles a booking edge"
(ev-free?
db
(quote bob)
(ev-dt 2026 6 1 11 0)
(ev-dt 2026 6 1 12 1))
false)
(ev-av-check!
"free? query leaves db reusable (no leaked qwindow)"
(do
(ev-free?
db
(quote alice)
(ev-dt 2026 6 1 9 0)
(ev-dt 2026 6 1 9 30))
(ev-busy db (quote bob)))
(list
(list
(ev-dt 2026 6 1 12 0)
(ev-dt 2026 6 1 13 0))))
(let
((gdb (ev-av-gap-db)))
(do
(ev-av-check!
"next-free finds the gap between bookings"
(ev-next-free
gdb
(quote sam)
(ev-dt 2026 6 1 9 0)
30
(ev-dt 2026 6 1 18 0))
(ev-dt 2026 6 1 10 0))
(ev-av-check!
"next-free skips a gap too short for the duration"
(ev-next-free
gdb
(quote sam)
(ev-dt 2026 6 1 9 0)
60
(ev-dt 2026 6 1 18 0))
(ev-dt 2026 6 1 11 30))
(ev-av-check!
"next-free returns `after` when already free"
(ev-next-free
gdb
(quote sam)
(ev-dt 2026 6 1 14 0)
60
(ev-dt 2026 6 1 18 0))
(ev-dt 2026 6 1 14 0))
(ev-av-check!
"next-free returns nil when nothing fits before horizon"
(ev-next-free
gdb
(quote sam)
(ev-dt 2026 6 1 9 0)
120
(ev-dt 2026 6 1 11 0))
nil)
(ev-av-check!
"next-free for actor with no bookings is `after`"
(ev-next-free
gdb
(quote nobody)
(ev-dt 2026 6 1 9 0)
60
(ev-dt 2026 6 1 18 0))
(ev-dt 2026 6 1 9 0))
(ev-av-check!
"next-free at exact edge of a booking (half-open)"
(ev-next-free
gdb
(quote sam)
(ev-dt 2026 6 1 10 0)
30
(ev-dt 2026 6 1 18 0))
(ev-dt 2026 6 1 10 0))))
(let
((daily (ev-expand (ev-event (quote class) (ev-dt 2026 6 1 9 0) 60 {:freq :daily :count 3} 1) (ev-date 2026 6 1) (ev-date 2026 7 1))))
(let
((db2 (ev-avail-db daily (map (fn (o) (list (quote sam) (ev-occ-key o))) daily))))
(do
(ev-av-check!
"expanded daily occurrences become busy intervals"
(len (ev-busy db2 (quote sam)))
3)
(ev-av-check!
"no conflicts among disjoint daily occurrences"
(ev-has-conflict? db2 (quote sam))
false)
(ev-av-check!
"busy on day two of the series"
(ev-free?
db2
(quote sam)
(ev-dt
2026
6
2
9
30)
(ev-dt
2026
6
2
9
45))
false))))))))
(define
ev-availability-tests-run!
(fn
()
(do
(set! ev-av-pass 0)
(set! ev-av-fail 0)
(set! ev-av-failures (list))
(ev-av-run-all!)
{:failures ev-av-failures :total (+ ev-av-pass ev-av-fail) :passed ev-av-pass :failed ev-av-fail})))

371
lib/events/tests/booking.sx Normal file
View File

@@ -0,0 +1,371 @@
;; lib/events/tests/booking.sx — capacity-safe booking, cancel, and holds.
(define ev-bk-pass 0)
(define ev-bk-fail 0)
(define ev-bk-failures (list))
(define
ev-bk-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-bk-pass (+ ev-bk-pass 1))
(do
(set! ev-bk-fail (+ ev-bk-fail 1))
(append!
ev-bk-failures
(str name "\n expected: " expected "\n got: " got))))))
;; Take a consistent (roster, last-seq) snapshot of an occurrence's stream.
(define ev-bk-snap (fn (b k) (ev-booked-actors b k)))
(define ev-bk-seq (fn (b k) (persist/last-seq b (ev-booking-stream k))))
(define
ev-bk-run-all!
(fn
()
(do
(let
((b (persist/open)))
(do
(ev-bk-check!
"first booking takes seat 1"
(get (ev/book! b "o1" 3 (quote a)) :seat)
1)
(ev-bk-check!
"second booking takes seat 2"
(get (ev/book! b "o1" 3 (quote c)) :seat)
2)
(ev-bk-check!
"booked status reported"
(get (ev/book! b "o1" 3 (quote d)) :status)
:booked)
(ev-bk-check!
"roster is oldest-first"
(ev/roster b "o1")
(list (quote a) (quote c) (quote d)))
(ev-bk-check!
"seats-left is zero when full"
(ev/seats-left b "o1" 3)
0)
(ev-bk-check!
"free booking is confirmed state"
(ev/seat-state b "o1" (quote a))
:confirmed)))
(let
((b (persist/open)))
(do
(ev/book! b "o2" 1 (quote a))
(ev-bk-check!
"booking past capacity is refused"
(get (ev/book! b "o2" 1 (quote c)) :status)
:full)
(ev-bk-check!
"full does not grow the roster"
(ev/roster b "o2")
(list (quote a)))
(ev-bk-check!
"seats-left zero at capacity"
(ev/seats-left b "o2" 1)
0)))
(let
((b (persist/open)))
(do
(ev/book! b "o3" 5 (quote a))
(ev-bk-check!
"re-booking the same actor is idempotent"
(get (ev/book! b "o3" 5 (quote a)) :status)
:already)
(ev-bk-check!
"idempotent re-book reports existing seat"
(get (ev/book! b "o3" 5 (quote a)) :seat)
1)
(ev-bk-check!
"roster unchanged after re-book"
(ev/roster b "o3")
(list (quote a)))
(ev-bk-check!
"count unchanged after re-book"
(ev-booking-count b "o3")
1)))
(let
((b (persist/open)))
(do
(ev/book! b "last" 2 (quote x))
(let
((snap (ev-bk-snap b "last")) (exp (ev-bk-seq b "last")))
(let
((ra (ev/book-with-observed b "last" 2 (quote a) snap exp))
(rb
(ev/book-with-observed
b
"last"
2
(quote bee)
snap
exp)))
(do
(ev-bk-check!
"race winner is booked"
(get ra :status)
:booked)
(ev-bk-check!
"race winner takes the last seat"
(get ra :seat)
2)
(ev-bk-check!
"race loser is rejected with a conflict"
(get rb :status)
:conflict)
(ev-bk-check!
"conflict reports the advanced seq"
(get rb :actual)
(+ exp 1))
(ev-bk-check!
"no overbooking: exactly two on roster"
(ev-booking-count b "last")
2)
(ev-bk-check!
"race loser is NOT on the roster"
(ev-bk-member? (quote bee) (ev/roster b "last"))
false)
(ev-bk-check!
"race loser retrying gets full"
(get (ev/book! b "last" 2 (quote bee)) :status)
:full))))))
(let
((b (persist/open)))
(do
(ev/book! b "room" 3 (quote x))
(let
((snap (ev-bk-snap b "room")) (exp (ev-bk-seq b "room")))
(let
((ra (ev/book-with-observed b "room" 3 (quote a) snap exp))
(rb
(ev/book-with-observed
b
"room"
3
(quote bee)
snap
exp)))
(do
(ev-bk-check!
"room winner booked seat 2"
(get ra :seat)
2)
(ev-bk-check!
"room loser first conflicts"
(get rb :status)
:conflict)
(ev-bk-check!
"room loser retry books seat 3"
(get (ev/book! b "room" 3 (quote bee)) :seat)
3)
(ev-bk-check!
"room roster is x,a,bee"
(ev/roster b "room")
(list (quote x) (quote a) (quote bee)))
(ev-bk-check!
"room is now full"
(ev/seats-left b "room" 3)
0))))))
(let
((b (persist/open)))
(do
(ev/book! b "cx" 2 (quote a))
(ev/book! b "cx" 2 (quote c))
(ev-bk-check!
"occupied to capacity before cancel"
(ev/seats-left b "cx" 2)
0)
(ev-bk-check!
"booking when full (pre-cancel) is refused"
(get (ev/book! b "cx" 2 (quote d)) :status)
:full)
(ev-bk-check!
"cancel reports cancelled"
(get (ev/cancel! b "cx" (quote a)) :status)
:cancelled)
(ev-bk-check!
"cancel removes actor from roster"
(ev/roster b "cx")
(list (quote c)))
(ev-bk-check!
"cancel frees a seat"
(ev/seats-left b "cx" 2)
1)
(ev-bk-check!
"freed seat is bookable again"
(get (ev/book! b "cx" 2 (quote d)) :status)
:booked)
(ev-bk-check!
"roster after rebook is c,d"
(ev/roster b "cx")
(list (quote c) (quote d)))))
(let
((b (persist/open)))
(do
(ev/book! b "ce" 3 (quote a))
(ev-bk-check!
"cancelling an unbooked actor is a no-op"
(get (ev/cancel! b "ce" (quote z)) :status)
:not-booked)
(ev-bk-check!
"no-op cancel leaves roster intact"
(ev/roster b "ce")
(list (quote a)))
(ev/cancel! b "ce" (quote a))
(ev-bk-check!
"double cancel is not-booked the second time"
(get (ev/cancel! b "ce" (quote a)) :status)
:not-booked)
(ev-bk-check!
"empty roster after cancel"
(ev/roster b "ce")
(list))
(ev-bk-check!
"cancelled actor may re-book"
(get (ev/book! b "ce" 3 (quote a)) :status)
:booked)
(ev-bk-check!
"re-booked actor back on roster"
(ev/roster b "ce")
(list (quote a)))))
(let
((b (persist/open)))
(do
(ev/book! b "h" 2 (quote a))
(ev-bk-check!
"hold reports held"
(get (ev/hold! b "h" 2 (quote p)) :status)
:held)
(ev-bk-check!
"held seat is :held state"
(ev/seat-state b "h" (quote p))
:held)
(ev-bk-check!
"held actor is on the roster"
(ev/roster b "h")
(list (quote a) (quote p)))
(ev-bk-check!
"held seat blocks the last booking"
(get (ev/book! b "h" 2 (quote x)) :status)
:full)
(ev-bk-check!
"no seats left with one held"
(ev/seats-left b "h" 2)
0)))
(let
((b (persist/open)))
(do
(ev/hold! b "hc" 3 (quote p))
(ev-bk-check!
"confirm reports confirmed"
(get (ev/confirm! b "hc" (quote p)) :status)
:confirmed)
(ev-bk-check!
"confirmed seat is :confirmed state"
(ev/seat-state b "hc" (quote p))
:confirmed)
(ev-bk-check!
"re-confirm is already-confirmed"
(get (ev/confirm! b "hc" (quote p)) :status)
:already-confirmed)
(ev-bk-check!
"confirming a non-holder is not-held"
(get (ev/confirm! b "hc" (quote z)) :status)
:not-held)
(ev-bk-check!
"confirmed seat still occupies"
(ev/seats-left b "hc" 3)
2)))
(let
((b (persist/open)))
(do
(ev/book! b "hr" 2 (quote a))
(ev/hold! b "hr" 2 (quote p))
(ev-bk-check!
"full while hold pending"
(ev/seats-left b "hr" 2)
0)
(ev-bk-check!
"release reports released"
(get (ev/release! b "hr" (quote p)) :status)
:released)
(ev-bk-check!
"release frees the held seat"
(ev/seats-left b "hr" 2)
1)
(ev-bk-check!
"released actor off the roster"
(ev/roster b "hr")
(list (quote a)))
(ev-bk-check!
"freed seat bookable after release"
(get (ev/book! b "hr" 2 (quote x)) :status)
:booked)
(ev/hold! b "hr2" 1 (quote q))
(ev/confirm! b "hr2" (quote q))
(ev-bk-check!
"release on a confirmed seat is not-held"
(get (ev/release! b "hr2" (quote q)) :status)
:not-held)
(ev-bk-check!
"cancel frees a confirmed-from-hold seat"
(get (ev/cancel! b "hr2" (quote q)) :status)
:cancelled)))
(let
((b (persist/open)))
(do
(ev/book! b "hlast" 2 (quote x))
(let
((snap (ev-bk-snap b "hlast")) (exp (ev-bk-seq b "hlast")))
(let
((ra (ev/hold-with-observed b "hlast" 2 (quote p) snap exp))
(rb
(ev/hold-with-observed
b
"hlast"
2
(quote q)
snap
exp)))
(do
(ev-bk-check! "hold race winner held" (get ra :status) :held)
(ev-bk-check!
"hold race loser conflicts"
(get rb :status)
:conflict)
(ev-bk-check!
"no oversell via concurrent holds"
(ev-booking-count b "hlast")
2)
(ev-bk-check!
"hold loser retry gets full"
(get (ev/hold! b "hlast" 2 (quote q)) :status)
:full))))))
(let
((b (persist/open)))
(do
(ev/hold! b "hi" 4 (quote p))
(ev-bk-check!
"re-holding the same actor is idempotent"
(get (ev/hold! b "hi" 4 (quote p)) :status)
:already)
(ev-bk-check!
"hold idempotency keeps one seat"
(ev-booking-count b "hi")
1))))))
(define
ev-booking-tests-run!
(fn
()
(do
(set! ev-bk-pass 0)
(set! ev-bk-fail 0)
(set! ev-bk-failures (list))
(ev-bk-run-all!)
{:failures ev-bk-failures :total (+ ev-bk-pass ev-bk-fail) :passed ev-bk-pass :failed ev-bk-fail})))

433
lib/events/tests/calendar.sx Normal file
View File

@@ -0,0 +1,433 @@
;; lib/events/tests/calendar.sx — civil date core + RRULE window expansion.
(define ev-cal-pass 0)
(define ev-cal-fail 0)
(define ev-cal-failures (list))
(define
ev-cal-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-cal-pass (+ ev-cal-pass 1))
(do
(set! ev-cal-fail (+ ev-cal-fail 1))
(append!
ev-cal-failures
(str name "\n expected: " expected "\n got: " got))))))
;; Project occurrences to (civil weekday) pairs for legible assertions.
(define
ev-cal-shape
(fn
(occs)
(map
(fn
(o)
(list (ev-dt->civil (get o :start)) (ev-dt-weekday (get o :start))))
occs)))
(define
ev-cal-starts
(fn (occs) (map (fn (o) (ev-dt->civil (get o :start))) occs)))
(define
ev-cal-run-all!
(fn
()
(do
(ev-cal-check!
"epoch day zero"
(ev-days-from-civil 1970 1 1)
0)
(ev-cal-check!
"y2k day number"
(ev-days-from-civil 2000 1 1)
10957)
(ev-cal-check!
"leap day round trip"
(ev-civil-from-days
(ev-days-from-civil 2024 2 29))
(list 2024 2 29))
(ev-cal-check!
"pre-epoch round trip"
(ev-civil-from-days
(ev-days-from-civil 1969 12 31))
(list 1969 12 31))
(ev-cal-check!
"epoch is thursday"
(ev-weekday-of-days 0)
3)
(ev-cal-check!
"2026-06-06 is saturday"
(ev-dt-weekday (ev-date 2026 6 6))
5)
(ev-cal-check!
"dt carries time of day"
(ev-dt-tod
(ev-dt 2026 6 1 9 30))
570)
(ev-cal-check!
"civil from dt"
(ev-dt->civil
(ev-dt 2026 12 25 8 0))
(list 2026 12 25))
(ev-cal-check!
"days in feb 2024 (leap)"
(ev-days-in-month 2024 2)
29)
(ev-cal-check!
"days in feb 2026"
(ev-days-in-month 2026 2)
28)
(ev-cal-check!
"add months wraps year"
(ev-add-months 2026 11 3)
(list 2027 2))
(ev-cal-check!
"add months within year"
(ev-add-months 2026 1 5)
(list 2026 6))
(let
((ev (ev-event (quote one) (ev-dt 2026 6 10 14 0) 60 nil 1)))
(do
(ev-cal-check!
"single inside window emits once"
(len
(ev-expand
ev
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
1)
(ev-cal-check!
"single before window omitted"
(len
(ev-expand
ev
(ev-date 2026 7 1)
(ev-date 2026 8 1)))
0)
(ev-cal-check!
"single after window omitted"
(len
(ev-expand
ev
(ev-date 2026 1 1)
(ev-date 2026 2 1)))
0)
(ev-cal-check!
"occurrence end is start plus duration"
(get
(first
(ev-expand
ev
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
:end)
(+
(ev-dt 2026 6 10 14 0)
60))))
(let
((daily (ev-event (quote d) (ev-dt 2026 6 1 9 0) 30 {:freq :daily :count 5} 1)))
(do
(ev-cal-check!
"daily count caps occurrences"
(ev-cal-starts
(ev-expand
daily
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
(list
(list 2026 6 1)
(list 2026 6 2)
(list 2026 6 3)
(list 2026 6 4)
(list 2026 6 5)))
(ev-cal-check!
"daily preserves time of day"
(ev-dt-tod
(get
(first
(ev-expand
daily
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
:start))
540)))
(let
((di (ev-event (quote di) (ev-dt 2026 6 1 0 0) 30 {:interval 3 :freq :daily :until (ev-date 2026 6 30)} 1)))
(ev-cal-check!
"daily interval 3 steps by three days"
(ev-cal-starts
(ev-expand
di
(ev-date 2026 6 1)
(ev-date 2026 6 13)))
(list
(list 2026 6 1)
(list 2026 6 4)
(list 2026 6 7)
(list 2026 6 10)
(list 2026 6 13))))
(let
((dc (ev-event (quote dc) (ev-dt 2026 6 1 0 0) 30 {:freq :daily :count 10} 1)))
(ev-cal-check!
"count is window-independent (clip middle)"
(ev-cal-starts
(ev-expand
dc
(ev-date 2026 6 5)
(ev-date 2026 6 8)))
(list
(list 2026 6 5)
(list 2026 6 6)
(list 2026 6 7)
(list 2026 6 8))))
(let
((dc2 (ev-event (quote dc2) (ev-dt 2026 6 1 0 0) 30 {:freq :daily :count 3} 1)))
(ev-cal-check!
"count exhausted before window yields nothing"
(len
(ev-expand
dc2
(ev-date 2026 6 10)
(ev-date 2026 6 20)))
0))
(let
((wk (ev-event (quote w) (ev-dt 2026 6 1 18 0) 90 {:freq :weekly :byday (list 0 2 4)} 1)))
(ev-cal-check!
"weekly byday mon/wed/fri first two weeks"
(ev-cal-shape
(ev-expand
wk
(ev-date 2026 6 1)
(ev-date 2026 6 13)))
(list
(list (list 2026 6 1) 0)
(list (list 2026 6 3) 2)
(list (list 2026 6 5) 4)
(list (list 2026 6 8) 0)
(list (list 2026 6 10) 2)
(list (list 2026 6 12) 4))))
(let
((wu (ev-event (quote wu) (ev-dt 2026 6 1 18 0) 90 {:freq :weekly :until (ev-dt 2026 6 10 23 0) :byday (list 0 2)} 1)))
(ev-cal-check!
"weekly until clips trailing occurrences"
(ev-cal-starts
(ev-expand
wu
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
(list
(list 2026 6 1)
(list 2026 6 3)
(list 2026 6 8)
(list 2026 6 10))))
(let
((wi (ev-event (quote wi) (ev-dt 2026 6 1 18 0) 90 {:interval 2 :freq :weekly :byday (list 0)} 1)))
(ev-cal-check!
"weekly interval 2 skips alternate weeks"
(ev-cal-starts
(ev-expand
wi
(ev-date 2026 6 1)
(ev-date 2026 7 6)))
(list
(list 2026 6 1)
(list 2026 6 15)
(list 2026 6 29))))
(let
((wd (ev-event (quote wd) (ev-dt 2026 6 3 12 0) 60 {:freq :weekly :count 3} 1)))
(ev-cal-check!
"weekly default byday is dtstart weekday"
(ev-cal-shape
(ev-expand
wd
(ev-date 2026 6 1)
(ev-date 2026 8 1)))
(list
(list (list 2026 6 3) 2)
(list (list 2026 6 10) 2)
(list (list 2026 6 17) 2))))
(let
((wc (ev-event (quote wc) (ev-dt 2026 6 1 18 0) 90 {:freq :weekly :count 10 :byday (list 0 2)} 1)))
(ev-cal-check!
"weekly count window-independent (clip middle)"
(ev-cal-starts
(ev-expand
wc
(ev-date 2026 6 15)
(ev-date 2026 7 5)))
(list
(list 2026 6 15)
(list 2026 6 17)
(list 2026 6 22)
(list 2026 6 24)
(list 2026 6 29)
(list 2026 7 1))))
(let
((wf (ev-event (quote wf) (ev-dt 2026 6 3 18 0) 90 {:freq :weekly :count 4 :byday (list 0 2 4)} 1)))
(ev-cal-check!
"first week skips byday earlier than dtstart"
(ev-cal-starts
(ev-expand
wf
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
(list
(list 2026 6 3)
(list 2026 6 5)
(list 2026 6 8)
(list 2026 6 10))))
(let
((md (ev-event (quote md) (ev-dt 2026 1 15 9 0) 60 {:bymonthday (list 15) :freq :monthly} 1)))
(do
(ev-cal-check!
"monthly bymonthday 15th"
(ev-cal-starts
(ev-expand
md
(ev-date 2026 1 1)
(ev-date 2026 4 1)))
(list
(list 2026 1 15)
(list 2026 2 15)
(list 2026 3 15)))
(ev-cal-check!
"monthly preserves time of day"
(ev-dt-tod
(get
(first
(ev-expand
md
(ev-date 2026 1 1)
(ev-date 2026 4 1)))
:start))
540)))
(let
((mm (ev-event (quote mm) (ev-dt 2026 1 1 9 0) 60 {:bymonthday (list 1 15) :freq :monthly :count 4} 1)))
(ev-cal-check!
"monthly multiple bymonthday sorted within month"
(ev-cal-starts
(ev-expand
mm
(ev-date 2026 1 1)
(ev-date 2026 12 1)))
(list
(list 2026 1 1)
(list 2026 1 15)
(list 2026 2 1)
(list 2026 2 15))))
(let
((ml (ev-event (quote ml) (ev-dt 2026 1 31 9 0) 60 {:bymonthday (list -1) :freq :monthly} 1)))
(ev-cal-check!
"monthly bymonthday -1 is last day"
(ev-cal-starts
(ev-expand
ml
(ev-date 2026 1 1)
(ev-date 2026 4 1)))
(list
(list 2026 1 31)
(list 2026 2 28)
(list 2026 3 31))))
(let
((mn (ev-event (quote mn) (ev-dt 2026 1 1 9 0) 60 {:freq :monthly :byday (list {:ord 2 :wd 1})} 1)))
(ev-cal-check!
"monthly 2nd tuesday"
(ev-cal-shape
(ev-expand
mn
(ev-date 2026 1 1)
(ev-date 2026 4 1)))
(list
(list (list 2026 1 13) 1)
(list (list 2026 2 10) 1)
(list (list 2026 3 10) 1))))
(let
((mz (ev-event (quote mz) (ev-dt 2026 1 1 9 0) 60 {:freq :monthly :byday (list {:ord -1 :wd 4})} 1)))
(ev-cal-check!
"monthly last friday"
(ev-cal-shape
(ev-expand
mz
(ev-date 2026 1 1)
(ev-date 2026 4 1)))
(list
(list (list 2026 1 30) 4)
(list (list 2026 2 27) 4)
(list (list 2026 3 27) 4))))
(let
((m31 (ev-event (quote m31) (ev-dt 2026 1 31 9 0) 60 {:freq :monthly :count 4} 1)))
(ev-cal-check!
"monthly default day-of-month skips short months"
(ev-cal-starts
(ev-expand
m31
(ev-date 2026 1 1)
(ev-date 2026 12 1)))
(list
(list 2026 1 31)
(list 2026 3 31)
(list 2026 5 31)
(list 2026 7 31))))
(let
((mi (ev-event (quote mi) (ev-dt 2026 1 10 9 0) 60 {:interval 3 :freq :monthly :count 3} 1)))
(ev-cal-check!
"monthly interval 3 steps by quarter"
(ev-cal-starts
(ev-expand
mi
(ev-date 2026 1 1)
(ev-date 2027 1 1)))
(list
(list 2026 1 10)
(list 2026 4 10)
(list 2026 7 10))))
(let
((mc (ev-event (quote mc) (ev-dt 2026 1 5 9 0) 60 {:freq :monthly :count 12} 1)))
(ev-cal-check!
"monthly count window-independent (clip middle)"
(ev-cal-starts
(ev-expand
mc
(ev-date 2026 4 1)
(ev-date 2026 6 30)))
(list
(list 2026 4 5)
(list 2026 5 5)
(list 2026 6 5))))
(let
((a (ev-event (quote a) (ev-dt 2026 6 2 10 0) 30 {:freq :daily :count 2} 1))
(b
(ev-event
(quote b)
(ev-dt 2026 6 1 9 0)
30
{:freq :daily :count 2}
1)))
(ev-cal-check!
"expand-all sorts merged occurrences by start"
(map
(fn (o) (list (get o :id) (ev-dt->civil (get o :start))))
(ev-expand-all
(list a b)
(ev-date 2026 6 1)
(ev-date 2026 7 1)))
(list
(list (quote b) (list 2026 6 1))
(list (quote b) (list 2026 6 2))
(list (quote a) (list 2026 6 2))
(list (quote a) (list 2026 6 3))))))))
(define
ev-calendar-tests-run!
(fn
()
(do
(set! ev-cal-pass 0)
(set! ev-cal-fail 0)
(set! ev-cal-failures (list))
(ev-cal-run-all!)
{:failures ev-cal-failures :total (+ ev-cal-pass ev-cal-fail) :passed ev-cal-pass :failed ev-cal-fail})))

231
lib/events/tests/federation.sx Normal file
View File

@@ -0,0 +1,231 @@
;; lib/events/tests/federation.sx — trust-gated cross-instance agenda merge.
(define ev-fd-pass 0)
(define ev-fd-fail 0)
(define ev-fd-failures (list))
(define
ev-fd-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-fd-pass (+ ev-fd-pass 1))
(do
(set! ev-fd-fail (+ ev-fd-fail 1))
(append!
ev-fd-failures
(str name "\n expected: " expected "\n got: " got))))))
;; Local schedule + two peers. Distinct start times make ordering legible.
(define
ev-fd-local
(fn
()
(ev/schedule
(ev/empty)
(quote yoga)
(ev-dt 2026 6 1 9 0)
60
nil
20)))
(define
ev-fd-berlin
(fn
()
(ev/peer
(quote berlin)
(ev/schedule
(ev/empty)
(quote meetup)
(ev-dt 2026 6 1 12 0)
90
nil
100))))
(define
ev-fd-paris
(fn
()
(ev/peer
(quote paris)
(ev/schedule
(ev/empty)
(quote salon)
(ev-dt 2026 6 1 15 0)
60
nil
30))))
(define
ev-fd-run-all!
(fn
()
(let
((local (ev-fd-local))
(peers (list (ev-fd-berlin) (ev-fd-paris)))
(ws (ev-date 2026 6 1))
(we (ev-date 2026 6 2)))
(do
(ev-fd-check!
"trusts a peer in the trust set"
(ev/trusts? (list (quote berlin)) (quote berlin))
true)
(ev-fd-check!
"does not trust a peer outside the set"
(ev/trusts? (list (quote berlin)) (quote paris))
false)
(ev-fd-check!
"trusted-peers filters to the trust set"
(map ev/peer-id (ev/trusted-peers peers (list (quote berlin))))
(list (quote berlin)))
(let
((fed (ev/federated-agenda local peers (list (quote berlin)) ws we)))
(do
(ev-fd-check!
"merge includes local + trusted peer only"
(map (fn (o) (list (get o :origin) (get o :id))) fed)
(list
(list :local (quote yoga))
(list (quote berlin) (quote meetup))))
(ev-fd-check!
"merge is sorted by start"
(map (fn (o) (get o :start)) fed)
(list
(ev-dt 2026 6 1 9 0)
(ev-dt 2026 6 1 12 0)))
(ev-fd-check!
"untrusted peer (paris) contributes nothing"
(len (ev/from-origin fed (quote paris)))
0)
(ev-fd-check!
"local occurrences tagged :local"
(map (fn (o) (get o :id)) (ev/from-origin fed :local))
(list (quote yoga)))
(ev-fd-check!
"peer occurrences tagged with the peer id"
(map
(fn (o) (get o :id))
(ev/from-origin fed (quote berlin)))
(list (quote meetup)))))
(let
((fed2 (ev/federated-agenda local peers (list (quote berlin) (quote paris)) ws we)))
(ev-fd-check!
"trusting both peers merges all three, sorted"
(map (fn (o) (list (get o :origin) (get o :id))) fed2)
(list
(list :local (quote yoga))
(list (quote berlin) (quote meetup))
(list (quote paris) (quote salon)))))
(let
((fed3 (ev/federated-agenda local peers (list) ws we)))
(do
(ev-fd-check!
"empty trust yields only local occurrences"
(map (fn (o) (get o :origin)) fed3)
(list :local))
(ev-fd-check!
"empty trust still includes local"
(len fed3)
1)))
(let
((rpeer (ev/peer (quote tokyo) (ev/schedule (ev/empty) (quote standup) (ev-dt 2026 6 1 8 0) 15 {:freq :daily :count 3} 5))))
(let
((pa (ev/peer-agenda rpeer ws (ev-date 2026 6 4))))
(do
(ev-fd-check!
"peer recurrence expands in the window"
(len pa)
3)
(ev-fd-check!
"every peer occurrence is tagged with the peer id"
(map (fn (o) (get o :origin)) pa)
(list (quote tokyo) (quote tokyo) (quote tokyo))))))))))
;; ---- federated free/busy ----
(define
ev-fd-fb-run-all!
(fn
()
(let
((local-db
(ev-avail-db
(list (ev-occ (quote yoga) (ev-dt 2026 6 1 9 0) 60))
(list (list (quote nia) (str (quote yoga) "@" (ev-dt 2026 6 1 9 0))))))
(berlin
(ev/peer-with-busy
(quote berlin)
(ev/empty)
(list
(list (quote nia)
(list (list (ev-dt 2026 6 1 14 0) (ev-dt 2026 6 1 15 0)))))))
(paris
(ev/peer-with-busy
(quote paris)
(ev/empty)
(list
(list (quote nia)
(list (list (ev-dt 2026 6 1 11 0) (ev-dt 2026 6 1 12 0))))))))
(let
((peers (list berlin paris)))
(do
;; peer-busy reads a peer's published intervals
(ev-fd-check!
"peer-busy returns published intervals for an actor"
(ev/peer-busy berlin (quote nia))
(list (list (ev-dt 2026 6 1 14 0) (ev-dt 2026 6 1 15 0))))
(ev-fd-check!
"peer-busy empty for an actor with nothing published"
(ev/peer-busy berlin (quote zed))
(list))
;; federated-busy unions local + trusted-peer busy, sorted
(ev-fd-check!
"federated-busy unions local + trusted peer, sorted"
(ev/federated-busy local-db (list berlin) (list (quote berlin)) (quote nia))
(list
(list (ev-dt 2026 6 1 9 0) (ev-dt 2026 6 1 10 0))
(list (ev-dt 2026 6 1 14 0) (ev-dt 2026 6 1 15 0))))
(ev-fd-check!
"untrusted peer busy is excluded from federated-busy"
(ev/federated-busy local-db peers (list (quote berlin)) (quote nia))
(list
(list (ev-dt 2026 6 1 9 0) (ev-dt 2026 6 1 10 0))
(list (ev-dt 2026 6 1 14 0) (ev-dt 2026 6 1 15 0))))
;; federated-free? considers both local and trusted-peer commitments
(ev-fd-check!
"free locally and on peers in an open window"
(ev/federated-free? local-db peers (list (quote berlin)) (quote nia) (ev-dt 2026 6 1 16 0) (ev-dt 2026 6 1 17 0))
true)
(ev-fd-check!
"not free during a LOCAL booking"
(ev/federated-free? local-db peers (list (quote berlin)) (quote nia) (ev-dt 2026 6 1 9 30) (ev-dt 2026 6 1 9 45))
false)
(ev-fd-check!
"not free during a TRUSTED PEER busy interval"
(ev/federated-free? local-db peers (list (quote berlin)) (quote nia) (ev-dt 2026 6 1 14 30) (ev-dt 2026 6 1 14 45))
false)
(ev-fd-check!
"free during an UNTRUSTED peer's busy interval (paris not trusted)"
(ev/federated-free? local-db peers (list (quote berlin)) (quote nia) (ev-dt 2026 6 1 11 15) (ev-dt 2026 6 1 11 45))
true)
(ev-fd-check!
"not free once paris is trusted too"
(ev/federated-free? local-db peers (list (quote berlin) (quote paris)) (quote nia) (ev-dt 2026 6 1 11 15) (ev-dt 2026 6 1 11 45))
false)
(ev-fd-check!
"federated-free? half-open at a busy edge"
(ev/federated-free? local-db peers (list (quote berlin)) (quote nia) (ev-dt 2026 6 1 15 0) (ev-dt 2026 6 1 16 0))
true))))))
(define
ev-federation-tests-run!
(fn
()
(do
(set! ev-fd-pass 0)
(set! ev-fd-fail 0)
(set! ev-fd-failures (list))
(ev-fd-run-all!)
(ev-fd-fb-run-all!)
{:failures ev-fd-failures :total (+ ev-fd-pass ev-fd-fail) :passed ev-fd-pass :failed ev-fd-fail})))

77
lib/events/tests/notify.sx Normal file
View File

@@ -0,0 +1,77 @@
;; lib/events/tests/notify.sx — durable notification delivery flows.
(define ev-nt-pass 0)
(define ev-nt-fail 0)
(define ev-nt-failures (list))
(define
ev-nt-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-nt-pass (+ ev-nt-pass 1))
(do
(set! ev-nt-fail (+ ev-nt-fail 1))
(append!
ev-nt-failures
(str name "\n expected: " expected "\n got: " got))))))
;; Each case runs a Scheme flow program (notify flows preloaded) and asserts on
;; the SX-native result. Scheme symbols come back as strings.
(define
ev-nt-run-all!
(fn
()
(do
(ev-nt-check!
"reminder delivers on the first attempt"
(ev/notify-run
"(define s (flow/start (ev-deliver-reminder 3) (list (quote m1) (quote alice) (quote hello))))\n (flow-run-host (lambda (k p) (list (quote ok) (quote sent))) 5)\n (list (flow/status (car (cdr s))) (flow/result (car (cdr s))))")
(list "done" (list "delivered" "m1" 1)))
(ev-nt-check!
"reminder retries a transient failure then delivers"
(ev/notify-run
"(define hits 0)\n (define s (flow/start (ev-deliver-reminder 3) (list (quote m1) (quote bob) (quote hi))))\n (flow-run-host (lambda (k p) (begin (set! hits (+ hits 1)) (if (< hits 2) (list (quote retry) (quote down)) (list (quote ok) (quote sent))))) 10)\n (list (flow/result (car (cdr s))) hits)")
(list (list "delivered" "m1" 2) 2))
(ev-nt-check!
"reminder gives up after maxn attempts"
(ev/notify-run
"(define s (flow/start (ev-deliver-reminder 2) (list (quote m1) (quote x) (quote y))))\n (flow-run-host (lambda (k p) (list (quote retry) (quote down))) 10)\n (flow/result (car (cdr s)))")
(list "failed" "m1" "down"))
(ev-nt-check!
"redelivery of the same id sends only once (at-least-once, idempotent)"
(ev/notify-run
"(define sent (list)) (define deliveries 0)\n (define (xport k p)\n (let ((id (ev-msg-id p)))\n (if (ev-mem id sent)\n (list (quote ok) (quote duplicate))\n (begin (set! sent (cons id sent)) (set! deliveries (+ deliveries 1)) (list (quote ok) (quote sent))))))\n (define s1 (flow/start (ev-deliver-reminder 3) (list (quote m1) (quote a) (quote hi))))\n (flow-run-host xport 5)\n (define s2 (flow/start (ev-deliver-reminder 3) (list (quote m1) (quote a) (quote hi))))\n (flow-run-host xport 5)\n (list deliveries (flow/result (car (cdr s2))))")
(list 1 (list "delivered" "m1" 1)))
(ev-nt-check!
"digest delivers every message in the batch"
(ev/notify-run
"(define s (flow/start (ev-deliver-digest 3) (list (list (quote a) (quote u1) (quote hi)) (list (quote b) (quote u2) (quote yo)))))\n (flow-run-host (lambda (k p) (list (quote ok) (quote sent))) 10)\n (flow/result (car (cdr s)))")
(list
(list "delivered" "a" 1)
(list "delivered" "b" 1)))
(ev-nt-check!
"digest reports per-message outcomes independently"
(ev/notify-run
"(define (xport k p)\n (let ((id (ev-msg-id p)))\n (if (equal? id (quote b)) (list (quote retry) (quote flaky)) (list (quote ok) (quote sent)))))\n (define s (flow/start (ev-deliver-digest 2) (list (list (quote a) (quote u1) (quote hi)) (list (quote b) (quote u2) (quote yo)) (list (quote c) (quote u3) (quote ya)))))\n (flow-run-host xport 12)\n (flow/result (car (cdr s)))")
(list
(list "delivered" "a" 1)
(list "failed" "b" "flaky")
(list "delivered" "c" 1)))
(ev-nt-check!
"delivery suspends until the transport responds"
(ev/notify-run
"(define s (flow/start (ev-deliver-reminder 3) (list (quote m1) (quote a) (quote hi))))\n (flow/status (car (cdr s)))")
"suspended"))))
(define
ev-notify-tests-run!
(fn
()
(do
(set! ev-nt-pass 0)
(set! ev-nt-fail 0)
(set! ev-nt-failures (list))
(ev-nt-run-all!)
{:failures ev-nt-failures :total (+ ev-nt-pass ev-nt-fail) :passed ev-nt-pass :failed ev-nt-fail})))

220
lib/events/tests/reminders.sx Normal file
View File

@@ -0,0 +1,220 @@
;; lib/events/tests/reminders.sx — reminder + digest derivation from the agenda.
(define ev-rm-pass 0)
(define ev-rm-fail 0)
(define ev-rm-failures (list))
(define
ev-rm-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-rm-pass (+ ev-rm-pass 1))
(do
(set! ev-rm-fail (+ ev-rm-fail 1))
(append!
ev-rm-failures
(str name "\n expected: " expected "\n got: " got))))))
;; A store with a weekly class (Mon+Wed 18:00, 60m, 4 occurrences) and a one-off
;; talk; durable bookings on a persist backend.
(define
ev-rm-store
(fn
()
(ev/schedule
(ev/schedule
(ev/empty)
(quote yoga)
(ev-dt 2026 6 1 18 0)
60
{:freq :weekly :count 4 :byday (list 0 2)}
20)
(quote talk)
(ev-dt 2026 6 2 12 0)
30
nil
50)))
(define
ev-rm-run-all!
(fn
()
(let
((store (ev-rm-store)) (b (persist/open)))
(let
((occs (ev/agenda store (ev-date 2026 6 1) (ev-date 2026 7 1))))
(do
(ev/book-occ! b store (quote nia) (first occs))
(ev/book-occ! b store (quote ola) (first occs))
(ev/book-occ!
b
store
(quote ola)
(ev-occ
(quote talk)
(ev-dt 2026 6 2 12 0)
30))
(do
(let
((rs (ev/occurrence-reminders b (first occs) 60)))
(do
(ev-rm-check!
"one reminder per booked attendee"
(len rs)
2)
(ev-rm-check!
"reminder fires lead minutes before start"
(get (first rs) :fire-at)
(-
(ev-dt
2026
6
1
18
0)
60))
(ev-rm-check!
"reminder idempotency key encodes occ/recipient/lead"
(get (first rs) :id)
(str
(ev-occ-key (first occs))
"/"
(quote nia)
"/"
60))
(ev-rm-check!
"reminder names the event"
(get (first rs) :event)
(quote yoga))))
(ev-rm-check!
"unbooked occurrence has no reminders"
(len
(ev/occurrence-reminders b (ev-occ (quote yoga) (ev-dt 2026 6 3 18 0) 60) 60))
0)
(let
((all (ev/agenda-reminders b store (ev-date 2026 6 1) (ev-date 2026 7 1) 60)))
(do
(ev-rm-check!
"agenda reminders cover all bookings"
(len all)
3)
(ev-rm-check!
"agenda reminders sorted by fire-at"
(map (fn (r) (get r :fire-at)) all)
(list
(-
(ev-dt
2026
6
1
18
0)
60)
(-
(ev-dt
2026
6
1
18
0)
60)
(-
(ev-dt
2026
6
2
12
0)
60)))))
(let
((all (ev/agenda-reminders b store (ev-date 2026 6 1) (ev-date 2026 7 1) 60)))
(do
(ev-rm-check!
"nothing due before the first fire-at"
(len
(ev/due-reminders
all
(-
(ev-dt
2026
6
1
17
0)
1)))
0)
(ev-rm-check!
"the two yoga reminders are due at 17:00"
(len
(ev/due-reminders
all
(ev-dt
2026
6
1
17
0)))
2)
(ev-rm-check!
"all reminders due once past the last fire-at"
(len
(ev/due-reminders
all
(ev-dt
2026
6
2
12
0)))
3)))
(let
((r (first (ev/occurrence-reminders b (first occs) 60))))
(ev-rm-check!
"reminder projects to (id recipient body)"
(ev/reminder->msg r)
(list
(str
(ev-occ-key (first occs))
"/"
(quote nia)
"/"
60)
(quote nia)
(list
:reminder (quote yoga)
(ev-dt
2026
6
1
18
0)))))
(let
((dig (ev/agenda-digest b store (quote ola) (ev-date 2026 6 1) (ev-date 2026 7 1))))
(do
(ev-rm-check!
"digest is addressed to the actor"
(get dig :recipient)
(quote ola))
(ev-rm-check!
"digest lists the actor's booked occurrences"
(map (fn (it) (get it :event)) (get dig :items))
(list (quote yoga) (quote talk)))))
(let
((empty-dig (ev/agenda-digest b store (quote nobody) (ev-date 2026 6 1) (ev-date 2026 7 1))))
(ev-rm-check!
"digest empty for an actor with no bookings"
(get empty-dig :items)
(list)))))))))
(define
ev-reminders-tests-run!
(fn
()
(do
(set! ev-rm-pass 0)
(set! ev-rm-fail 0)
(set! ev-rm-failures (list))
(ev-rm-run-all!)
{:failures ev-rm-failures :total (+ ev-rm-pass ev-rm-fail) :passed ev-rm-pass :failed ev-rm-fail})))

252
lib/events/tests/ticket.sx Normal file
View File

@@ -0,0 +1,252 @@
;; lib/events/tests/ticket.sx — paid-ticket contract + settlement orchestration.
(define ev-tk-pass 0)
(define ev-tk-fail 0)
(define ev-tk-failures (list))
(define
ev-tk-check!
(fn
(name got expected)
(if
(= got expected)
(set! ev-tk-pass (+ ev-tk-pass 1))
(do
(set! ev-tk-fail (+ ev-tk-fail 1))
(append!
ev-tk-failures
(str name "\n expected: " expected "\n got: " got))))))
(define
ev-tk-run-all!
(fn
()
(do
(let
((req (ev/checkout-request "occ1" (quote nia) 1500 "GBP" "ref-1")))
(do
(ev-tk-check!
"checkout-request is tagged"
(ev/checkout-request? req)
true)
(ev-tk-check!
"payment-result is not a checkout-request"
(ev/checkout-request? (ev/payment-paid "o" (quote a) "r"))
false)
(ev-tk-check!
"request occ-key accessor"
(ev/req-occ-key req)
"occ1")
(ev-tk-check!
"request actor accessor"
(ev/req-actor req)
(quote nia))
(ev-tk-check!
"request amount accessor"
(ev/req-amount req)
1500)
(ev-tk-check!
"request currency accessor"
(ev/req-currency req)
"GBP")
(ev-tk-check! "request ref accessor" (ev/req-ref req) "ref-1")))
(let
((res (ev/payment-paid "occ1" (quote nia) "ref-1")))
(do
(ev-tk-check!
"payment-result is tagged"
(ev/payment-result? res)
true)
(ev-tk-check! "result status accessor" (ev/result-status res) :paid)
(ev-tk-check!
"failed constructor carries status"
(ev/result-status (ev/payment-failed "o" (quote a) "r"))
:failed)
(ev-tk-check!
"expired constructor carries status"
(ev/result-status (ev/payment-expired "o" (quote a) "r"))
:expired)))
(let
((b (persist/open)))
(do
(let
((r (ev/request-ticket! b "show" 1 (quote a) 2000 "GBP" "ref-a")))
(do
(ev-tk-check!
"request-ticket awaiting-payment"
(get r :status)
:awaiting-payment)
(ev-tk-check!
"request-ticket returns a checkout-request"
(ev/checkout-request? (get r :request))
true)
(ev-tk-check!
"checkout-request carries the amount"
(ev/req-amount (get r :request))
2000)))
(ev-tk-check!
"held seat reserves capacity"
(ev/seats-left b "show" 1)
0)
(ev-tk-check!
"second buyer is full while payment pends"
(get
(ev/request-ticket!
b
"show"
1
(quote c)
2000
"GBP"
"ref-c")
:status)
:full)
(ev-tk-check!
"held seat state pending"
(ev/seat-state b "show" (quote a))
:held)))
(let
((b (persist/open)))
(do
(ev/request-ticket!
b
"gig"
2
(quote a)
2000
"GBP"
"ref-a")
(let
((s (ev/settle-payment! b (ev/payment-paid "gig" (quote a) "ref-a"))))
(ev-tk-check! "settle paid confirms" (get s :status) :confirmed))
(ev-tk-check!
"confirmed seat state"
(ev/seat-state b "gig" (quote a))
:confirmed)
(ev-tk-check!
"redelivered paid is still confirmed (idempotent)"
(get
(ev/settle-payment!
b
(ev/payment-paid "gig" (quote a) "ref-a"))
:status)
:confirmed)
(ev-tk-check!
"still exactly one seat taken"
(ev-booking-count b "gig")
1)))
(let
((b (persist/open)))
(do
(ev/request-ticket!
b
"fail"
1
(quote a)
2000
"GBP"
"ref-a")
(ev-tk-check!
"seat held before failure"
(ev/seats-left b "fail" 1)
0)
(let
((s (ev/settle-payment! b (ev/payment-failed "fail" (quote a) "ref-a"))))
(ev-tk-check! "settle failed releases" (get s :status) :released))
(ev-tk-check!
"released seat frees capacity"
(ev/seats-left b "fail" 1)
1)
(ev-tk-check!
"redelivered failure is a noop"
(get
(ev/settle-payment!
b
(ev/payment-failed "fail" (quote a) "ref-a"))
:status)
:noop)
(ev-tk-check!
"freed seat available to next buyer"
(get
(ev/request-ticket!
b
"fail"
1
(quote c)
2000
"GBP"
"ref-c")
:status)
:awaiting-payment)
(ev/request-ticket!
b
"exp"
1
(quote a)
2000
"GBP"
"ref-a")
(ev-tk-check!
"settle expired releases"
(get
(ev/settle-payment!
b
(ev/payment-expired "exp" (quote a) "ref-a"))
:status)
:released)))
(let
((b (persist/open)))
(do
(ev/request-ticket!
b
"race"
1
(quote a)
2000
"GBP"
"ref-a")
(ev/settle-payment!
b
(ev/payment-expired "race" (quote a) "ref-a"))
(ev-tk-check!
"late paid for a vanished hold needs a refund"
(get
(ev/settle-payment!
b
(ev/payment-paid "race" (quote a) "ref-a"))
:status)
:paid-but-no-hold)
(ev-tk-check!
"no phantom seat created"
(ev-booking-count b "race")
0)))
(let
((b (persist/open)))
(do
(let
((start (ev/request-ticket! b "e2e" 3 (quote nia) 2500 "GBP" "ref-nia")))
(ev/settle-payment!
b
(ev/payment-paid
(ev/req-occ-key (get start :request))
(ev/req-actor (get start :request))
(ev/req-ref (get start :request)))))
(ev-tk-check!
"e2e roster holds the buyer"
(ev/roster b "e2e")
(list (quote nia)))
(ev-tk-check!
"e2e seat confirmed"
(ev/seat-state b "e2e" (quote nia))
:confirmed))))))
(define
ev-ticket-tests-run!
(fn
()
(do
(set! ev-tk-pass 0)
(set! ev-tk-fail 0)
(set! ev-tk-failures (list))
(ev-tk-run-all!)
{:failures ev-tk-failures :total (+ ev-tk-pass ev-tk-fail) :passed ev-tk-pass :failed ev-tk-fail})))

101
lib/events/ticket.sx Normal file
View File

@@ -0,0 +1,101 @@
;; lib/events/ticket.sx — paid-ticket contract between events and commerce.
;;
;; A paid booking spans two subsystems. events does NOT import commerce; instead
;; this module defines the CONTRACT — the two messages on the wire — and the
;; events-side orchestration over provisional holds (booking.sx). commerce
;; imports these shapes; the dependency only points one way.
;;
;; checkout-request events -> commerce "take payment for this seat"
;; {:kind :events.checkout :occ-key :actor :amount :currency :ref}
;;
;; payment-result commerce -> events "here's how payment went"
;; {:kind :events.payment :occ-key :actor :ref :status}
;; :status ∈ :paid | :failed | :expired
;;
;; Flow: ev/request-ticket! places a capacity-safe HOLD (reserving the seat so
;; it can't be oversold while payment pends) and returns a checkout-request to
;; hand to commerce. When commerce reports back, ev/settle-payment! confirms the
;; hold on :paid or releases it otherwise. Settlement is idempotent — an
;; at-least-once redelivery of the same result is safe. `ref` is the opaque
;; correlation/idempotency id; occ-key + actor locate the hold, so settlement
;; needs no side table.
;; ---- contract: checkout request (events -> commerce) ----
(define
ev/checkout-request
(fn (occ-key actor amount currency ref) {:actor actor :amount amount :kind :events.checkout :ref ref :currency currency :occ-key occ-key}))
(define
ev/checkout-request?
(fn (m) (and (dict? m) (= (get m :kind) :events.checkout))))
(define ev/req-occ-key (fn (r) (get r :occ-key)))
(define ev/req-actor (fn (r) (get r :actor)))
(define ev/req-amount (fn (r) (get r :amount)))
(define ev/req-currency (fn (r) (get r :currency)))
(define ev/req-ref (fn (r) (get r :ref)))
;; ---- contract: payment result (commerce -> events) ----
(define ev/payment-result (fn (occ-key actor ref status) {:actor actor :kind :events.payment :status status :ref ref :occ-key occ-key}))
(define
ev/payment-result?
(fn (m) (and (dict? m) (= (get m :kind) :events.payment))))
(define ev/result-occ-key (fn (r) (get r :occ-key)))
(define ev/result-actor (fn (r) (get r :actor)))
(define ev/result-ref (fn (r) (get r :ref)))
(define ev/result-status (fn (r) (get r :status)))
(define
ev/payment-paid
(fn (occ-key actor ref) (ev/payment-result occ-key actor ref :paid)))
(define
ev/payment-failed
(fn (occ-key actor ref) (ev/payment-result occ-key actor ref :failed)))
(define
ev/payment-expired
(fn (occ-key actor ref) (ev/payment-result occ-key actor ref :expired)))
;; ---- orchestration ----
;; Begin a paid booking: place a capacity-safe hold and, if reserved, return a
;; checkout-request for commerce. :full when no seat; :already when the actor
;; already holds/booked this occurrence (no duplicate request).
(define
ev/request-ticket!
(fn
(b occ-key capacity actor amount currency ref)
(let
((h (ev/hold! b occ-key capacity actor)))
(cond
((= (get h :status) :held) {:seat (get h :seat) :request (ev/checkout-request occ-key actor amount currency ref) :status :awaiting-payment})
((= (get h :status) :already) {:seat (get h :seat) :status :already})
(else {:capacity capacity :status :full})))))
;; Settle a payment result from commerce. :paid confirms the hold; :failed /
;; :expired release it. Idempotent: a redelivered :paid stays :confirmed, a
;; redelivered release is a :noop. If a :paid arrives for a hold that is already
;; gone (released/expired first), returns :paid-but-no-hold so the caller can
;; trigger a refund.
(define
ev/settle-payment!
(fn
(b result)
(let
((occ-key (ev/result-occ-key result))
(actor (ev/result-actor result))
(ref (ev/result-ref result)))
(if
(= (ev/result-status result) :paid)
(let
((c (ev/confirm! b occ-key actor)))
(cond
((= (get c :status) :confirmed) {:actor actor :status :confirmed :ref ref})
((= (get c :status) :already-confirmed) {:actor actor :status :confirmed :ref ref})
(else {:actor actor :status :paid-but-no-hold :ref ref})))
(let
((r (ev/release! b occ-key actor)))
(if (= (get r :status) :released) {:actor actor :status :released :ref ref} {:actor actor :status :noop :ref ref}))))))

141
lib/flow/README.md Normal file
View File

@@ -0,0 +1,141 @@
# flow — durable DAG workflows on Scheme
`flow` is a workflow engine for rose-ash: content pipelines (write → review →
publish → federate), scheduled jobs, and multi-step user flows (signup, confirm,
onboard) that **survive process restarts**. It is a thin Scheme prelude over the
Scheme-on-SX guest (`lib/scheme/`); a flow runs *inside* the interpreter.
Run the suite: `bash lib/flow/conformance.sh`**151/151 across 10 suites**.
## Model
A **flow** is just a Scheme procedure of one argument — the upstream value:
```
node : input -> output
```
Combinators build composite nodes out of child nodes. A node that ignores its
argument is effectively a thunk. There is no separate "graph" object: composition
*is* function composition, so flows are values you can name, pass, and nest.
```scheme
(defflow publish
(sequence
(lambda (draft) (string-append draft "!"))
(branch (lambda (post) (>= (string-length post) 3))
(remote-node 'fed 'publish)
(flow-const 'rejected))))
(flow/start publish "hello") ; => federated, or a (flow-suspended id tag) state
```
## Building blocks (`spec.sx`)
| Combinator | Meaning |
|---|---|
| `(flow-node f)` / `(flow-id x)` / `(flow-const v)` | leaf nodes |
| `(sequence n ...)` | thread input left-to-right |
| `(parallel n ...)` | fan input to every child, join results into a list (sequential eval) |
| `(map-flow node)` | run `node` over each item of a list input, join results |
| `(flow-while pred body max)` / `(flow-until ...)` | bounded iteration (cap `max` steps) |
| `(defflow name body)` | bind + register a named flow (so it survives restart) |
## Control flow + errors (`spec.sx`)
| Combinator | Meaning |
|---|---|
| `(branch pred then else)` | `pred` on input selects `then`/`else` (`cond` is a Scheme special form) |
| `(retry n node)` | re-run on a *raised exception*, up to `n` attempts |
| `(timeout budget node)` | cooperative **step budget**: nodes call `(tick)`; the `(budget+1)`-th tick raises `flow-timeout` |
| `(try-catch node handler)` | catch a raised exception → `(handler error)` |
| `(fail reason)` / `(failed? x)` / `(fail-reason x)` | explicit failure *values* (flow downstream as data) |
| `(recover node handler)` | the fail-VALUE counterpart of try-catch |
| `(attempt n ...)` | railway sequence: stop at the first node returning a `(fail ...)` |
| `(tap effect)` | run a side effect, return input unchanged |
**Two error channels, on purpose.** Raised exceptions are for *bugs/transients*
(caught by `retry`/`try-catch`). `(fail reason)` values are for *expected business
outcomes* (validation rejected, declined) and compose via `attempt`/`recover`.
## Suspend / resume — the durable core (`spec.sx`, `store.sx`)
The guest Scheme's `call/cc` is **escape-only** — re-invoking a captured
continuation after it returns *hangs* the runtime. So flow does **not** serialize
continuations. Instead it uses **deterministic replay**:
- `(suspend tag)` — if `tag` is already in the replay log, return its logged value;
otherwise escape to the driver as `(flow-suspended tag)`.
- `resume` appends `(tag value)` to the log and **re-runs the flow from the start**.
Already-resolved suspends replay their values; the first unresolved one escapes
again (or the flow completes).
The entire persisted state is the replay log — plain data. No live continuation is
ever stored, so flows survive process restarts and even moves between instances.
> **Author contract:** suspend `tag`s must be unique and deterministic across
> replays, and **all** non-determinism / side effects must go through suspend
> points (so their results are logged) — otherwise they re-run on every replay.
### Lifecycle (`store.sx`)
```scheme
(flow/start flow input) ; raw result if it completes, else (flow-suspended id tag)
(flow/resume id value) ; inject value at the waiting tag, continue
(flow/cancel id) ; terminate; a later resume is rejected
```
### Introspection & hygiene
```scheme
(flow/status id) ; done | suspended | cancelled | unknown
(flow/result id) ; result if done, else (flow-error reason)
(flow/list) ; ((id status) ...)
(flow/pending) ; ((id waiting-tag) ...) — what each suspended flow awaits
(flow/gc) ; drop terminal records, keep live ones; returns count removed
(flow/forget id) ; drop one terminal record (refuses live flows)
```
### Crash recovery
```scheme
(flow-store-export) ; the store as plain data (live procs nulled)
(flow-store-import! d) ; restore the store from exported data
(flow-resumable-ids) ; ids of suspended flows to wake on restart
```
On restart the flow definitions are reloaded (`defflow` re-registers names) and the
exported store reimported; `resume` re-resolves each flow's procedure **by name**.
## Distribution via fed-sx (`remote.sx`)
```scheme
(flow-peer-register! addr table) ; mock a peer's exposed functions (fed-sx boundary)
(remote-node addr fn) ; run a node on a peer
(remote-failover addrs fn local) ; try peers in order, fall through to a local node
(flow-replicate-to addr) ; copy this store to a peer's replica slot
(flow-restore-from addr) ; import a peer's replica (handoff)
```
**Handoff** is crash recovery across instances: replicate → local instance dies →
peer restores the (plain-data) store and resumes. The replay log carries over, so
all resolved suspends survive the move.
## Files
| File | Contents |
|---|---|
| `spec.sx` | combinators (flow-combinators-src / flow-control-src / flow-suspend-src) |
| `store.sx` | durable store, lifecycle, crash recovery, introspection, hygiene |
| `remote.sx` | fed-sx transport (mock peer registry), failover, replication |
| `api.sx` | `flow-make-env` / `flow-run` SX helpers (one cached env, per-test reset) |
| `tests/*.sx` | 10 suites, 151 cases |
| `conformance.sh` | loads substrate + flow layer, runs every suite |
## Notes on the substrate
The guest Scheme (`lib/scheme/`, imported read-only) lacks dotted-rest params
`(a . rest)` and named `let`; combinators use `(lambda args ...)` variadics + top-
level recursion. `cons` is list-only (no dotted pairs), so log/assoc entries are
2-element lists. Strings box as `{:scm-string "..."}`. Timeout is a step budget
because there is no wall clock; `parallel` is sequential for the same reason.

65
lib/flow/api.sx Normal file
View File

@@ -0,0 +1,65 @@
;; lib/flow/api.sx — flow runtime entry points.
;;
;; Builds a Scheme env preloaded with the flow combinators (lib/flow/spec.sx),
;; the durable store + lifecycle (lib/flow/store.sx), the fed-sx remote layer
;; (lib/flow/remote.sx), and the host integration ABI (lib/flow/host.sx), and
;; provides SX helpers to run flow programs.
;;
;; Scheme-level API (available inside flow programs):
;; (flow/start flow input) — run a flow; raw result if it completes, else
;; (flow-suspended id tag). Defined in store.sx.
;; (flow/resume id value) — resume a suspended flow (store.sx)
;; (flow/cancel id) — cancel a flow (store.sx)
;; (suspend tag) — suspension point (spec.sx)
;; (request kind payload) — host request envelope over suspend (host.sx)
;; (remote-node addr fn) — node executed on a federation peer (remote.sx)
;;
;; SX-level helpers (for hosts and tests):
;; (flow-make-env) — fresh standard env + combinators + store + remote + host
;; (flow-run src) — eval a Scheme program string in a reset shared env
;; (flow-run-in env src) — eval a Scheme program string in a given env
;;
;; flow-run reuses ONE env (building the full standard env is expensive) and
;; resets the mutable flow globals before each program, so tests stay isolated
;; without paying for a fresh standard env each time. flow-registry persists (it
;; models reloaded flow definitions surviving a restart).
(define
flow-make-env
(fn
()
(let
((env (scheme-standard-env)))
(flow-load-combinators! env)
(flow-load-store! env)
(flow-load-remote! env)
(flow-load-host! env)
env)))
(define
flow-run-in
(fn (env src) (scheme-eval-program (scheme-parse-all src) env)))
(define
flow-reset-src
"(set! flow-store (list)) (set! flow-next-id 0) (set! flow-replay-log (list)) (set! flow-suspend-k #f) (set! flow-timeout-budget -1) (set! flow-peers (list)) (set! flow-replicas (list))")
(define flow-env-cache false)
(define
flow-shared-env
(fn
()
(begin
(if flow-env-cache nil (set! flow-env-cache (flow-make-env)))
flow-env-cache)))
(define
flow-run
(fn
(src)
(let
((env (flow-shared-env)))
(begin
(scheme-eval-program (scheme-parse-all flow-reset-src) env)
(scheme-eval-program (scheme-parse-all src) env)))))

103
lib/flow/conformance.sh Executable file
View File

@@ -0,0 +1,103 @@
#!/usr/bin/env bash
# flow-on-sx conformance runner — runs all flow test suites in one sx_server process.
#
# Usage:
# bash lib/flow/conformance.sh # run all suites
# bash lib/flow/conformance.sh -v # verbose (list each 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="${1:-}"
# Suites: NAME RUNNER-FN PATH
SUITES=(
"basic flow-basic-tests-run! lib/flow/tests/basic.sx"
"control flow-ctl-tests-run! lib/flow/tests/control.sx"
"suspend flow-sus-tests-run! lib/flow/tests/suspend.sx"
"recovery flow-rec-tests-run! lib/flow/tests/recovery.sx"
"distributed flow-dist-tests-run! lib/flow/tests/distributed.sx"
"api flow-api-tests-run! lib/flow/tests/api.sx"
"combinators flow-cmb-tests-run! lib/flow/tests/combinators.sx"
"railway flow-rail-tests-run! lib/flow/tests/railway.sx"
"integration flow-int-tests-run! lib/flow/tests/integration.sx"
"hygiene flow-hyg-tests-run! lib/flow/tests/hygiene.sx"
"host flow-hst-tests-run! lib/flow/tests/host.sx"
)
TMPFILE=$(mktemp); trap "rm -f $TMPFILE" EXIT
EPOCH=1
emit_load () { echo "(epoch $EPOCH)"; echo "(load \"$1\")"; EPOCH=$((EPOCH+1)); }
emit_eval () { echo "(epoch $EPOCH)"; echo "(eval \"$1\")"; EPOCH=$((EPOCH+1)); }
{
emit_load "lib/guest/lex.sx"
emit_load "lib/guest/reflective/env.sx"
emit_load "lib/guest/reflective/quoting.sx"
emit_load "lib/scheme/parser.sx"
emit_load "lib/scheme/eval.sx"
emit_load "lib/scheme/runtime.sx"
emit_load "lib/flow/spec.sx"
emit_load "lib/flow/store.sx"
emit_load "lib/flow/remote.sx"
emit_load "lib/flow/host.sx"
emit_load "lib/flow/api.sx"
for SUITE in "${SUITES[@]}"; do
read -r _NAME _RUNNER FILE <<< "$SUITE"
emit_load "$FILE"
emit_eval "($_RUNNER)"
done
} > "$TMPFILE"
OUTPUT=$(timeout 540 "$SX_SERVER" < "$TMPFILE" 2>&1 || true)
TOTAL_PASS=0
TOTAL_FAIL=0
FAILED_SUITES=()
LAST_DICT_LINES=$(echo "$OUTPUT" | grep -E '^\{:' || true)
I=0
while read -r LINE; do
[ -z "$LINE" ] && continue
P=$(echo "$LINE" | grep -oE ':passed [0-9]+' | awk '{print $2}')
F=$(echo "$LINE" | grep -oE ':failed [0-9]+' | awk '{print $2}')
[ -z "$P" ] && P=0
[ -z "$F" ] && F=0
SUITE_INFO="${SUITES[$I]}"
SUITE_NAME=$(echo "$SUITE_INFO" | awk '{print $1}')
TOTAL_PASS=$((TOTAL_PASS + P))
TOTAL_FAIL=$((TOTAL_FAIL + F))
if [ "$F" -gt 0 ]; then
FAILED_SUITES+=("$SUITE_NAME: $P/$((P+F))")
printf 'X %-12s %d/%d\n' "$SUITE_NAME" "$P" "$((P+F))"
echo "$LINE" | grep -oE ':name "[^"]*"' | sed 's/:name / fail: /'
elif [ "$VERBOSE" = "-v" ]; then
printf 'ok %-12s %d passed\n' "$SUITE_NAME" "$P"
fi
I=$((I+1))
done <<< "$LAST_DICT_LINES"
TOTAL=$((TOTAL_PASS + TOTAL_FAIL))
if [ "$TOTAL" -eq 0 ]; then
echo "ERROR: no suite results parsed. Raw output:" >&2
echo "$OUTPUT" >&2
exit 1
fi
if [ $TOTAL_FAIL -eq 0 ]; then
echo "ok $TOTAL_PASS/$TOTAL flow-on-sx tests passed (${#SUITES[@]} suites)"
else
echo "FAIL $TOTAL_PASS/$TOTAL passed, $TOTAL_FAIL failed:"
for S in "${FAILED_SUITES[@]}"; do echo " $S"; done
exit 1
fi

42
lib/flow/host.sx Normal file
View File

@@ -0,0 +1,42 @@
;; lib/flow/host.sx — the host integration ABI (Phase 8).
;;
;; `suspend` is flow's seam to the outside world, but a bare (suspend tag) is just a
;; signal — every author would invent their own tag shape. This layer defines a
;; stable request/response contract so a host (e.g. an art-dag driver, or a human
;; review UI) can hook in WITHOUT reverse-engineering ad-hoc tags.
;;
;; A flow asks the host to do something and waits for the answer:
;; (request kind payload) — suspend with a typed envelope (flow-request kind
;; payload); evaluates to the host's resume value.
;; (await-human prompt) — request kind=human (a decision point)
;; (await-render recipe) — request kind=render (e.g. an art-dag job)
;; (await-effect kind p) — request of an arbitrary kind
;;
;; The host drives flows by polling its work queue and resuming:
;; (flow-host-requests) — ((id kind payload) ...) for every SUSPENDED flow whose
;; waiting tag is a host request. The host dispatches by kind (render -> submit a
;; Celery job; human -> show UI), then calls (flow/resume id answer).
;; (request? tag) / (request-kind tag) / (request-payload tag) — parse one tag.
;;
;; Reference driver — the host only supplies `dispatch`, a (kind payload) -> answer:
;; (flow-drive-host dispatch) — one tick: service every CURRENTLY pending
;; request (snapshot), resuming each with (dispatch kind payload); returns the
;; count serviced. Resumes may create new requests — serviced on the next tick.
;; (flow-run-host dispatch maxticks) — tick until quiescent (no pending requests)
;; or maxticks reached; returns total requests serviced. Bounded for determinism.
;;
;; Contract: the host owns IO and persistence. flow stays deterministic — a flow
;; never performs IO itself, it only `request`s; the host performs the effect and
;; feeds the result back via resume (which the replay log records, so the effect is
;; not re-run on recovery). Persist with flow-store-export after each transition and
;; flow-store-import! on boot.
(define
flow-host-src
"(define (request kind payload) (suspend (list (quote flow-request) kind payload)))\n (define (request? tag) (and (pair? tag) (eq? (car tag) (quote flow-request))))\n (define (request-kind tag) (car (cdr tag)))\n (define (request-payload tag) (car (cdr (cdr tag))))\n (define (await-human prompt) (request (quote human) prompt))\n (define (await-render recipe) (request (quote render) recipe))\n (define (await-effect kind payload) (request kind payload))\n (define (flow-host-req-step pend)\n (if (null? pend)\n (list)\n (let ((id (car (car pend))) (tag (car (cdr (car pend)))))\n (if (request? tag)\n (cons (list id (request-kind tag) (request-payload tag))\n (flow-host-req-step (cdr pend)))\n (flow-host-req-step (cdr pend))))))\n (define (flow-host-requests) (flow-host-req-step (flow/pending)))\n (define (flow-drive-host-step reqs dispatch)\n (if (null? reqs)\n 0\n (begin\n (flow/resume (car (car reqs)) (dispatch (car (cdr (car reqs))) (car (cdr (cdr (car reqs))))))\n (+ 1 (flow-drive-host-step (cdr reqs) dispatch)))))\n (define (flow-drive-host dispatch) (flow-drive-host-step (flow-host-requests) dispatch))\n (define (flow-run-host dispatch maxticks)\n (if (<= maxticks 0)\n 0\n (let ((n (flow-drive-host dispatch)))\n (if (= n 0) 0 (+ n (flow-run-host dispatch (- maxticks 1)))))))")
(define
flow-load-host!
(fn
(env)
(begin (scheme-eval-program (scheme-parse-all flow-host-src) env) env)))

34
lib/flow/remote.sx Normal file
View File

@@ -0,0 +1,34 @@
;; lib/flow/remote.sx — distributed nodes via fed-sx (Phase 4).
;;
;; A node can execute on a federation peer. The transport is the fed-sx boundary;
;; it is MOCKED in tests by a peer registry mapping addr -> function table. In
;; production flow-transport would issue a fed-sx call; here it dispatches locally.
;;
;; (flow-peer-register! addr table) — register a mock peer. table is a list of
;; (fn-name proc) entries — the functions that peer exposes.
;; (flow-transport addr fn input) — invoke fn on the peer with input. Raises
;; (flow-remote-unreachable) if the addr is unknown, (flow-remote-no-fn) if the
;; peer does not expose fn.
;; (remote-node addr fn) — a node that runs fn on the peer at addr.
;; (remote-failover addrs fn local) — try fn on each peer in addrs in order; on a
;; raised error move to the next peer; if every peer fails, run the `local`
;; node as a fallback.
;;
;; Persistence across instances + handoff. Each instance runs the same flow
;; definitions, so the only thing that needs to cross the wire is the (plain-data)
;; store — exactly flow-store-export from store.sx. Replication pushes that export
;; to a peer's replica slot; handoff = restore the replica on the peer and resume.
;;
;; (flow-replicate-to addr) — copy this instance's store to peer addr's replica
;; (flow-restore-from addr) — import the replica from peer addr (#t / #f)
;; (flow-replica-get addr) — the raw replicated store at addr (or #f)
(define
flow-remote-src
"(define flow-peers (list))\n (define (flow-assoc key alist)\n (if (null? alist)\n #f\n (if (eq? (car (car alist)) key) (car (cdr (car alist))) (flow-assoc key (cdr alist)))))\n (define (flow-peer-register! addr table) (set! flow-peers (cons (list addr table) flow-peers)))\n (define (flow-transport addr fn input)\n (let ((table (flow-assoc addr flow-peers)))\n (if table\n (let ((proc (flow-assoc fn table)))\n (if proc (proc input) (raise (quote flow-remote-no-fn))))\n (raise (quote flow-remote-unreachable)))))\n (define (remote-node addr fn) (lambda (input) (flow-transport addr fn input)))\n (define (flow-failover-step addrs fn input local)\n (if (null? addrs)\n (local input)\n (guard (e (#t (flow-failover-step (cdr addrs) fn input local)))\n (flow-transport (car addrs) fn input))))\n (define (remote-failover addrs fn local)\n (lambda (input) (flow-failover-step addrs fn input local)))\n\n (define flow-replicas (list))\n (define (flow-replicas-remove addr reps)\n (if (null? reps)\n (list)\n (if (eq? (car (car reps)) addr)\n (flow-replicas-remove addr (cdr reps))\n (cons (car reps) (flow-replicas-remove addr (cdr reps))))))\n (define (flow-replicate-to addr)\n (set! flow-replicas (cons (list addr (flow-store-export)) (flow-replicas-remove addr flow-replicas))))\n (define (flow-replica-get addr) (flow-assoc addr flow-replicas))\n (define (flow-restore-from addr)\n (let ((data (flow-replica-get addr)))\n (if data (begin (flow-store-import! data) #t) #f)))")
(define
flow-load-remote!
(fn
(env)
(begin (scheme-eval-program (scheme-parse-all flow-remote-src) env) env)))

19
lib/flow/scoreboard.json Normal file
View File

@@ -0,0 +1,19 @@
{
"total": 166,
"passed": 166,
"failed": 0,
"suites": {
"basic": { "passed": 18, "total": 18 },
"control": { "passed": 31, "total": 31 },
"suspend": { "passed": 17, "total": 17 },
"recovery": { "passed": 8, "total": 8 },
"distributed": { "passed": 19, "total": 19 },
"api": { "passed": 12, "total": 12 },
"combinators": { "passed": 17, "total": 17 },
"railway": { "passed": 10, "total": 10 },
"integration": { "passed": 10, "total": 10 },
"hygiene": { "passed": 9, "total": 9 },
"host": { "passed": 15, "total": 15 }
},
"phases": { "phase1": "done", "phase2": "done", "phase3": "done", "phase4": "done", "phase5": "done", "phase6": "done", "phase7": "done", "phase8": "done" }
}

53
lib/flow/scoreboard.md Normal file
View File

@@ -0,0 +1,53 @@
# flow-on-sx Scoreboard
**All tests pass: 166 / 166 across 11 suites. Phases 1-8 complete.**
`bash lib/flow/conformance.sh`
## Per-suite breakdown
| Suite | Passing | Covers |
|-------|--------:|--------|
| basic | 18 | Phase 1: single nodes, linear sequence, data-flow threading, defflow, parallel fan/join, nested composition, publish-shaped flow |
| control | 31 | Phase 2: `branch` (6); error model `fail`/`failed?`/`fail-reason` (6); `try-catch` (6); `retry n` (6); `timeout` cooperative step budget (7) |
| suspend | 17 | Phase 3: suspend/resume/cancel via deterministic replay; multi-step, replay determinism, lifecycle guards, suspend-in-branch |
| recovery | 8 | Phase 3: crash recovery — store export/import, resumable scan, restart-at-every-step, replay-log survival |
| distributed | 19 | Phase 4: `remote-node` (7); `remote-failover` (6); replication + handoff across instances (6) |
| api | 12 | Phase 5: introspection — `flow/status`, `flow/result`, `flow/list`, `flow/pending` |
| combinators | 17 | Phase 5: `tap`, `recover` (fail-value), `map-flow` fan-over-list, `flow-while`/`flow-until` bounded iteration |
| railway | 10 | Phase 6: `attempt` — fail-value short-circuiting sequence + recover rejoin |
| integration | 10 | Phase 7: end-to-end order + onboarding flows composing every phase (suspend, branch, federation, crash recovery, handoff, introspection) |
| hygiene | 9 | Phase 5: `flow/gc` (prune terminal flows), `flow/forget` (drop one terminal record) |
| host | 15 | Phase 8: host ABI — `request`/`await-human`/`await-render`, `flow-host-requests` queue, `flow-run-host` reference driver; art-dag-shaped render→review→publish loop |
## Architecture
Flow combinators are a **Scheme prelude** (`lib/flow/spec.sx`) loaded onto
`scheme-standard-env`. A flow is a Scheme procedure `input -> output`. The whole
flow executes inside the Scheme interpreter, so Phase 3's `suspend` (call/cc) will
capture the flow continuation directly.
- `lib/flow/spec.sx` — combinators: `flow-node`, `flow-id`, `flow-const`,
`sequence`, `parallel`, `defflow`; `flow-load-combinators!`.
- `lib/flow/api.sx``flow/start` (Scheme); `flow-make-env`, `flow-run`,
`flow-run-in` (SX helpers).
- `lib/flow/tests/basic.sx` — 18 cases.
- `lib/flow/conformance.sh` — loads substrate + flow layer, runs suites.
## Semantics notes
- **node** = 1-arg Scheme procedure; the upstream value is the argument. A node
ignoring its argument is effectively a thunk.
- **sequence** threads left-to-right; empty sequence = identity.
- **parallel** fans the same input to every branch and joins results into a list.
Evaluation is **sequential** for now; true concurrency arrives in Phase 3.
## Phases
- [x] Phase 1 — Declarative DAG + sequential execution (combinators + 18 tests, `flow/start`)
- [x] Phase 2 — Control flow + error handling (branch, error model, try-catch, retry, timeout)
- [x] Phase 3 — Suspend/resume (suspend/resume/cancel + crash recovery via deterministic replay)
- [x] Phase 4 — Distributed nodes via fed-sx (remote-node, failover, replication + handoff)
- [x] Phase 5 — Operational API + combinators (introspection, tap, recover, map-flow)
- [ ] Phase 3 — Suspend / resume (the showcase)
- [ ] Phase 4 — Distributed nodes via fed-sx

61
lib/flow/spec.sx Normal file
View File

@@ -0,0 +1,61 @@
;; lib/flow/spec.sx — flow combinators as a Scheme prelude.
;;
;; A flow is a Scheme procedure of one argument: the upstream value.
;; node : input -> output
;; A leaf node ignoring its argument is effectively a thunk. Combinators
;; build composite nodes out of child nodes. The whole flow runs INSIDE the
;; Scheme interpreter.
;;
;; Phase 1 combinators (flow-combinators-src):
;; flow-node / flow-id / flow-const / sequence / parallel / defflow
;; defflow both binds the flow and registers it by name (flow-register!, in
;; store.sx) so it can be re-resolved after a process restart.
;; map-flow (Phase 5): run a node over each item of a list input, join results.
;; flow-while / flow-until (Phase 5): bounded iteration — re-run body, threading
;; the value, while/until pred holds, up to `max` steps (deterministic bound; no
;; unbounded loops in pure SX).
;;
;; Phase 2 combinators (flow-control-src):
;; branch / fail / failed? / fail-reason / try-catch / retry / timeout / tick
;; tap (Phase 5): side-effecting pass-through (returns input unchanged).
;; recover (Phase 5): the fail-VALUE counterpart of try-catch.
;; attempt (Phase 6): railway sequence — thread nodes left-to-right but stop at
;; the first node that returns a (fail ...) value, returning that failure.
;;
;; Phase 3 suspend core (flow-suspend-src):
;; The guest Scheme's call/cc is ESCAPE-ONLY (re-invoking a captured k after it
;; returns hangs the runtime), so suspend/resume CANNOT re-enter a continuation.
;; Instead, durability uses DETERMINISTIC REPLAY: a flow re-runs from the start
;; on each resume; suspend points that have already been resolved replay their
;; logged value, and the first unresolved suspend escapes back to the driver.
;; The entire persisted state is the replay log (plain (tag value) data), which
;; survives process restart — no live continuation is ever serialized.
;;
;; (suspend tag) — if tag is in the replay log, return its value; else escape
;; to the driver as (flow-suspended tag). tags must be unique & deterministic
;; across replays. ALL effects/non-determinism must go through suspend so their
;; results are logged (otherwise they re-run on every replay).
;; (flow-drive flow input log) — run flow with the given replay log; returns
;; (flow-done result) or (flow-suspended tag).
(define
flow-combinators-src
"(define (flow-node f) f)\n (define (flow-id input) input)\n (define (flow-const v) (lambda (input) v))\n (define (flow-seq-step ns v)\n (if (null? ns) v (flow-seq-step (cdr ns) ((car ns) v))))\n (define sequence (lambda ns (lambda (input) (flow-seq-step ns input))))\n (define parallel (lambda ns (lambda (input) (map (lambda (n) (n input)) ns))))\n (define (map-flow node) (lambda (items) (map node items)))\n (define (flow-while-step pred body input n)\n (if (<= n 0)\n input\n (if (pred input) (flow-while-step pred body (body input) (- n 1)) input)))\n (define (flow-while pred body max) (lambda (input) (flow-while-step pred body input max)))\n (define (flow-until-step pred body input n)\n (if (<= n 0)\n input\n (if (pred input) input (flow-until-step pred body (body input) (- n 1)))))\n (define (flow-until pred body max) (lambda (input) (flow-until-step pred body input max)))\n (define-syntax defflow\n (syntax-rules ()\n ((defflow nm body)\n (begin (define nm body) (flow-register! (quote nm) nm)))))")
(define
flow-control-src
"(define (branch pred then else)\n (lambda (input) (if (pred input) (then input) (else input))))\n (define (fail reason) (list (quote flow-fail) reason))\n (define (failed? x) (and (pair? x) (eq? (car x) (quote flow-fail))))\n (define (fail-reason x) (car (cdr x)))\n (define (recover node handler)\n (lambda (input)\n (let ((r (node input)))\n (if (failed? r) (handler (fail-reason r)) r))))\n (define (tap effect)\n (lambda (input) (begin (effect input) input)))\n (define (flow-attempt-step ns v)\n (if (failed? v)\n v\n (if (null? ns) v (flow-attempt-step (cdr ns) ((car ns) v)))))\n (define attempt (lambda ns (lambda (input) (flow-attempt-step ns input))))\n (define (try-catch node handler)\n (lambda (input) (guard (e (#t (handler e))) (node input))))\n (define (flow-retry-step n node input)\n (guard (e (#t (if (<= n 1) (raise e) (flow-retry-step (- n 1) node input))))\n (node input)))\n (define (retry n node) (lambda (input) (flow-retry-step n node input)))\n (define flow-timeout-budget -1)\n (define (tick)\n (if (< flow-timeout-budget 0)\n 0\n (begin\n (set! flow-timeout-budget (- flow-timeout-budget 1))\n (if (< flow-timeout-budget 0)\n (raise (quote flow-timeout))\n flow-timeout-budget))))\n (define (timeout budget node)\n (lambda (input)\n (let ((saved flow-timeout-budget))\n (set! flow-timeout-budget budget)\n (guard (e (#t (begin (set! flow-timeout-budget saved) (raise e))))\n (let ((result (node input)))\n (set! flow-timeout-budget saved)\n result)))))")
(define
flow-suspend-src
"(define flow-replay-log (list))\n (define flow-suspend-k #f)\n (define (flow-log-lookup tag log)\n (if (null? log)\n (list #f #f)\n (if (eq? (car (car log)) tag)\n (list #t (car (cdr (car log))))\n (flow-log-lookup tag (cdr log)))))\n (define (suspend tag)\n (let ((hit (flow-log-lookup tag flow-replay-log)))\n (if (car hit)\n (car (cdr hit))\n (flow-suspend-k (list (quote flow-suspended) tag)))))\n (define (flow-drive flow input log)\n (set! flow-replay-log log)\n (call/cc\n (lambda (k)\n (set! flow-suspend-k k)\n (list (quote flow-done) (flow input)))))")
(define
flow-load-combinators!
(fn
(env)
(begin
(scheme-eval-program (scheme-parse-all flow-combinators-src) env)
(scheme-eval-program (scheme-parse-all flow-control-src) env)
(scheme-eval-program (scheme-parse-all flow-suspend-src) env)
env)))

45
lib/flow/store.sx Normal file
View File

File diff suppressed because one or more lines are too long

79
lib/flow/tests/api.sx Normal file
View File

@@ -0,0 +1,79 @@
;; lib/flow/tests/api.sx — Phase 5: operational introspection API.
(define flow-api-pass 0)
(define flow-api-fail 0)
(define flow-api-fails (list))
(define
flow-api-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-api-pass (+ flow-api-pass 1))
(begin
(set! flow-api-fail (+ flow-api-fail 1))
(append! flow-api-fails {:name name :expected expected :actual actual})))))
(define flow-a (fn (src) (flow-run src)))
;; ── flow/status ─────────────────────────────────────────────────
(flow-api-test "status: unknown id" (flow-a "(flow/status 999)") "unknown")
(flow-api-test
"status: suspended flow"
(flow-a
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/status id)")
"suspended")
(flow-api-test
"status: completed flow"
(flow-a
"(defflow w (sequence (lambda (x) (suspend (quote q))) (lambda (v) v))) (define id (car (cdr (flow/start w 0)))) (flow/resume id 5) (flow/status id)")
"done")
(flow-api-test
"status: cancelled flow"
(flow-a
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/cancel id) (flow/status id)")
"cancelled")
;; ── flow/result ─────────────────────────────────────────────────
(flow-api-test
"result: returns the value of a completed flow"
(flow-a
"(defflow w (sequence (lambda (x) (suspend (quote q))) (lambda (v) (list (quote got) v)))) (define id (car (cdr (flow/start w 0)))) (flow/resume id 9) (flow/result id)")
(list "got" 9))
(flow-api-test
"result: a still-suspended flow has no result"
(flow-a
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/result id)")
(list "flow-error" "not-done"))
(flow-api-test
"result: unknown id errors"
(flow-a "(flow/result 999)")
(list "flow-error" "no-such-flow"))
;; ── flow/list ───────────────────────────────────────────────────
(flow-api-test "list: empty store" (flow-a "(flow/list)") (list))
(flow-api-test
"list: reports id + status for each flow (newest first)"
(flow-a
"(defflow w (lambda (x) (suspend (quote q)))) (flow/start w 0) (flow/start (lambda (x) (* x 2)) 5) (flow/list)")
(list (list 2 "done") (list 1 "suspended")))
;; ── flow/pending ────────────────────────────────────────────────
(flow-api-test
"pending: lists suspended flows with their waiting tag"
(flow-a
"(defflow w (lambda (x) (suspend (quote review)))) (flow/start w 0) (flow/pending)")
(list (list 1 "review")))
(flow-api-test
"pending: excludes completed and cancelled flows"
(flow-a
"(defflow w (lambda (x) (suspend (quote q)))) (defflow v (sequence (lambda (x) (suspend (quote r))) (lambda (y) y))) (define i1 (car (cdr (flow/start w 0)))) (define i2 (car (cdr (flow/start v 0)))) (define i3 (car (cdr (flow/start w 0)))) (flow/resume i2 1) (flow/cancel i3) (flow/pending)")
(list (list 1 "q")))
(flow-api-test
"pending: operator can drain all pending flows"
(flow-a
"(defflow w (sequence (lambda (x) (suspend (quote q))) (lambda (v) (* v 10)))) (flow/start w 0) (flow/start w 0) (define ps (flow/pending)) (flow/resume (car (car ps)) 1) (flow/resume (car (car (cdr ps))) 2) (flow/list)")
(list (list 1 "done") (list 2 "done")))
(define flow-api-tests-run! (fn () {:total (+ flow-api-pass flow-api-fail) :passed flow-api-pass :failed flow-api-fail :fails flow-api-fails}))

121
lib/flow/tests/basic.sx Normal file
View File

@@ -0,0 +1,121 @@
;; lib/flow/tests/basic.sx — Phase 1: declarative DAG + sequential execution.
(define flow-basic-pass 0)
(define flow-basic-fail 0)
(define flow-basic-fails (list))
(define
flow-basic-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-basic-pass (+ flow-basic-pass 1))
(begin
(set! flow-basic-fail (+ flow-basic-fail 1))
(append! flow-basic-fails {:name name :expected expected :actual actual})))))
;; Run a Scheme flow-program string and return its final value.
(define flow-b (fn (src) (flow-run src)))
;; Scheme strings are boxed as {:scm-string "..."}; unwrap to a host string.
(define flow-bs (fn (src) (get (flow-run src) :scm-string)))
;; ── single node ─────────────────────────────────────────────────
(flow-basic-test
"node: identity passes input through"
(flow-b "(flow/start flow-id 7)")
7)
(flow-basic-test
"node: const ignores input"
(flow-b "(flow/start (flow-const 99) 1)")
99)
(flow-basic-test
"node: bare lambda is a node"
(flow-b "(flow/start (lambda (x) (* x x)) 6)")
36)
;; ── linear sequence ─────────────────────────────────────────────
(flow-basic-test
"sequence: empty is identity"
(flow-b "(flow/start (sequence) 42)")
42)
(flow-basic-test
"sequence: single child"
(flow-b "(flow/start (sequence (lambda (x) (+ x 1))) 41)")
42)
(flow-basic-test
"sequence: two children thread"
(flow-b
"(flow/start (sequence (lambda (x) (+ x 1)) (lambda (x) (* x 10))) 4)")
50)
(flow-basic-test
"sequence: three children thread"
(flow-b
"(flow/start (sequence (lambda (x) (+ x 1)) (lambda (x) (* x 2)) (lambda (x) (- x 3))) 5)")
9)
;; ── data flow between nodes ─────────────────────────────────────
(flow-basic-test
"data flow: string accumulation"
(flow-bs
"(flow/start (sequence (lambda (s) (string-append s \"-a\")) (lambda (s) (string-append s \"-b\"))) \"x\")")
"x-a-b")
(flow-basic-test
"data flow: list build"
(flow-b
"(flow/start (sequence (lambda (x) (cons x (list))) (lambda (xs) (cons 0 xs))) 7)")
(list 0 7))
;; ── defflow ─────────────────────────────────────────────────────
(flow-basic-test
"defflow: names a flow"
(flow-b
"(defflow inc2 (sequence (lambda (x) (+ x 1)) (lambda (x) (+ x 1)))) (flow/start inc2 40)")
42)
(flow-basic-test
"defflow: reusable"
(flow-b
"(defflow dbl (lambda (x) (* x 2))) (+ (flow/start dbl 3) (flow/start dbl 10))")
26)
;; ── parallel (sequential semantics, join into list) ─────────────
(flow-basic-test
"parallel: fans input to all branches"
(flow-b
"(flow/start (parallel (lambda (x) (+ x 1)) (lambda (x) (* x 2)) (lambda (x) (- x 3))) 10)")
(list 11 20 7))
(flow-basic-test
"parallel: empty joins to empty list"
(flow-b "(flow/start (parallel) 5)")
(list))
(flow-basic-test
"parallel: single branch"
(flow-b "(flow/start (parallel (lambda (x) (* x x))) 9)")
(list 81))
;; ── nested composition ──────────────────────────────────────────
(flow-basic-test
"nested: sequence of sequences"
(flow-b
"(flow/start (sequence (sequence (lambda (x) (+ x 1)) (lambda (x) (+ x 1))) (sequence (lambda (x) (* x 3)))) 0)")
6)
(flow-basic-test
"nested: parallel inside sequence, join then reduce"
(flow-b
"(flow/start (sequence (parallel (lambda (x) (+ x 1)) (lambda (x) (* x 2))) (lambda (xs) (apply + xs))) 10)")
31)
(flow-basic-test
"nested: sequence inside parallel branch"
(flow-b
"(flow/start (parallel (sequence (lambda (x) (+ x 1)) (lambda (x) (* x 2))) (lambda (x) x)) 5)")
(list 12 5))
;; ── publish-shaped flow (the architecture sketch) ───────────────
(flow-basic-test
"publish: write -> (review | spell) -> join lengths"
(flow-b
"(defflow publish (sequence (lambda (draft) (string-append draft \"!\")) (parallel (lambda (c) (string-length c)) (lambda (c) (string-length (string-append c \"?\")))))) (flow/start publish \"hi\")")
(list 3 4))
(define flow-basic-tests-run! (fn () {:total (+ flow-basic-pass flow-basic-fail) :passed flow-basic-pass :failed flow-basic-fail :fails flow-basic-fails}))

108
lib/flow/tests/combinators.sx Normal file
View File

@@ -0,0 +1,108 @@
;; lib/flow/tests/combinators.sx — Phase 5: combinator library (tap, recover, map-flow, iteration).
(define flow-cmb-pass 0)
(define flow-cmb-fail 0)
(define flow-cmb-fails (list))
(define
flow-cmb-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-cmb-pass (+ flow-cmb-pass 1))
(begin
(set! flow-cmb-fail (+ flow-cmb-fail 1))
(append! flow-cmb-fails {:name name :expected expected :actual actual})))))
(define flow-m (fn (src) (flow-run src)))
;; ── tap (side-effecting pass-through) ───────────────────────────
(flow-cmb-test
"tap: returns input unchanged"
(flow-m "(flow/start (tap (lambda (x) (* x 999))) 7)")
7)
(flow-cmb-test
"tap: runs the side effect"
(flow-m
"(define seen 0) (flow/start (tap (lambda (x) (set! seen x))) 42) seen")
42)
(flow-cmb-test
"tap: value flows on while the effect observes it"
(flow-m
"(define log 0) (flow/start (sequence (lambda (x) (+ x 1)) (tap (lambda (x) (set! log x))) (lambda (x) (* x 2))) 10) (list log (flow/result 1))")
(list 11 22))
;; ── recover (fail-value counterpart of try-catch) ───────────────
(flow-cmb-test
"recover: passes a non-fail value through"
(flow-m "(flow/start (recover (lambda (x) (* x 2)) (lambda (r) -1)) 5)")
10)
(flow-cmb-test
"recover: handles a fail value via the reason"
(flow-m
"(flow/start (recover (lambda (x) (fail (quote too-small))) (lambda (r) (list (quote recovered) r))) 1)")
(list "recovered" "too-small"))
(flow-cmb-test
"recover: handler can supply a default value"
(flow-m
"(flow/start (sequence (recover (lambda (x) (if (> x 0) x (fail (quote neg))) ) (flow-const 0)) (lambda (x) (* x 10))) -3)")
0)
(flow-cmb-test
"recover: does not catch raised exceptions (those are try-catch's job)"
(flow-m
"(flow/start (try-catch (recover (lambda (x) (raise (quote boom))) (flow-const 0)) (lambda (e) e)) 1)")
"boom")
;; ── map-flow (run a node over a list, join) ─────────────────────
(flow-cmb-test
"map-flow: applies the node to each item"
(flow-m "(flow/start (map-flow (lambda (x) (* x x))) (list 1 2 3 4))")
(list 1 4 9 16))
(flow-cmb-test
"map-flow: empty list joins to empty"
(flow-m "(flow/start (map-flow (lambda (x) (+ x 1))) (list))")
(list))
(flow-cmb-test
"map-flow: each item runs an independent sub-flow"
(flow-m
"(flow/start (map-flow (sequence (lambda (x) (+ x 1)) (lambda (x) (* x 2)))) (list 0 4 9))")
(list 2 10 20))
(flow-cmb-test
"map-flow: composes — fan over a list then reduce the join"
(flow-m
"(flow/start (sequence (map-flow (lambda (x) (* x 10))) (lambda (xs) (apply + xs))) (list 1 2 3))")
60)
;; ── flow-while / flow-until (bounded iteration) ─────────────────
(flow-cmb-test
"flow-while: iterates while the predicate holds"
(flow-m
"(flow/start (flow-while (lambda (x) (< x 10)) (lambda (x) (+ x 1)) 100) 0)")
10)
(flow-cmb-test
"flow-while: a false predicate leaves input unchanged"
(flow-m
"(flow/start (flow-while (lambda (x) (< x 0)) (lambda (x) (+ x 1)) 100) 5)")
5)
(flow-cmb-test
"flow-while: respects the max-iteration bound"
(flow-m "(flow/start (flow-while (lambda (x) #t) (lambda (x) (+ x 1)) 3) 0)")
3)
(flow-cmb-test
"flow-while: doubles until past a threshold"
(flow-m
"(flow/start (flow-while (lambda (x) (< x 50)) (lambda (x) (* x 2)) 100) 3)")
96)
(flow-cmb-test
"flow-until: iterates until the predicate becomes true"
(flow-m
"(flow/start (flow-until (lambda (x) (>= x 10)) (lambda (x) (+ x 3)) 100) 0)")
12)
(flow-cmb-test
"flow-until: composes inside a sequence"
(flow-m
"(flow/start (sequence (flow-until (lambda (x) (> x 100)) (lambda (x) (* x 3)) 100) (lambda (x) (- x 100))) 5)")
35)
(define flow-cmb-tests-run! (fn () {:total (+ flow-cmb-pass flow-cmb-fail) :passed flow-cmb-pass :failed flow-cmb-fail :fails flow-cmb-fails}))

179
lib/flow/tests/control.sx Normal file
View File

@@ -0,0 +1,179 @@
;; lib/flow/tests/control.sx — Phase 2: control flow + error handling.
(define flow-ctl-pass 0)
(define flow-ctl-fail 0)
(define flow-ctl-fails (list))
(define
flow-ctl-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-ctl-pass (+ flow-ctl-pass 1))
(begin
(set! flow-ctl-fail (+ flow-ctl-fail 1))
(append! flow-ctl-fails {:name name :expected expected :actual actual})))))
(define flow-c (fn (src) (flow-run src)))
(define flow-cs (fn (src) (get (flow-run src) :scm-string)))
;; ── branch ──────────────────────────────────────────────────────
(flow-ctl-test
"branch: true selects then"
(flow-c
"(flow/start (branch (lambda (x) (> x 0)) (lambda (x) (* x 100)) (lambda (x) (- 0 x))) 5)")
500)
(flow-ctl-test
"branch: false selects else"
(flow-c
"(flow/start (branch (lambda (x) (> x 0)) (lambda (x) (* x 100)) (lambda (x) (- 0 x))) -3)")
3)
(flow-ctl-test
"branch: predicate sees the threaded input"
(flow-c
"(flow/start (sequence (lambda (x) (+ x 1)) (branch (lambda (x) (> x 3)) (flow-const 100) (flow-const 0))) 3)")
100)
(flow-ctl-test
"branch: branches are full nodes (sequence inside)"
(flow-c
"(flow/start (branch (lambda (x) (< x 10)) (sequence (lambda (x) (+ x 1)) (lambda (x) (* x 2))) (flow-const 0)) 4)")
10)
(flow-ctl-test
"branch: nested branch (3-way sign)"
(flow-c
"(defflow sign (branch (lambda (x) (> x 0)) (flow-const 1) (branch (lambda (x) (< x 0)) (flow-const -1) (flow-const 0)))) (list (flow/start sign 7) (flow/start sign -7) (flow/start sign 0))")
(list 1 -1 0))
(flow-ctl-test
"branch: publish-shaped approval gate"
(flow-cs
"(defflow publish (branch (lambda (post) (>= (string-length post) 3)) (lambda (post) (string-append post \" [published]\")) (lambda (post) (string-append post \" [rejected]\")))) (flow/start publish \"ok\")")
"ok [rejected]")
;; ── error model — explicit (fail reason) values ─────────────────
(flow-ctl-test
"fail: failed? is true for a failure value"
(flow-c "(failed? (fail 404))")
true)
(flow-ctl-test
"fail: fail-reason extracts the reason"
(flow-c "(fail-reason (fail 404))")
404)
(flow-ctl-test
"fail: failed? is false for a plain value"
(flow-c "(failed? 7)")
false)
(flow-ctl-test
"fail: failed? is false for an ordinary list"
(flow-c "(failed? (list 1 2 3))")
false)
(flow-ctl-test
"fail: a node may emit a failure as data"
(flow-c
"(defflow validate (lambda (s) (if (>= (string-length s) 3) s (fail (quote too-short))))) (failed? (flow/start validate \"hi\"))")
true)
(flow-ctl-test
"fail: failure flows downstream, branch recovers"
(flow-c
"(defflow guarded (sequence (lambda (s) (if (>= (string-length s) 3) (string-length s) (fail (quote too-short)))) (branch failed? (lambda (f) (list (quote recovered) (fail-reason f))) (lambda (n) (list (quote ok) n))))) (flow/start guarded \"hi\")")
(list "recovered" "too-short"))
;; ── try-catch — reify raised exceptions ─────────────────────────
(flow-ctl-test
"try-catch: no exception returns node result"
(flow-c "(flow/start (try-catch (lambda (x) (* x 2)) (lambda (e) -1)) 5)")
10)
(flow-ctl-test
"try-catch: handler runs on raise"
(flow-c
"(flow/start (try-catch (lambda (x) (raise (quote boom))) (flow-const 99)) 1)")
99)
(flow-ctl-test
"try-catch: handler receives the reified error"
(flow-c "(flow/start (try-catch (lambda (x) (raise 42)) (lambda (e) e)) 0)")
42)
(flow-ctl-test
"try-catch: catches exception from deep inside a sequence"
(flow-c
"(flow/start (try-catch (sequence (lambda (x) (+ x 1)) (lambda (x) (raise (quote deep)))) (flow-const -99)) 5)")
-99)
(flow-ctl-test
"try-catch: handler may convert to a failure value"
(flow-c
"(failed? (flow/start (try-catch (lambda (x) (raise (quote bad))) (lambda (e) (fail e))) 0))")
true)
(flow-ctl-test
"try-catch: composes — recover then continue"
(flow-c
"(flow/start (sequence (try-catch (lambda (x) (raise (quote x))) (flow-const 10)) (lambda (n) (* n 5))) 0)")
50)
;; ── retry — re-run on raised exceptions ─────────────────────────
(flow-ctl-test
"retry: succeeds after transient failures"
(flow-c
"(define ctr 0) (defflow flaky (lambda (x) (set! ctr (+ ctr 1)) (if (< ctr 3) (raise (quote nope)) (* x 10)))) (list (flow/start (retry 5 flaky) 7) ctr)")
(list 70 3))
(flow-ctl-test
"retry: exhausted re-raises (caught by try-catch)"
(flow-c
"(flow/start (try-catch (retry 2 (lambda (x) (raise (quote always)))) (flow-const (quote gaveup))) 0)")
"gaveup")
(flow-ctl-test
"retry: n=1 means a single attempt"
(flow-c
"(define ctr 0) (flow/start (try-catch (retry 1 (lambda (x) (set! ctr (+ ctr 1)) (raise (quote bad)))) (lambda (e) ctr)) 0)")
1)
(flow-ctl-test
"retry: success on first attempt does not re-run"
(flow-c
"(define ctr 0) (flow/start (sequence (retry 5 (lambda (x) (set! ctr (+ ctr 1)) (* x 2))) (lambda (n) ctr)) 21)")
1)
(flow-ctl-test
"retry: does not retry explicit failure values"
(flow-c
"(define ctr 0) (failed? (flow/start (retry 5 (lambda (x) (set! ctr (+ ctr 1)) (fail (quote bad)))) 0))")
true)
(flow-ctl-test
"retry: failure-value path runs node exactly once"
(flow-c
"(define ctr 0) (flow/start (sequence (retry 5 (lambda (x) (set! ctr (+ ctr 1)) (fail (quote bad)))) (lambda (f) ctr)) 0)")
1)
;; ── timeout — cooperative step budget ───────────────────────────
(flow-ctl-test
"timeout: work within budget completes"
(flow-c
"(define (cd n) (if (<= n 0) 99 (begin (tick) (cd (- n 1))))) (flow/start (try-catch (timeout 10 (lambda (x) (cd x))) (flow-const (quote timed-out))) 5)")
99)
(flow-ctl-test
"timeout: work exceeding budget raises flow-timeout"
(flow-c
"(define (cd n) (if (<= n 0) 99 (begin (tick) (cd (- n 1))))) (flow/start (try-catch (timeout 10 (lambda (x) (cd x))) (flow-const (quote timed-out))) 20)")
"timed-out")
(flow-ctl-test
"timeout: exact budget boundary completes"
(flow-c
"(define (cd n) (if (<= n 0) 99 (begin (tick) (cd (- n 1))))) (flow/start (try-catch (timeout 5 (lambda (x) (cd x))) (flow-const (quote timed-out))) 5)")
99)
(flow-ctl-test
"timeout: one tick over the budget raises"
(flow-c
"(define (cd n) (if (<= n 0) 99 (begin (tick) (cd (- n 1))))) (flow/start (try-catch (timeout 5 (lambda (x) (cd x))) (flow-const (quote timed-out))) 6)")
"timed-out")
(flow-ctl-test
"timeout: the raised error is identifiable"
(flow-c
"(define (cd n) (if (<= n 0) 99 (begin (tick) (cd (- n 1))))) (flow/start (try-catch (timeout 2 (lambda (x) (cd x))) (lambda (e) e)) 9)")
"flow-timeout")
(flow-ctl-test
"timeout: a node that never ticks is unbounded"
(flow-c "(flow/start (timeout 0 (lambda (x) (* x 2))) 5)")
10)
(flow-ctl-test
"timeout: budget is restored across sequential timeouts"
(flow-c
"(define (cd n) (if (<= n 0) 1 (begin (tick) (cd (- n 1))))) (flow/start (sequence (timeout 4 (lambda (x) (cd x))) (timeout 4 (lambda (x) (cd 3))) (lambda (x) (begin (tick) (+ x 100)))) 3)")
101)
(define flow-ctl-tests-run! (fn () {:total (+ flow-ctl-pass flow-ctl-fail) :passed flow-ctl-pass :failed flow-ctl-fail :fails flow-ctl-fails}))

120
lib/flow/tests/distributed.sx Normal file
View File

@@ -0,0 +1,120 @@
;; lib/flow/tests/distributed.sx — Phase 4: distributed nodes via fed-sx (mocked).
(define flow-dist-pass 0)
(define flow-dist-fail 0)
(define flow-dist-fails (list))
(define
flow-dist-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-dist-pass (+ flow-dist-pass 1))
(begin
(set! flow-dist-fail (+ flow-dist-fail 1))
(append! flow-dist-fails {:name name :expected expected :actual actual})))))
(define flow-d (fn (src) (flow-run src)))
;; ── remote-node ─────────────────────────────────────────────────
(flow-dist-test
"remote: a node executes on a peer"
(flow-d
"(flow-peer-register! (quote edge) (list (list (quote double) (lambda (x) (* x 2))))) (flow/start (remote-node (quote edge) (quote double)) 21)")
42)
(flow-dist-test
"remote: remote nodes compose in a sequence"
(flow-d
"(flow-peer-register! (quote edge) (list (list (quote inc) (lambda (x) (+ x 1))) (list (quote double) (lambda (x) (* x 2))))) (flow/start (sequence (remote-node (quote edge) (quote inc)) (remote-node (quote edge) (quote double))) 4)")
10)
(flow-dist-test
"remote: a remote node mixes with local nodes"
(flow-d
"(flow-peer-register! (quote edge) (list (list (quote double) (lambda (x) (* x 2))))) (flow/start (sequence (lambda (x) (+ x 5)) (remote-node (quote edge) (quote double)) (lambda (x) (- x 1))) 10)")
29)
(flow-dist-test
"remote: unreachable peer raises flow-remote-unreachable"
(flow-d
"(flow/start (try-catch (remote-node (quote ghost) (quote double)) (lambda (e) e)) 1)")
"flow-remote-unreachable")
(flow-dist-test
"remote: unknown function on a peer raises flow-remote-no-fn"
(flow-d
"(flow-peer-register! (quote edge) (list (list (quote double) (lambda (x) (* x 2))))) (flow/start (try-catch (remote-node (quote edge) (quote missing)) (lambda (e) e)) 1)")
"flow-remote-no-fn")
(flow-dist-test
"remote: a remote node can suspend the flow (peer returns control)"
(flow-d
"(flow-peer-register! (quote edge) (list (list (quote review) (lambda (x) x)))) (flow/start (sequence (remote-node (quote edge) (quote review)) (lambda (x) (suspend (quote human))) (lambda (v) (list (quote published) v))) 7)")
(list "flow-suspended" 1 "human"))
(flow-dist-test
"remote: a transient remote failure is recoverable with retry"
(flow-d
"(define hits 0) (flow-peer-register! (quote edge) (list (list (quote flaky) (lambda (x) (begin (set! hits (+ hits 1)) (if (< hits 2) (raise (quote down)) (* x 3))))))) (list (flow/start (retry 3 (remote-node (quote edge) (quote flaky))) 7) hits)")
(list 21 2))
;; ── failover (retry on a different peer, fall through to local) ──
(flow-dist-test
"failover: first reachable peer serves the request"
(flow-d
"(flow-peer-register! (quote p2) (list (list (quote f) (lambda (x) (+ x 100))))) (flow/start (remote-failover (list (quote p2) (quote down)) (quote f) (flow-const (quote local))) 5)")
105)
(flow-dist-test
"failover: skips an unreachable peer to the next one"
(flow-d
"(flow-peer-register! (quote p2) (list (list (quote f) (lambda (x) (+ x 100))))) (flow/start (remote-failover (list (quote down) (quote p2)) (quote f) (flow-const (quote local))) 5)")
105)
(flow-dist-test
"failover: skips a peer whose function raises"
(flow-d
"(flow-peer-register! (quote bad) (list (list (quote f) (lambda (x) (raise (quote boom)))))) (flow-peer-register! (quote good) (list (list (quote f) (lambda (x) (* x 10))))) (flow/start (remote-failover (list (quote bad) (quote good)) (quote f) (flow-const 0)) 4)")
40)
(flow-dist-test
"failover: all peers fail, the local fallback runs"
(flow-d
"(flow/start (remote-failover (list (quote down1) (quote down2)) (quote f) (lambda (x) (* x -1))) 9)")
-9)
(flow-dist-test
"failover: threads the input through to the chosen peer"
(flow-d
"(flow-peer-register! (quote p) (list (list (quote f) (lambda (x) (list (quote got) x))))) (flow/start (sequence (lambda (x) (+ x 1)) (remote-failover (list (quote p)) (quote f) (flow-const 0))) 41)")
(list "got" 42))
(flow-dist-test
"failover: composes inside a larger sequence"
(flow-d
"(flow-peer-register! (quote p) (list (list (quote f) (lambda (x) (* x 2))))) (flow/start (sequence (remote-failover (list (quote down) (quote p)) (quote f) (flow-const 1)) (lambda (x) (+ x 3))) 5)")
13)
;; ── replication + handoff ───────────────────────────────────────
(flow-dist-test
"replicate: a peer holds the exported store"
(flow-d
"(defflow w (lambda (x) (suspend (quote q)))) (flow/start w 10) (flow-replicate-to (quote peerB)) (if (flow-replica-get (quote peerB)) (quote replicated) (quote missing))")
"replicated")
(flow-dist-test
"handoff: a peer resumes a flow after the local instance dies"
(flow-d
"(defflow w (sequence (lambda (x) (suspend (quote q))) (lambda (v) (list (quote done) v)))) (define id (car (cdr (flow/start w 10)))) (flow-replicate-to (quote peerB)) (set! flow-store (list)) (flow-restore-from (quote peerB)) (flow/resume id 55)")
(list "done" 55))
(flow-dist-test
"handoff: restored peer reports the flow as resumable"
(flow-d
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 10)))) (flow-replicate-to (quote peerB)) (set! flow-store (list)) (flow-restore-from (quote peerB)) (flow-resumable-ids)")
(list 1))
(flow-dist-test
"handoff: without restore the dead instance has lost the flow"
(flow-d
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 10)))) (flow-replicate-to (quote peerB)) (set! flow-store (list)) (flow/resume id 1)")
(list "flow-error" "no-such-flow"))
(flow-dist-test
"restore: from an unknown peer yields false"
(flow-d "(flow-restore-from (quote nowhere))")
false)
(flow-dist-test
"handoff: replication preserves the replay log across the move"
(flow-d
"(defflow two (sequence (lambda (x) (suspend (quote a))) (lambda (x) (suspend (quote b))) (lambda (x) (list x)))) (define id (car (cdr (flow/start two 0)))) (flow/resume id 11) (flow-replicate-to (quote peerB)) (set! flow-store (list)) (flow-restore-from (quote peerB)) (flow/resume id 22)")
(list 22))
(define flow-dist-tests-run! (fn () {:total (+ flow-dist-pass flow-dist-fail) :passed flow-dist-pass :failed flow-dist-fail :fails flow-dist-fails}))

106
lib/flow/tests/host.sx Normal file
View File

@@ -0,0 +1,106 @@
;; lib/flow/tests/host.sx — Phase 8: host integration ABI (request/await/host-queue/driver).
(define flow-hst-pass 0)
(define flow-hst-fail 0)
(define flow-hst-fails (list))
(define
flow-hst-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-hst-pass (+ flow-hst-pass 1))
(begin
(set! flow-hst-fail (+ flow-hst-fail 1))
(append! flow-hst-fails {:name name :expected expected :actual actual})))))
(define flow-hst (fn (src) (flow-run src)))
;; ── request envelope ────────────────────────────────────────────
(flow-hst-test
"request: suspends with a typed envelope"
(flow-hst
"(car (cdr (cdr (flow/start (lambda (x) (request (quote render) x)) 5))))")
(list "flow-request" "render" 5))
(flow-hst-test
"request?: recognizes an envelope"
(flow-hst "(request? (list (quote flow-request) (quote human) 1))")
true)
(flow-hst-test
"request?: a plain tag is not a request"
(flow-hst "(request? (list (quote review) 1))")
false)
(flow-hst-test
"request-kind / request-payload: parse the envelope"
(flow-hst
"(define t (list (quote flow-request) (quote render) (list (quote recipe) 7))) (list (request-kind t) (request-payload t))")
(list "render" (list "recipe" 7)))
;; ── named decision points ───────────────────────────────────────
(flow-hst-test
"await-human: is a request of kind human"
(flow-hst
"(car (cdr (cdr (flow/start (lambda (x) (await-human x)) (quote approve?)))))")
(list "flow-request" "human" "approve?"))
(flow-hst-test
"await-render: is a request of kind render"
(flow-hst
"(car (cdr (cdr (flow/start (lambda (x) (await-render x)) (quote recipe)))))")
(list "flow-request" "render" "recipe"))
(flow-hst-test
"request: the host's resume value flows back into the flow"
(flow-hst
"(defflow f (sequence (lambda (x) (await-render x)) (lambda (art) (list (quote got) art)))) (define id (car (cdr (flow/start f 1)))) (flow/resume id (quote the-artifact))")
(list "got" "the-artifact"))
;; ── host work queue ─────────────────────────────────────────────
(flow-hst-test
"flow-host-requests: lists (id kind payload) for pending requests"
(flow-hst
"(flow/start (lambda (x) (await-render x)) 99) (flow-host-requests)")
(list (list 1 "render" 99)))
(flow-hst-test
"flow-host-requests: excludes bare (non-request) suspends"
(flow-hst
"(defflow a (lambda (x) (await-render x))) (defflow b (lambda (x) (suspend (quote plain)))) (flow/start a 1) (flow/start b 2) (flow-host-requests)")
(list (list 1 "render" 1)))
;; ── the art-dag-shaped host driver loop (manual resumes) ────────
(flow-hst-test
"host driver: render then human-review then publish"
(flow-hst
"(defflow pipeline (sequence (lambda (recipe) (await-render recipe)) (lambda (art) (await-human (list (quote review) art))) (branch (lambda (d) (eq? d (quote approve))) (flow-const (quote published)) (flow-const (fail (quote rejected)))))) (define id (car (cdr (flow/start pipeline 99)))) (define r1 (flow-host-requests)) (flow/resume id (list (quote art) 99)) (define r2 (flow-host-requests)) (flow/resume id (quote approve)) (list r1 r2 (flow/status id) (flow/result id))")
(list
(list (list 1 "render" 99))
(list (list 1 "human" (list "review" (list "art" 99))))
"done"
"published"))
(flow-hst-test
"host driver: rejection at the human gate yields a failure"
(flow-hst
"(defflow pipeline (sequence (lambda (recipe) (await-render recipe)) (lambda (art) (await-human (list (quote review) art))) (branch (lambda (d) (eq? d (quote approve))) (flow-const (quote published)) (flow-const (fail (quote rejected)))))) (define id (car (cdr (flow/start pipeline 1)))) (flow/resume id (quote artifact)) (failed? (flow/resume id (quote reject)))")
true)
;; ── reference driver: host supplies only a dispatch fn ──────────
(flow-hst-test
"flow-drive-host: one tick services every pending request"
(flow-hst
"(flow/start (lambda (x) (await-render x)) 5) (define n (flow-drive-host (lambda (k p) (list (quote done) p)))) (list n (flow/status 1) (flow/result 1))")
(list 1 "done" (list "done" 5)))
(flow-hst-test
"flow-run-host: drives a render -> human pipeline to completion"
(flow-hst
"(defflow pipeline (sequence (lambda (recipe) (await-render recipe)) (lambda (art) (await-human (list (quote review) art))) (branch (lambda (d) (eq? d (quote approve))) (flow-const (quote published)) (flow-const (fail (quote rejected)))))) (define id (car (cdr (flow/start pipeline 99)))) (define serviced (flow-run-host (lambda (kind payload) (if (eq? kind (quote render)) (list (quote art) payload) (quote approve))) 10)) (list serviced (flow/status id) (flow/result id))")
(list 2 "done" "published"))
(flow-hst-test
"flow-run-host: returns 0 when nothing is pending"
(flow-hst "(flow-run-host (lambda (k p) p) 5)")
0)
(flow-hst-test
"flow-run-host: respects the maxticks bound"
(flow-hst
"(defflow pipe2 (sequence (lambda (r) (await-render r)) (lambda (a) (await-human a)) (lambda (d) d))) (define id (car (cdr (flow/start pipe2 1)))) (define serviced (flow-run-host (lambda (k p) p) 1)) (list serviced (flow/status id))")
(list 1 "suspended"))
(define flow-hst-tests-run! (fn () {:total (+ flow-hst-pass flow-hst-fail) :passed flow-hst-pass :failed flow-hst-fail :fails flow-hst-fails}))

67
lib/flow/tests/hygiene.sx Normal file
View File

@@ -0,0 +1,67 @@
;; lib/flow/tests/hygiene.sx — Phase 5: store hygiene (flow/gc, flow/forget).
(define flow-hyg-pass 0)
(define flow-hyg-fail 0)
(define flow-hyg-fails (list))
(define
flow-hyg-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-hyg-pass (+ flow-hyg-pass 1))
(begin
(set! flow-hyg-fail (+ flow-hyg-fail 1))
(append! flow-hyg-fails {:name name :expected expected :actual actual})))))
(define flow-h (fn (src) (flow-run src)))
;; ── flow/gc ─────────────────────────────────────────────────────
(flow-hyg-test
"gc: empty store removes nothing"
(flow-h "(flow/gc)")
0)
(flow-hyg-test
"gc: removes a done flow, keeps a suspended one"
(flow-h
"(defflow w (lambda (x) (suspend (quote q)))) (flow/start w 0) (flow/start (lambda (x) x) 5) (define removed (flow/gc)) (list removed (flow/list))")
(list 1 (list (list 1 "suspended"))))
(flow-hyg-test
"gc: removes a cancelled flow"
(flow-h
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/cancel id) (flow/gc)")
1)
(flow-hyg-test
"gc: a kept suspended flow is still resumable"
(flow-h
"(defflow w (sequence (lambda (x) (suspend (quote q))) (lambda (v) (* v 2)))) (define id (car (cdr (flow/start w 0)))) (flow/start (lambda (x) x) 1) (flow/gc) (flow/resume id 21)")
42)
(flow-hyg-test
"gc: counts every terminal flow it drops"
(flow-h
"(flow/start (lambda (x) x) 1) (flow/start (lambda (x) x) 2) (defflow w (lambda (x) (suspend (quote q)))) (flow/start w 0) (flow/gc)")
2)
;; ── flow/forget ─────────────────────────────────────────────────
(flow-hyg-test
"forget: drops a completed flow"
(flow-h
"(defflow w (sequence (lambda (x) (suspend (quote q))) (lambda (v) v))) (define id (car (cdr (flow/start w 0)))) (flow/resume id 7) (list (flow/forget id) (flow/status id))")
(list true "unknown"))
(flow-hyg-test
"forget: refuses to drop a live (suspended) flow"
(flow-h
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (list (flow/forget id) (flow/status id))")
(list false "suspended"))
(flow-hyg-test
"forget: drops a cancelled flow"
(flow-h
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/cancel id) (list (flow/forget id) (flow/status id))")
(list true "unknown"))
(flow-hyg-test
"forget: unknown id yields false"
(flow-h "(flow/forget 999)")
false)
(define flow-hyg-tests-run! (fn () {:total (+ flow-hyg-pass flow-hyg-fail) :passed flow-hyg-pass :failed flow-hyg-fail :fails flow-hyg-fails}))

115
lib/flow/tests/integration.sx Normal file
View File

@@ -0,0 +1,115 @@
;; lib/flow/tests/integration.sx — Phase 7: end-to-end flows composing every phase.
(define flow-int-pass 0)
(define flow-int-fail 0)
(define flow-int-fails (list))
(define
flow-int-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-int-pass (+ flow-int-pass 1))
(begin
(set! flow-int-fail (+ flow-int-fail 1))
(append! flow-int-fails {:name name :expected expected :actual actual})))))
(define flow-i (fn (src) (flow-run src)))
;; The order-processing flow, defined once per program via this prelude string:
;; validate amount (attempt: fail if <= 0)
;; -> suspend for payment confirmation (resume value = confirmed amount)
;; -> branch: confirmed>0 ? record on the ledger peer : declined failure
(define
order-prelude
"(flow-peer-register! (quote ledger) (list (list (quote record) (lambda (amt) (list (quote recorded) amt)))))\n (defflow order\n (attempt\n (lambda (amt) (if (> amt 0) amt (fail (quote invalid-amount))))\n (lambda (amt) (suspend (quote await-payment)))\n (branch (lambda (amt) (> amt 0))\n (remote-node (quote ledger) (quote record))\n (flow-const (fail (quote declined))))))")
;; ── happy path through every phase ──────────────────────────────
(flow-int-test
"order: validate -> suspend -> resume -> branch -> federate"
(flow-i
(str
order-prelude
"(define id (car (cdr (flow/start order 100)))) (flow/resume id 250)"))
(list "recorded" 250))
(flow-int-test
"order: starting suspends awaiting payment"
(flow-i
(str
order-prelude
"(define s (flow/start order 100)) (list (car s) (car (cdr (cdr s))))"))
(list "flow-suspended" "await-payment"))
(flow-int-test
"order: invalid amount fails up front and never suspends"
(flow-i
(str
order-prelude
"(define r (flow/start order -5)) (list (failed? r) (fail-reason r))"))
(list true "invalid-amount"))
(flow-int-test
"order: a declined payment yields a failure value"
(flow-i
(str
order-prelude
"(define id (car (cdr (flow/start order 100)))) (failed? (flow/resume id 0))"))
true)
;; ── crash recovery mid-flow ─────────────────────────────────────
(flow-int-test
"order: survives a simulated crash between suspend and resume"
(flow-i
(str
order-prelude
"(define id (car (cdr (flow/start order 100)))) (define saved (flow-store-export)) (set! flow-store (list)) (flow-store-import! saved) (flow/resume id 250)"))
(list "recorded" 250))
;; ── handoff to a peer mid-flow ──────────────────────────────────
(flow-int-test
"order: hands off to a peer that resumes and completes"
(flow-i
(str
order-prelude
"(define id (car (cdr (flow/start order 100)))) (flow-replicate-to (quote nodeB)) (set! flow-store (list)) (flow-restore-from (quote nodeB)) (flow/resume id 250)"))
(list "recorded" 250))
;; ── introspection during the flow's life ────────────────────────
(flow-int-test
"order: pending shows what the flow awaits, then result after resume"
(flow-i
(str
order-prelude
"(define id (car (cdr (flow/start order 100)))) (define p (flow/pending)) (flow/resume id 250) (list p (flow/status id) (flow/result id))"))
(list
(list (list 1 "await-payment"))
"done"
(list "recorded" 250)))
;; ── onboarding: two human steps + cancellation ──────────────────
(define
onboard-prelude
"(defflow onboard\n (sequence\n (lambda (user) (+ user 1))\n (lambda (x) (suspend (quote confirm-email)))\n (lambda (x) (suspend (quote complete-profile)))\n (lambda (x) (list (quote onboarded) x))))")
(flow-int-test
"onboard: two suspends resume in order to completion"
(flow-i
(str
onboard-prelude
"(define id (car (cdr (flow/start onboard 0)))) (flow/resume id 7) (flow/resume id 9)"))
(list "onboarded" 9))
(flow-int-test
"onboard: the second pending tag appears after the first resume"
(flow-i
(str
onboard-prelude
"(define id (car (cdr (flow/start onboard 0)))) (flow/resume id 7) (car (cdr (car (flow/pending))))"))
"complete-profile")
(flow-int-test
"onboard: cancelling abandons the flow"
(flow-i
(str
onboard-prelude
"(define id (car (cdr (flow/start onboard 0)))) (flow/cancel id) (list (flow/status id) (car (flow/resume id 7)))"))
(list "cancelled" "flow-error"))
(define flow-int-tests-run! (fn () {:total (+ flow-int-pass flow-int-fail) :passed flow-int-pass :failed flow-int-fail :fails flow-int-fails}))

73
lib/flow/tests/railway.sx Normal file
View File

@@ -0,0 +1,73 @@
;; lib/flow/tests/railway.sx — Phase 6: railway-oriented composition (attempt).
(define flow-rail-pass 0)
(define flow-rail-fail 0)
(define flow-rail-fails (list))
(define
flow-rail-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-rail-pass (+ flow-rail-pass 1))
(begin
(set! flow-rail-fail (+ flow-rail-fail 1))
(append! flow-rail-fails {:name name :expected expected :actual actual})))))
(define flow-r (fn (src) (flow-run src)))
;; ── attempt — short-circuit on the first (fail ...) ─────────────
(flow-rail-test
"attempt: threads like sequence when nothing fails"
(flow-r
"(flow/start (attempt (lambda (x) (+ x 1)) (lambda (x) (* x 10))) 4)")
50)
(flow-rail-test
"attempt: empty is identity"
(flow-r "(flow/start (attempt) 7)")
7)
(flow-rail-test
"attempt: returns the first failure"
(flow-r
"(failed? (flow/start (attempt (lambda (x) (fail (quote bad))) (lambda (x) (* x 10))) 4))")
true)
(flow-rail-test
"attempt: the failure carries its reason"
(flow-r
"(fail-reason (flow/start (attempt (lambda (x) x) (lambda (x) (fail (quote rejected)))) 4))")
"rejected")
(flow-rail-test
"attempt: nodes after a failure do not run"
(flow-r
"(define ran 0) (flow/start (attempt (lambda (x) (fail (quote stop))) (lambda (x) (begin (set! ran (+ ran 1)) x))) 0) ran")
0)
(flow-rail-test
"attempt: a failed input short-circuits immediately"
(flow-r
"(define ran 0) (fail-reason (flow/start (attempt (lambda (x) (begin (set! ran (+ ran 1)) x))) (fail (quote pre))))")
"pre")
(flow-rail-test
"attempt: middle failure halts the chain"
(flow-r
"(define ran 0) (flow/start (attempt (lambda (x) (+ x 1)) (lambda (x) (fail (quote mid))) (lambda (x) (begin (set! ran (+ ran 1)) x))) 5) ran")
0)
;; ── attempt + recover (rejoin the happy track) ──────────────────
(flow-rail-test
"attempt + recover: recover turns a failure into a value"
(flow-r
"(flow/start (recover (attempt (lambda (x) (if (> x 0) x (fail (quote non-positive)))) (lambda (x) (* x 2))) (flow-const 0)) -5)")
0)
(flow-rail-test
"attempt + recover: happy path passes recover through"
(flow-r
"(flow/start (recover (attempt (lambda (x) (if (> x 0) x (fail (quote non-positive)))) (lambda (x) (* x 2))) (flow-const 0)) 5)")
10)
(flow-rail-test
"attempt: validation pipeline reports the failing stage"
(flow-r
"(defflow validate (attempt (lambda (s) (if (>= (string-length s) 3) s (fail (quote too-short)))) (lambda (s) (if (<= (string-length s) 8) s (fail (quote too-long)))) (lambda (s) (list (quote ok) (string-length s))))) (list (fail-reason (flow/start validate \"hi\")) (flow/start validate \"hello\"))")
(list "too-short" (list "ok" 5)))
(define flow-rail-tests-run! (fn () {:total (+ flow-rail-pass flow-rail-fail) :passed flow-rail-pass :failed flow-rail-fail :fails flow-rail-fails}))

71
lib/flow/tests/recovery.sx Normal file
View File

@@ -0,0 +1,71 @@
;; lib/flow/tests/recovery.sx — Phase 3: crash recovery (store export/import + restart).
;;
;; "restart" is simulated within one program: (set! flow-store (list)) wipes the
;; in-memory store (process death), while flow-registry persists as it would after
;; reloading flow definitions. Recovery = import the exported (plain-data) store and
;; resume; the flow proc is re-resolved by name.
(define flow-rec-pass 0)
(define flow-rec-fail 0)
(define flow-rec-fails (list))
(define
flow-rec-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-rec-pass (+ flow-rec-pass 1))
(begin
(set! flow-rec-fail (+ flow-rec-fail 1))
(append! flow-rec-fails {:name name :expected expected :actual actual})))))
(define flow-r (fn (src) (flow-run src)))
;; ── export / wipe / import ──────────────────────────────────────
(flow-rec-test
"export nulls the live procedure"
(flow-r
"(defflow w (lambda (x) (suspend (quote await)))) (flow/start w 10) (car (cdr (car (cdr (car (flow-store-export))))))")
false)
(flow-rec-test
"a wiped store loses the flow (process death)"
(flow-r
"(defflow w (lambda (x) (suspend (quote await)))) (define id (car (cdr (flow/start w 10)))) (set! flow-store (list)) (flow/resume id 1)")
(list "flow-error" "no-such-flow"))
(flow-rec-test
"import restores a wiped store and resume completes"
(flow-r
"(defflow w (sequence (lambda (x) (suspend (quote await))) (lambda (c) (list (quote done) c)))) (define id (car (cdr (flow/start w 10)))) (define saved (flow-store-export)) (set! flow-store (list)) (flow-store-import! saved) (flow/resume id 777)")
(list "done" 777))
;; ── resumable scan ──────────────────────────────────────────────
(flow-rec-test
"resumable-ids lists the suspended flow after import"
(flow-r
"(defflow w (lambda (x) (suspend (quote await)))) (define id (car (cdr (flow/start w 10)))) (define saved (flow-store-export)) (set! flow-store (list)) (flow-store-import! saved) (flow-resumable-ids)")
(list 1))
(flow-rec-test
"resumable-ids excludes completed flows"
(flow-r
"(defflow w (sequence (lambda (x) (suspend (quote await))) (lambda (c) c))) (define id (car (cdr (flow/start w 10)))) (flow/resume id 5) (flow-resumable-ids)")
(list))
(flow-rec-test
"resumable-ids excludes cancelled flows after import"
(flow-r
"(defflow w (lambda (x) (suspend (quote await)))) (define id (car (cdr (flow/start w 10)))) (flow/cancel id) (define saved (flow-store-export)) (set! flow-store (list)) (flow-store-import! saved) (flow-resumable-ids)")
(list))
;; ── restart at every step ───────────────────────────────────────
(flow-rec-test
"two suspends survive a restart between each step"
(flow-r
"(defflow two (sequence (lambda (x) (suspend (quote a))) (lambda (x) (suspend (quote b))) (lambda (x) (list (quote end) x)))) (define id (car (cdr (flow/start two 0)))) (define s1 (flow-store-export)) (set! flow-store (list)) (flow-store-import! s1) (flow/resume id 100) (define s2 (flow-store-export)) (set! flow-store (list)) (flow-store-import! s2) (flow/resume id 200)")
(list "end" 200))
(flow-rec-test
"import preserves the replay log (earlier value survives restart)"
(flow-r
"(defflow two (sequence (lambda (x) (suspend (quote a))) (lambda (x) (suspend (quote b))) (lambda (x) (list x)))) (define id (car (cdr (flow/start two 0)))) (flow/resume id 11) (define saved (flow-store-export)) (set! flow-store (list)) (flow-store-import! saved) (flow/resume id 22)")
(list 22))
(define flow-rec-tests-run! (fn () {:total (+ flow-rec-pass flow-rec-fail) :passed flow-rec-pass :failed flow-rec-fail :fails flow-rec-fails}))

114
lib/flow/tests/suspend.sx Normal file
View File

@@ -0,0 +1,114 @@
;; lib/flow/tests/suspend.sx — Phase 3: suspend / resume / cancel (deterministic replay).
(define flow-sus-pass 0)
(define flow-sus-fail 0)
(define flow-sus-fails (list))
(define
flow-sus-test
(fn
(name actual expected)
(if
(= actual expected)
(set! flow-sus-pass (+ flow-sus-pass 1))
(begin
(set! flow-sus-fail (+ flow-sus-fail 1))
(append! flow-sus-fails {:name name :expected expected :actual actual})))))
(define flow-s (fn (src) (flow-run src)))
;; ── flow/start ──────────────────────────────────────────────────
(flow-sus-test
"start: non-suspending flow returns the raw result"
(flow-s "(flow/start (lambda (x) (* x 2)) 5)")
10)
(flow-sus-test
"start: a suspending flow returns a flow-suspended state"
(flow-s
"(defflow w (sequence (lambda (x) (+ x 1)) (lambda (g) (suspend (quote await))) (lambda (c) c))) (car (flow/start w 10))")
"flow-suspended")
(flow-sus-test
"start: suspended state carries a numeric id"
(flow-s
"(defflow w (lambda (x) (suspend (quote await)))) (car (cdr (flow/start w 10)))")
1)
(flow-sus-test
"start: suspended state carries the suspend tag"
(flow-s
"(defflow w (lambda (x) (suspend (quote await)))) (car (cdr (cdr (flow/start w 10))))")
"await")
;; ── flow/resume ─────────────────────────────────────────────────
(flow-sus-test
"resume: injects the value and completes"
(flow-s
"(defflow w (sequence (lambda (x) (+ x 1)) (lambda (g) (suspend (quote await))) (lambda (c) (list (quote done) c)))) (define s (flow/start w 10)) (flow/resume (car (cdr s)) 777)")
(list "done" 777))
(flow-sus-test
"resume: injected value threads into the next node"
(flow-s
"(defflow w (sequence (lambda (x) (suspend (quote v))) (lambda (n) (* n 3)))) (define s (flow/start w 0)) (flow/resume (car (cdr s)) 14)")
42)
(flow-sus-test
"resume: replays earlier suspends (recompute is deterministic)"
(flow-s
"(define runs 0) (defflow w (sequence (lambda (x) (begin (set! runs (+ runs 1)) (+ x 1))) (lambda (g) (suspend (quote await))) (lambda (c) c))) (define s (flow/start w 10)) (flow/resume (car (cdr s)) 99) runs")
2)
;; ── multi-step suspension ───────────────────────────────────────
(flow-sus-test
"multi: first resume suspends at the next tag"
(flow-s
"(defflow two (sequence (lambda (x) (suspend (quote a))) (lambda (x) (suspend (quote b))) (lambda (x) (list (quote end) x)))) (define s (flow/start two 0)) (define s2 (flow/resume (car (cdr s)) 100)) (car (cdr (cdr s2)))")
"b")
(flow-sus-test
"multi: second resume completes with the latest value"
(flow-s
"(defflow two (sequence (lambda (x) (suspend (quote a))) (lambda (x) (suspend (quote b))) (lambda (x) (list (quote end) x)))) (define id (car (cdr (flow/start two 0)))) (flow/resume id 100) (flow/resume id 200)")
(list "end" 200))
;; ── error / lifecycle guards ────────────────────────────────────
(flow-sus-test
"resume: completed flow cannot be resumed again"
(flow-s
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/resume id 1) (flow/resume id 2)")
(list "flow-error" "not-suspended"))
(flow-sus-test
"resume: unknown id errors"
(flow-s "(flow/resume 999 1)")
(list "flow-error" "no-such-flow"))
;; ── flow/cancel ─────────────────────────────────────────────────
(flow-sus-test
"cancel: returns a flow-cancelled state"
(flow-s
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/cancel id)")
(list "flow-cancelled" 1))
(flow-sus-test
"cancel: a cancelled flow cannot be resumed (stale resume rejected)"
(flow-s
"(defflow w (lambda (x) (suspend (quote q)))) (define id (car (cdr (flow/start w 0)))) (flow/cancel id) (flow/resume id 5)")
(list "flow-error" "not-suspended"))
(flow-sus-test
"cancel: unknown id errors"
(flow-s "(flow/cancel 999)")
(list "flow-error" "no-such-flow"))
;; ── composition ─────────────────────────────────────────────────
(flow-sus-test
"suspend inside a branch arm"
(flow-s
"(defflow gate (branch (lambda (x) (> x 0)) (lambda (x) (suspend (quote approve))) (flow-const (quote rejected)))) (define s (flow/start gate 5)) (flow/resume (car (cdr s)) (quote approved))")
"approved")
(flow-sus-test
"two independent runs get independent ids"
(flow-s
"(defflow w (lambda (x) (suspend (quote q)))) (list (car (cdr (flow/start w 0))) (car (cdr (flow/start w 0))))")
(list 1 2))
(flow-sus-test
"suspend reason may be a structured value"
(flow-s
"(defflow w (lambda (x) (suspend (list (quote needs) (quote approval))))) (car (cdr (cdr (flow/start w 0))))")
(list "needs" "approval"))
(define flow-sus-tests-run! (fn () {:total (+ flow-sus-pass flow-sus-fail) :passed flow-sus-pass :failed flow-sus-fail :fails flow-sus-fails}))

40
lib/mod/activity.sx Normal file
View File

@@ -0,0 +1,40 @@
;; lib/mod/activity.sx — export decisions as ActivityPub-shaped events.
;;
;; The rose-ash platform propagates cross-domain effects as ActivityPub-shaped
;; activities. A moderation decision maps to a moderation verb so the rest of the
;; platform (and federated peers) can act on it: remove→Delete, ban→Block,
;; hide/escalate→Flag, keep→no activity. The precise mod action is preserved in
;; :action so a consumer can disambiguate (e.g. hide vs escalate, both Flag).
(define
mod/action->verb
(fn
(action)
(cond
((= action "remove") "Delete")
((= action "ban") "Block")
((= action "hide") "Flag")
((= action "escalate") "Flag")
(true nil))))
(define
mod/decision->activity
(fn
(d actor)
(let
((verb (mod/action->verb (get d :action))))
(if (nil? verb) nil {:type verb :action (get d :action) :actor actor :summary (str "moderation/" (get d :action) " via " (get d :rule)) :object (get d :report-id) :rule (get d :rule)}))))
;; map a batch of decisions to activities, dropping the no-op keeps
(define
mod/decisions->activities
(fn
(decisions actor)
(reduce
(fn
(acc d)
(let
((a (mod/decision->activity d actor)))
(if (nil? a) acc (append acc (list a)))))
(list)
decisions)))

163
lib/mod/api.sx Normal file
View File

@@ -0,0 +1,163 @@
;; lib/mod/api.sx — report registry + lifecycle façade + public entry points.
;;
;; mod/report files a report (assigning a sequential id) and opens a lifecycle
;; case for it; mod/add-evidence accumulates evidence; mod/decide runs the engine
;; and commits to the audit log. The lifecycle façade (mod/triage, mod/resolve,
;; mod/review, mod/appeal, mod/finalize) drives the per-report case through its
;; states, logging each committed decision to the audit trail.
(define mod/*reports* (list))
(define mod/*cases* (list))
(define mod/*counter* 0)
(define mod/*rules* mod/default-rules)
(define
mod/reset!
(fn
()
(begin
(set! mod/*reports* (list))
(set! mod/*cases* (list))
(set! mod/*counter* 0)
(mod/audit-reset!))))
(define
mod/report
(fn
(by about reason)
(begin
(set! mod/*counter* (+ mod/*counter* 1))
(let
((id (str "r" mod/*counter*)))
(let
((r (mod/mk-report id by about reason)))
(begin
(append! mod/*reports* r)
(append! mod/*cases* {:id id :case (mod/mk-case r)})
r))))))
(define
mod/get-report
(fn
(id)
(reduce
(fn (acc r) (if (= (mod/report-id r) id) r acc))
nil
mod/*reports*)))
(define
mod/add-evidence
(fn
(id kind val)
(let
((r (mod/get-report id)))
(if
(nil? r)
nil
(let
((updated (mod/attach-evidence r (mod/mk-evidence kind val))))
(begin
(set!
mod/*reports*
(map
(fn (x) (if (= (mod/report-id x) id) updated x))
mod/*reports*))
updated))))))
(define
mod/decide
(fn
(id)
(let
((r (mod/get-report id)))
(if
(nil? r)
nil
(let
((d (mod/decide-report r mod/*reports* mod/*rules*)))
(begin (mod/log-decision! d (mod/report-evidence r)) d))))))
;; ── lifecycle façade over the case registry ──
(define
mod/case-of
(fn
(id)
(reduce
(fn (acc rec) (if (= (get rec :id) id) (get rec :case) acc))
nil
mod/*cases*)))
(define
mod/case-store!
(fn
(id c)
(set!
mod/*cases*
(map
(fn (rec) (if (= (get rec :id) id) {:id id :case c} rec))
mod/*cases*))))
;; apply a lifecycle op to the stored case, persist it, and (when a decision was
;; committed cleanly) append it to the audit log; returns the updated case
(define
mod/case-apply!
(fn
(id op log?)
(let
((c (mod/case-of id)))
(if
(nil? c)
nil
(let
((c2 (op c)))
(begin
(mod/case-store! id c2)
(when
log?
(when
(nil? (mod/case-error c2))
(let
((d (mod/case-decision c2)))
(if
(nil? d)
nil
(mod/log-decision!
d
(mod/report-evidence (mod/case-report c2)))))))
c2))))))
(define
mod/triage
(fn
(id)
(mod/case-apply!
id
(fn (c) (mod/case-triage c mod/*reports* mod/*rules*))
false)))
(define
mod/resolve
(fn (id) (mod/case-apply! id (fn (c) (mod/case-resolve c)) true)))
(define
mod/review
(fn
(id kind val)
(mod/case-apply!
id
(fn (c) (mod/case-review c kind val mod/*reports* mod/*rules*))
true)))
(define
mod/appeal
(fn
(id kind val)
(mod/case-apply!
id
(fn (c) (mod/case-appeal c kind val mod/*reports* mod/*rules*))
true)))
(define
mod/finalize
(fn (id) (mod/case-apply! id (fn (c) (mod/case-finalize c)) false)))

54
lib/mod/audit.sx Normal file
View File

@@ -0,0 +1,54 @@
;; lib/mod/audit.sx — append-only decision log.
;;
;; Every decision the api commits is recorded as an immutable audit entry holding
;; the decision (action + matching rule), the proof tree (the derivation that
;; justified it), and a snapshot of the evidence in force at decision time. The
;; log is append-only: entries are never mutated or removed, only appended, each
;; with a monotonic sequence number. Retrieval is by report id (full history) or
;; by sequence.
(define mod/*audit-log* (list))
(define mod/*audit-seq* 0)
(define
mod/audit-reset!
(fn
()
(begin (set! mod/*audit-log* (list)) (set! mod/*audit-seq* 0))))
(define mod/mk-audit-entry (fn (seq decision evidence-snapshot) {:action (get decision :action) :evidence evidence-snapshot :proof (get decision :proof) :rule (get decision :rule) :report-id (get decision :report-id) :seq seq}))
(define
mod/log-decision!
(fn
(decision evidence-snapshot)
(begin
(set! mod/*audit-seq* (+ mod/*audit-seq* 1))
(let
((entry (mod/mk-audit-entry mod/*audit-seq* decision evidence-snapshot)))
(begin (append! mod/*audit-log* entry) entry)))))
;; entries for one report, in chronological (sequence) order
(define
mod/audit
(fn
(id)
(reduce
(fn
(acc e)
(if (= (get e :report-id) id) (append acc (list e)) acc))
(list)
mod/*audit-log*)))
(define mod/audit-all (fn () mod/*audit-log*))
(define mod/audit-count (fn () (len mod/*audit-log*)))
;; most recent decision logged for a report (nil if none)
(define
mod/audit-latest
(fn
(id)
(reduce
(fn (acc e) (if (= (get e :report-id) id) e acc))
nil
mod/*audit-log*)))

55
lib/mod/batch.sx Normal file
View File

@@ -0,0 +1,55 @@
;; lib/mod/batch.sx — batch triage + corpus analytics.
;;
;; Operational layer: decide a whole queue of reports at once, summarize the
;; outcomes by action, and measure which rules actually fire across a corpus.
;; mod/never-fired is the empirical complement to lint's static unreachable check
;; (Ext 5): lint finds rules that CAN'T fire by structure; never-fired finds rules
;; that DIDN'T fire on real data.
(define
mod/decide-batch
(fn
(reports rules)
(map (fn (r) (mod/decide-report r reports rules)) reports)))
(define
mod/count-action
(fn
(decisions action)
(reduce
(fn (acc d) (if (= (get d :action) action) (+ acc 1) acc))
0
decisions)))
(define mod/action-histogram (fn (decisions) {:keep (mod/count-action decisions "keep") :remove (mod/count-action decisions "remove") :escalate (mod/count-action decisions "escalate") :hide (mod/count-action decisions "hide") :ban (mod/count-action decisions "ban")}))
(define
mod/rule-fire-count
(fn
(decisions rule-name)
(reduce
(fn (acc d) (if (= (get d :rule) rule-name) (+ acc 1) acc))
0
decisions)))
(define
mod/rule-coverage
(fn
(reports rules)
(let
((decisions (mod/decide-batch reports rules)))
(map (fn (rule) {:rule (mod/rule-name rule) :fired (mod/rule-fire-count decisions (mod/rule-name rule))}) rules))))
(define
mod/never-fired
(fn
(reports rules)
(reduce
(fn
(acc c)
(if
(= (get c :fired) 0)
(append acc (list (get c :rule)))
acc))
(list)
(mod/rule-coverage reports rules))))

60
lib/mod/conformance.conf Normal file
View File

@@ -0,0 +1,60 @@
# Mod conformance config — sourced by lib/guest/conformance.sh.
LANG_NAME=mod
MODE=dict
PRELOADS=(
lib/guest/pratt.sx
lib/prolog/tokenizer.sx
lib/prolog/parser.sx
lib/prolog/runtime.sx
lib/prolog/query.sx
lib/prolog/compiler.sx
lib/mod/schema.sx
lib/mod/policy.sx
lib/mod/defrule.sx
lib/mod/engine.sx
lib/mod/explain.sx
lib/mod/severity.sx
lib/mod/offenders.sx
lib/mod/quorum.sx
lib/mod/trace.sx
lib/mod/whatif.sx
lib/mod/batch.sx
lib/mod/temporal.sx
lib/mod/sla.sx
lib/mod/wire.sx
lib/mod/activity.sx
lib/mod/policies.sx
lib/mod/pipeline.sx
lib/mod/lifecycle.sx
lib/mod/audit.sx
lib/mod/api.sx
lib/mod/fed.sx
lib/mod/link.sx
lib/mod/lint.sx
)
SUITES=(
"decide:lib/mod/tests/decide.sx:(mod-decide-tests-run!)"
"audit:lib/mod/tests/audit.sx:(mod-audit-tests-run!)"
"escalation:lib/mod/tests/escalation.sx:(mod-escalation-tests-run!)"
"fed:lib/mod/tests/fed.sx:(mod-fed-tests-run!)"
"extensions:lib/mod/tests/extensions.sx:(mod-extensions-tests-run!)"
"link:lib/mod/tests/link.sx:(mod-link-tests-run!)"
"lint:lib/mod/tests/lint.sx:(mod-lint-tests-run!)"
"severity:lib/mod/tests/severity.sx:(mod-severity-tests-run!)"
"offenders:lib/mod/tests/offenders.sx:(mod-offenders-tests-run!)"
"quorum:lib/mod/tests/quorum.sx:(mod-quorum-tests-run!)"
"trace:lib/mod/tests/trace.sx:(mod-trace-tests-run!)"
"whatif:lib/mod/tests/whatif.sx:(mod-whatif-tests-run!)"
"batch:lib/mod/tests/batch.sx:(mod-batch-tests-run!)"
"temporal:lib/mod/tests/temporal.sx:(mod-temporal-tests-run!)"
"sla:lib/mod/tests/sla.sx:(mod-sla-tests-run!)"
"wire:lib/mod/tests/wire.sx:(mod-wire-tests-run!)"
"disjunction:lib/mod/tests/disjunction.sx:(mod-disjunction-tests-run!)"
"activity:lib/mod/tests/activity.sx:(mod-activity-tests-run!)"
"policies:lib/mod/tests/policies.sx:(mod-policies-tests-run!)"
"defrule:lib/mod/tests/defrule.sx:(mod-defrule-tests-run!)"
"pipeline:lib/mod/tests/pipeline.sx:(mod-pipeline-tests-run!)"
)

3
lib/mod/conformance.sh Executable file
View File

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

16
lib/mod/defrule.sx Normal file
View File

@@ -0,0 +1,16 @@
;; lib/mod/defrule.sx — ergonomic rule / ruleset construction.
;;
;; The roadmap sketched a (defrule action :when conditions) surface. Conditions
;; already evaluate to plain data, so this needs no macro — variadic functions
;; suffice: mod/defrule collects its trailing condition forms via &rest (dropping
;; the explicit outer (list ...)), and mod/ruleset assembles rules the same way.
;;
;; (mod/ruleset
;; (mod/defrule "spam-hide" :hide (list :classification "spam"))
;; (mod/defrule "default-keep" :keep))
(define
mod/defrule
(fn (name action &rest conds) (mod/mk-rule name action conds)))
(define mod/ruleset (fn (&rest rules) rules))

64
lib/mod/engine.sx Normal file
View File

@@ -0,0 +1,64 @@
;; lib/mod/engine.sx — decide a report by querying the policy program.
;;
;; build-program assembles the report's facts plus the compiled policy clauses;
;; decide-report runs the Prolog query and returns a decision. A decision is a
;; proof, not a bare keyword: it carries the matching rule, the conditions it
;; required, the evidence that satisfied them, and a derivation — the proof tree.
;;
;; The proof tree is built constructively: for the matching rule, each body goal
;; is re-queried against the same DB with the report id bound, recording the goal
;; text, whether it was solved, and the bindings that satisfied it. That is a
;; genuine derivation drawn from the Prolog database, ready for the audit trail.
(define
mod/find-rule
(fn
(rules name)
(reduce
(fn
(acc r)
(if (nil? acc) (if (= (mod/rule-name r) name) r acc) acc))
nil
rules)))
(define
mod/build-program
(fn
(r count rules)
(str (mod/report-facts r count) "\n" (mod/rules->program rules))))
(define
mod/proof-goals
(fn
(db id conds)
(if
(empty? conds)
(list {:solved true :goal "true" :bindings {}})
(map
(fn
(c)
(let
((g (mod/cond->goal c id)))
(let ((sols (pl-query-all db g))) {:solved (if (empty? sols) false true) :goal g :bindings (if (empty? sols) {} (first sols))})))
conds))))
(define
mod/decide-report
(fn
(r reports rules)
(let
((count (mod/report-count (mod/report-about r) reports))
(kinds (mod/classify-keywords r))
(id (mod/report-id r)))
(let
((program (mod/build-program r count rules)))
(let
((db (pl-load program)))
(let
((sol (pl-query-one db (str "policy_action(" id ", Action, Rule)"))))
(if
(nil? sol)
{:action "keep" :proof {:goals (list) :evidence kinds :conditions (list) :rule "none" :count count} :report-id id :rule "none"}
(let
((rname (dict-get sol "Rule")))
(let ((rule (mod/find-rule rules rname))) {:action (mod/rule-action rule) :proof {:goals (mod/proof-goals db id (mod/rule-when rule)) :evidence kinds :conditions (mod/rule-when rule) :rule rname :count count} :report-id id :rule rname})))))))))

55
lib/mod/explain.sx Normal file
View File

@@ -0,0 +1,55 @@
;; lib/mod/explain.sx — human-readable proof explanation.
;;
;; Turns a decision (from mod/decide-report, or any audit entry) into a readable
;; multi-line "why": the action, the rule that fired, the evidence in play, and
;; the derivation goal-by-goal with [proved]/[unproved] marks and the unification
;; bindings that satisfied each goal. Pure SX over the Phase-2 proof tree.
(define
mod/explain-binds
(fn
(binds)
(mod/join-with
", "
(map (fn (k) (str k "=" (dict-get binds k))) (keys binds)))))
(define
mod/explain-goal
(fn
(g)
(let
((mark (if (get g :solved) " [proved] " " [unproved] "))
(binds (get g :bindings)))
(if
(empty? (keys binds))
(str mark (get g :goal))
(str mark (get g :goal) " {" (mod/explain-binds binds) "}")))))
(define
mod/explain-evidence
(fn
(evidence)
(if
(empty? evidence)
"Evidence: (none)"
(str "Evidence: " (mod/join-with ", " evidence)))))
(define
mod/explain
(fn
(decision)
(let
((id (get decision :report-id))
(action (get decision :action))
(rule (get decision :rule))
(proof (get decision :proof)))
(let
((goals (get proof :goals)) (evidence (get proof :evidence)))
(mod/join-with
"\n"
(append
(list
(str "Report " id ": " action " (rule: " rule ")")
(mod/explain-evidence evidence)
"Because:")
(map mod/explain-goal goals)))))))

145
lib/mod/fed.sx Normal file
View File

@@ -0,0 +1,145 @@
;; lib/mod/fed.sx — federation: cross-instance reports, decision sharing, trust,
;; revocation. fed-sx itself is mocked here (an in-memory outbox); the real wire
;; transport would replace mod/fed-send!.
;;
;; Trust is advisory by default (the hard rule): a peer's decision only binds
;; locally when (mod/trusted? peer :mod) holds. An untrusted peer's decision is
;; recorded as a suggestion in the advisory log and is NOT applied. Local
;; decisions propagate outward via the outbox. Revocation undoes a locally
;; applied action when its proof is invalidated, notifying the origin peer.
(define mod/*fed-trust* (list)) ;; {:peer :scope}
(define mod/*fed-outbox* (list)) ;; {:to :type :payload}
(define mod/*fed-advisory* (list)) ;; {:peer :decision} — received, not applied
(define mod/*fed-applied* (list)) ;; {:report-id :action :origin :revoked}
(define mod/*fed-origins* (list)) ;; {:id :origin}
(define
mod/fed-reset!
(fn
()
(begin
(set! mod/*fed-trust* (list))
(set! mod/*fed-outbox* (list))
(set! mod/*fed-advisory* (list))
(set! mod/*fed-applied* (list))
(set! mod/*fed-origins* (list)))))
;; ── trust model ──
(define
mod/trust-match?
(fn
(t peer scope)
(if (= (get t :peer) peer) (= (get t :scope) scope) false)))
(define
mod/grant-trust
(fn (peer scope) (begin (append! mod/*fed-trust* {:scope scope :peer peer}) true)))
(define
mod/revoke-trust
(fn
(peer scope)
(set!
mod/*fed-trust*
(reduce
(fn
(acc t)
(if (mod/trust-match? t peer scope) acc (append acc (list t))))
(list)
mod/*fed-trust*))))
(define
mod/trusted?
(fn
(peer scope)
(mod/any? (fn (t) (mod/trust-match? t peer scope)) mod/*fed-trust*)))
;; ── cross-instance reports ──
(define
mod/fed-receive-report
(fn
(peer by about reason)
(let
((r (mod/report by about reason)))
(begin (append! mod/*fed-origins* {:id (mod/report-id r) :origin peer}) r))))
(define
mod/report-origin
(fn
(id)
(reduce
(fn (acc o) (if (= (get o :id) id) (get o :origin) acc))
"local"
mod/*fed-origins*)))
;; ── decision sharing (mock fed-sx send) ──
(define
mod/fed-send!
(fn (to type payload) (begin (append! mod/*fed-outbox* {:type type :to to :payload payload}) true)))
(define mod/fed-outbox (fn () mod/*fed-outbox*))
(define
mod/fed-share-decision
(fn
(decision peers)
(reduce
(fn
(acc p)
(begin (mod/fed-send! p "decision" decision) (append acc (list p))))
(list)
peers)))
;; ── receiving a peer's decision (advisory unless trusted) ──
(define
mod/fed-applied-action
(fn
(report-id)
(reduce
(fn (acc a) (if (= (get a :report-id) report-id) a acc))
nil
mod/*fed-applied*)))
(define
mod/fed-receive-decision
(fn
(peer decision)
(if
(mod/trusted? peer :mod)
(begin (append! mod/*fed-applied* {:revoked false :action (get decision :action) :report-id (get decision :report-id) :origin peer}) {:advisory false :peer peer :applied true :decision decision})
(begin (append! mod/*fed-advisory* {:peer peer :decision decision}) {:advisory true :peer peer :applied false :decision decision}))))
;; ── revocation ──
(define
mod/fed-revoke!
(fn
(report-id reason)
(begin
(set!
mod/*fed-applied*
(map
(fn (a) (if (= (get a :report-id) report-id) {:revoked true :action (get a :action) :report-id (get a :report-id) :origin (get a :origin)} a))
mod/*fed-applied*))
(mod/fed-send! (mod/report-origin report-id) "revocation" {:report-id report-id :reason reason})
report-id)))
;; re-run the engine; if the action no longer holds, the prior decision's proof
;; is invalidated — revoke the applied moderation.
(define
mod/fed-revoke-if-invalidated
(fn
(report decision reports rules)
(let
((d2 (mod/decide-report report reports rules)))
(if
(= (get d2 :action) (get decision :action))
{:revoked false :decision d2}
(begin
(mod/fed-revoke! (get decision :report-id) "proof invalidated")
{:revoked true :decision d2})))))

160
lib/mod/lifecycle.sx Normal file
View File

@@ -0,0 +1,160 @@
;; lib/mod/lifecycle.sx — report lifecycle state machine (pure SX over the engine).
;;
;; Lifecycle state is deliberately separate from policy: the Prolog rules answer
;; "what action?", this module answers "where in the process is this report?".
;;
;; :open ──triage──▶ :triaged ──resolve/review──▶ :decided ──appeal──▶ :appealed
;; │ │
;; └────finalize───▶ :final ◀┘
;;
;; A case is an immutable value {:report :state :decision :tier :error :history}.
;; Every transition returns a NEW case; illegal transitions return the case
;; unchanged with :error set. Tiers: triage runs the engine (auto-tier); a
;; terminal action (hide/remove/keep) resolves immediately, an :escalate action
;; flags the case for human review (human-tier) before it can be resolved.
(define mod/case* (fn (report state decision tier err history) {:history history :state state :report report :error err :tier tier :decision decision}))
(define
mod/mk-case
(fn (report) (mod/case* report "open" nil nil nil (list))))
(define mod/case-report (fn (c) (get c :report)))
(define mod/case-state (fn (c) (get c :state)))
(define mod/case-decision (fn (c) (get c :decision)))
(define mod/case-tier (fn (c) (get c :tier)))
(define mod/case-error (fn (c) (get c :error)))
(define mod/case-history (fn (c) (get c :history)))
;; ── transition table ──
(define mod/lc-transitions {:final (list) :appealed (list "final") :decided (list "appealed" "final") :open (list "triaged") :triaged (list "decided")})
(define mod/member? (fn (x lst) (mod/any? (fn (y) (= y x)) lst)))
(define
mod/lc-can-transition?
(fn
(from to)
(let
((outs (get mod/lc-transitions from)))
(if (nil? outs) false (mod/member? to outs)))))
;; ── core transition: validate, record history, or flag :error ──
(define
mod/case-goto
(fn
(c to note report decision tier)
(let
((from (mod/case-state c)))
(if
(mod/lc-can-transition? from to)
(mod/case*
report
to
decision
tier
nil
(append (mod/case-history c) (list {:note note :to to :from from})))
(mod/case*
(mod/case-report c)
from
(mod/case-decision c)
(mod/case-tier c)
(str "illegal transition: " from " -> " to)
(mod/case-history c))))))
(define
mod/case-error-set
(fn
(c msg)
(mod/case*
(mod/case-report c)
(mod/case-state c)
(mod/case-decision c)
(mod/case-tier c)
msg
(mod/case-history c))))
;; ── lifecycle operations ──
;; :open → :triaged — run the auto-tier first pass.
(define
mod/case-triage
(fn
(c reports rules)
(let
((d (mod/decide-report (mod/case-report c) reports rules)))
(let
((tier (if (= (get d :action) "escalate") "human" "auto")))
(mod/case-goto
c
"triaged"
"auto-tier first pass"
(mod/case-report c)
d
tier)))))
;; :triaged → :decided — auto-tier resolves; human-tier is blocked until review.
(define
mod/case-resolve
(fn
(c)
(if
(= (mod/case-tier c) "human")
(mod/case-error-set c "awaiting human review (escalated)")
(mod/case-goto
c
"decided"
"auto-tier resolved"
(mod/case-report c)
(mod/case-decision c)
(mod/case-tier c)))))
;; :triaged → :decided — human review: attach evidence, re-decide, resolve.
(define
mod/case-review
(fn
(c kind val reports rules)
(let
((nr (mod/attach-evidence (mod/case-report c) (mod/mk-evidence kind val))))
(let
((d (mod/decide-report nr reports rules)))
(mod/case-goto c "decided" (str "human review: " kind) nr d "human")))))
;; :decided → :appealed — appeal: attach evidence, re-decide (may override).
(define
mod/case-appeal
(fn
(c kind val reports rules)
(let
((nr (mod/attach-evidence (mod/case-report c) (mod/mk-evidence kind val))))
(let
((d (mod/decide-report nr reports rules)))
(mod/case-goto
c
"appealed"
(str "appeal: " kind)
nr
d
(mod/case-tier c))))))
;; :decided | :appealed → :final
(define
mod/case-finalize
(fn
(c)
(mod/case-goto
c
"final"
"finalized"
(mod/case-report c)
(mod/case-decision c)
(mod/case-tier c))))
(define
mod/case-action
(fn
(c)
(let ((d (mod/case-decision c))) (if (nil? d) nil (get d :action)))))

92
lib/mod/link.sx Normal file
View File

@@ -0,0 +1,92 @@
;; lib/mod/link.sx — report linking + deduplication.
;;
;; Reports about the same subject form a cluster; identical reports (same
;; reporter + subject + reason) are duplicates. Linking is Prolog-backed: all
;; report facts are loaded and related ids are found by unification — the same
;; relational substrate the policy engine uses, here for retrieval rather than
;; decision. Dedup is pure SX over a normalized link key.
(define
mod/link-key
(fn
(r)
(str
(mod/report-by r)
"|"
(mod/report-about r)
"|"
(downcase (mod/report-reason r)))))
(define
mod/dedup-reports
(fn
(reports)
(reduce
(fn
(acc r)
(if
(mod/any? (fn (x) (= (mod/link-key x) (mod/link-key r))) acc)
acc
(append acc (list r))))
(list)
reports)))
(define
mod/duplicate-count
(fn (reports) (- (len reports) (len (mod/dedup-reports reports)))))
;; ── Prolog-backed relational retrieval ──
(define
mod/report-rel-facts
(fn
(reports)
(mod/join-with
"\n"
(map
(fn
(r)
(str
"report("
(mod/report-id r)
", "
(mod/pl-quote (mod/report-by r))
", "
(mod/pl-quote (mod/report-about r))
")."))
reports))))
(define
mod/related-ids
(fn
(subject reports)
(let
((db (pl-load (mod/report-rel-facts reports))))
(map
(fn (sol) (dict-get sol "Id"))
(pl-query-all db (str "report(Id, _, " (mod/pl-quote subject) ")"))))))
(define
mod/reporters-of
(fn
(subject reports)
(let
((db (pl-load (mod/report-rel-facts reports))))
(map
(fn (sol) (dict-get sol "By"))
(pl-query-all db (str "report(_, By, " (mod/pl-quote subject) ")"))))))
(define
mod/distinct
(fn
(items)
(reduce
(fn
(acc x)
(if (mod/any? (fn (y) (= y x)) acc) acc (append acc (list x))))
(list)
items)))
(define
mod/distinct-reporters-of
(fn (subject reports) (mod/distinct (mod/reporters-of subject reports))))

69
lib/mod/lint.sx Normal file
View File

@@ -0,0 +1,69 @@
;; lib/mod/lint.sx — static analysis of a policy rule set.
;;
;; Because precedence is "first matching clause wins" (pl-query-one), the rule
;; order has correctness consequences a moderator can get wrong: a rule placed
;; after an unconditional (empty :when) rule can never fire, and a rule set with
;; no unconditional rule may leave some reports undecided. lint-rules surfaces
;; these without running the engine.
(define mod/rule-unconditional? (fn (r) (empty? (mod/rule-when r))))
;; names of rules that follow the first unconditional rule — structurally dead,
;; since the unconditional rule always matches first
(define
mod/unreachable-rules
(fn
(rules)
(get
(reduce
(fn
(acc r)
(if
(get acc :hit)
{:dead (append (get acc :dead) (list (mod/rule-name r))) :hit true}
(if (mod/rule-unconditional? r) {:dead (get acc :dead) :hit true} acc)))
{:dead (list) :hit false}
rules)
:dead)))
(define
mod/has-catchall?
(fn (rules) (mod/any? mod/rule-unconditional? rules)))
(define
mod/count-eq
(fn
(x lst)
(reduce (fn (a y) (if (= y x) (+ a 1) a)) 0 lst)))
(define
mod/duplicate-rule-names
(fn
(rules)
(let
((names (map mod/rule-name rules)))
(mod/distinct
(reduce
(fn
(acc n)
(if
(< 1 (mod/count-eq n names))
(append acc (list n))
acc))
(list)
names)))))
(define mod/lint-rules (fn (rules) {:duplicate-names (mod/duplicate-rule-names rules) :has-catchall (mod/has-catchall? rules) :unreachable (mod/unreachable-rules rules)}))
;; a rule set is well-formed when nothing is dead, it has a catch-all, and rule
;; names are unique
(define
mod/rules-ok?
(fn
(rules)
(let
((l (mod/lint-rules rules)))
(if
(empty? (get l :unreachable))
(if (get l :has-catchall) (empty? (get l :duplicate-names)) false)
false))))

59
lib/mod/offenders.sx Normal file
View File

@@ -0,0 +1,59 @@
;; lib/mod/offenders.sx — repeat-offender escalation (audit log as evidence).
;;
;; The append-only audit trail is itself a source of evidence: a subject already
;; sanctioned several times is a repeat offender. mod/decide-escalating decides a
;; report normally, then — if the action is a sanction and the subject has at
;; least k PRIOR sanctions in the audit log — upgrades it to :ban. This is the one
;; place a decision depends on history beyond the single report, and it reads that
;; history from the audit log rather than re-deriving it.
(define
mod/sanction?
(fn
(action)
(mod/any? (fn (a) (= a action)) (list "hide" "remove" "ban"))))
;; count of prior sanctioning decisions in the audit log about a subject
(define
mod/subject-sanctions
(fn
(subject)
(reduce
(fn
(acc e)
(let
((r (mod/get-report (get e :report-id))))
(if
(nil? r)
acc
(if
(if
(= (mod/report-about r) subject)
(mod/sanction? (get e :action))
false)
(+ acc 1)
acc))))
0
(mod/audit-all))))
(define
mod/repeat-offender?
(fn (subject k) (<= k (mod/subject-sanctions subject))))
(define
mod/decide-escalating
(fn
(id k)
(let
((r (mod/get-report id)))
(if
(nil? r)
nil
(let
((priors (mod/subject-sanctions (mod/report-about r))))
(let
((d (mod/decide id)))
(if
(if (mod/sanction? (get d :action)) (<= k priors) false)
{:action "ban" :proof {:goals (get (get d :proof) :goals) :prior-sanctions priors :evidence (get (get d :proof) :evidence) :conditions (list) :rule "repeat-offender-ban" :count (get (get d :proof) :count)} :report-id id :rule "repeat-offender-ban" :strategy "escalating"}
d)))))))

18
lib/mod/pipeline.sx Normal file
View File

@@ -0,0 +1,18 @@
;; lib/mod/pipeline.sx — end-to-end triage orchestration.
;;
;; A single entry point that runs a report through the subsystem and returns the
;; full artifact bundle: the decision (under the report's domain policy), a
;; human-readable explanation, an ActivityPub-shaped event for the bus, and the
;; wire line for federated peers. Composes policies (Ext 17), explain (Ext 3),
;; activity (Ext 16) and wire (Ext 14) — the modules are independent, this is just
;; the convenience that wires them together for the common "process a report" path.
(define
mod/triage-pipeline
(fn
(domain r reports actor)
(let ((d (mod/decide-in domain r reports))) {:activity (mod/decision->activity d actor) :action (get d :action) :wire (mod/decision->wire d) :rule (get d :rule) :decision d :explanation (mod/explain d)})))
(define mod/pipeline-action (fn (p) (get p :action)))
(define mod/pipeline-activity (fn (p) (get p :activity)))
(define mod/pipeline-wire (fn (p) (get p :wire)))

40
lib/mod/policies.sx Normal file
View File

@@ -0,0 +1,40 @@
;; lib/mod/policies.sx — per-domain policy registry.
;;
;; rose-ash spans domains (blog, market, events, federation, …) that want
;; different moderation — a marketplace listing and a blog comment are not held to
;; the same bar. This registry maps a domain to a rule set; mod/decide-in resolves
;; the right policy and decides. Unregistered domains fall back to the default
;; rules, so adding a domain never leaves it unmoderated.
(define mod/*policies* (list))
(define mod/policies-reset! (fn () (set! mod/*policies* (list))))
(define
mod/register-policy!
(fn (domain rules) (begin (append! mod/*policies* {:domain domain :rules rules}) true)))
(define
mod/policy-registered?
(fn
(domain)
(mod/any? (fn (p) (= (get p :domain) domain)) mod/*policies*)))
(define
mod/policy-for
(fn
(domain)
(reduce
(fn (acc p) (if (= (get p :domain) domain) (get p :rules) acc))
mod/default-rules
mod/*policies*)))
(define
mod/decide-in
(fn
(domain r reports)
(mod/decide-report r reports (mod/policy-for domain))))
(define
mod/registered-domains
(fn () (map (fn (p) (get p :domain)) mod/*policies*)))

137
lib/mod/policy.sx Normal file
View File

@@ -0,0 +1,137 @@
;; lib/mod/policy.sx — moderation rules → Prolog clauses.
;;
;; A rule is {:name :action :when}. :when is a list of condition forms; each
;; compiles to a Prolog goal. The conditions in a :when list are ANDed (joined by
;; ", "); :not negates and :any (a list of sub-conditions) disjoins — so the
;; condition language is a small boolean algebra over the leaf predicates.
;; Rule order is precedence: the engine queries with pl-query-one, so the first
;; clause that proves wins. The final default rule has an empty body (true) so
;; every report yields at least :keep — "no rule matched" is a real result, not a
;; query failure.
;;
;; cond->goal takes an id-term so the same condition can be compiled with the
;; head variable "Id" (for clause bodies) or a concrete report id (for proof-tree
;; goal-by-goal re-querying in the engine).
;;
;; Precedence (top wins): exoneration evidence (appeal override) > confirmed-abuse
;; evidence (human review) > spam/abuse classification > repeated-report count >
;; default keep.
(define mod/mk-rule (fn (name action conds) {:when conds :name name :action action}))
(define mod/rule-name (fn (r) (get r :name)))
(define mod/rule-action (fn (r) (get r :action)))
(define mod/rule-when (fn (r) (get r :when)))
(define
mod/default-rules
(list
(mod/mk-rule
"exonerated-keep"
:keep (list (list :evidence "exonerated")))
(mod/mk-rule
"reviewer-remove"
:remove (list (list :evidence "confirmed-abuse")))
(mod/mk-rule "spam-hide" :hide (list (list :classification "spam")))
(mod/mk-rule
"abuse-remove"
:remove (list (list :classification "abuse")))
(mod/mk-rule
"repeated-escalate"
:escalate (list (list :count-at-least 3)))
(mod/mk-rule "default-keep" :keep (list))))
;; ── condition → Prolog goal ──
;;
;; (:classification "spam") → classification(Id, spam)
;; (:evidence "kind") → evidence(Id, 'kind', _)
;; (:attr "verified") → attr(Id, verified)
;; (:not <cond>) → not(<cond>) (negation)
;; (:any (list c1 c2 ...)) → (g1 ; g2 ; ...) (disjunction)
;; (:count-at-least 3) → report(Id, B, S), report_count(S, N), N >= 3
;; (:score-at-least 5) → aggregate_all(sum(W), signal(Id, _, W), T), T >= 5
;; (:reporters-at-least 2) → report(Id, _, Sr), setof(Br, report(_, Br, Sr), Bsr),
;; length(Bsr, Nr), Nr >= 2 (quorum engine)
;; (:burst-at-least 3) → report(Id, _, Sb), burst_count(Sb, Nb), Nb >= 3
;; (temporal engine)
(define
mod/cond->goal
(fn
(c idterm)
(let
((tag (first c)))
(cond
((= tag :classification)
(str "classification(" idterm ", " (nth c 1) ")"))
((= tag :evidence)
(str
"evidence("
idterm
", "
(mod/pl-quote (nth c 1))
", _)"))
((= tag :attr) (str "attr(" idterm ", " (nth c 1) ")"))
((= tag :not)
(str "not(" (mod/cond->goal (nth c 1) idterm) ")"))
((= tag :any)
(str
"("
(mod/join-with
" ; "
(map
(fn (sub) (mod/cond->goal sub idterm))
(nth c 1)))
")"))
((= tag :count-at-least)
(str
"report("
idterm
", B, S), report_count(S, N), N >= "
(nth c 1)))
((= tag :score-at-least)
(str
"aggregate_all(sum(W), signal("
idterm
", _, W), T), T >= "
(nth c 1)))
((= tag :reporters-at-least)
(str
"report("
idterm
", _, Sr), setof(Br, report(_, Br, Sr), Bsr), "
"length(Bsr, Nr), Nr >= "
(nth c 1)))
((= tag :burst-at-least)
(str
"report("
idterm
", _, Sb), burst_count(Sb, Nb), Nb >= "
(nth c 1)))
(true "true")))))
(define
mod/conds->body
(fn
(conds idterm)
(if
(empty? conds)
"true"
(mod/join-with ", " (map (fn (c) (mod/cond->goal c idterm)) conds)))))
(define
mod/rule->clause
(fn
(r)
(str
"policy_action(Id, "
(mod/rule-action r)
", '"
(mod/rule-name r)
"') :- "
(mod/conds->body (mod/rule-when r) "Id")
".")))
(define
mod/rules->program
(fn (rules) (mod/join-with "\n" (map mod/rule->clause rules))))

40
lib/mod/quorum.sx Normal file
View File

@@ -0,0 +1,40 @@
;; lib/mod/quorum.sx — quorum decisions over distinct reporters (anti-brigade).
;;
;; The base engine asserts only the decided report's report/3 fact, so it can't
;; reason about WHO reported a subject. The quorum engine additionally asserts
;; every report's report/3 fact (via link's rel-facts), letting a rule require N
;; *distinct* reporters with `setof`/`length` — so one user filing many reports
;; does not manufacture consensus. Same decision shape as the base engine, plus
;; :strategy "quorum".
(define
mod/build-quorum-program
(fn
(r count reports rules)
(str
(mod/report-rel-facts reports)
"\n"
(mod/report-facts r count)
"\n"
(mod/rules->program rules))))
(define
mod/decide-quorum
(fn
(r reports rules)
(let
((count (mod/report-count (mod/report-about r) reports))
(kinds (mod/classify-keywords r))
(id (mod/report-id r)))
(let
((program (mod/build-quorum-program r count reports rules)))
(let
((db (pl-load program)))
(let
((sol (pl-query-one db (str "policy_action(" id ", Action, Rule)"))))
(if
(nil? sol)
{:action "keep" :proof {:goals (list) :evidence kinds :conditions (list) :rule "none" :count count} :report-id id :rule "none" :strategy "quorum"}
(let
((rule (mod/find-rule rules (dict-get sol "Rule"))))
{:action (mod/rule-action rule) :proof {:goals (mod/proof-goals db id (mod/rule-when rule)) :evidence kinds :conditions (mod/rule-when rule) :rule (mod/rule-name rule) :count count} :report-id id :rule (mod/rule-name rule) :strategy "quorum"}))))))))

259
lib/mod/schema.sx Normal file
View File

@@ -0,0 +1,259 @@
;; lib/mod/schema.sx — report representation + Prolog fact generation.
;;
;; A report is a dict {:id :by :about :reason :evidence :attrs :signals :at}.
;; :evidence — accumulated {:kind :val} entries (human review, scanners)
;; :attrs — attribute names ("verified") for negation-as-failure conditions
;; :signals — weighted {:kind :weight} entries for aggregate scoring rules
;; :at — integer timestamp/tick (deterministic; supplied, not clock-read)
;; The engine derives keyword classifications from the reason text and projects
;; the report, its classifications, evidence, attributes, and signals into Prolog
;; facts that policy clauses match against.
(define mod/mk-report (fn (id by about reason) {:attrs (list) :id id :signals (list) :by by :evidence (list) :about about :at 0 :reason reason}))
(define mod/report-id (fn (r) (get r :id)))
(define mod/report-by (fn (r) (get r :by)))
(define mod/report-about (fn (r) (get r :about)))
(define mod/report-reason (fn (r) (get r :reason)))
(define
mod/report-evidence
(fn (r) (let ((e (get r :evidence))) (if (nil? e) (list) e))))
(define
mod/report-attrs
(fn (r) (let ((a (get r :attrs))) (if (nil? a) (list) a))))
(define
mod/report-signals
(fn (r) (let ((s (get r :signals))) (if (nil? s) (list) s))))
(define
mod/report-at
(fn (r) (let ((t (get r :at))) (if (nil? t) 0 t))))
(define mod/mk-evidence (fn (kind val) {:val val :kind kind}))
(define mod/evidence-kind (fn (e) (get e :kind)))
(define mod/evidence-val (fn (e) (get e :val)))
(define mod/mk-signal (fn (kind weight) {:kind kind :weight weight}))
(define mod/signal-kind (fn (s) (get s :kind)))
(define mod/signal-weight (fn (s) (get s :weight)))
(define mod/report* (fn (r evs attrs sigs at) {:attrs attrs :id (mod/report-id r) :signals sigs :by (mod/report-by r) :evidence evs :about (mod/report-about r) :at at :reason (mod/report-reason r)}))
(define
mod/with-evidence
(fn
(r evs)
(mod/report*
r
evs
(mod/report-attrs r)
(mod/report-signals r)
(mod/report-at r))))
(define
mod/with-attrs
(fn
(r attrs)
(mod/report*
r
(mod/report-evidence r)
attrs
(mod/report-signals r)
(mod/report-at r))))
(define
mod/with-signals
(fn
(r sigs)
(mod/report*
r
(mod/report-evidence r)
(mod/report-attrs r)
sigs
(mod/report-at r))))
(define
mod/with-at
(fn
(r at)
(mod/report*
r
(mod/report-evidence r)
(mod/report-attrs r)
(mod/report-signals r)
at)))
(define
mod/attach-evidence
(fn
(r e)
(mod/with-evidence r (append (mod/report-evidence r) (list e)))))
(define
mod/attach-attr
(fn (r a) (mod/with-attrs r (append (mod/report-attrs r) (list a)))))
(define
mod/attach-signal
(fn (r s) (mod/with-signals r (append (mod/report-signals r) (list s)))))
;; ── substring search (the prolog-loaded env lacks includes?; slice/len do work) ──
(define
mod/contains-at?
(fn
(hay needle hl nl pos)
(if
(< hl (+ pos nl))
false
(if
(= (slice hay pos (+ pos nl)) needle)
true
(mod/contains-at? hay needle hl nl (+ pos 1))))))
(define
mod/str-contains?
(fn
(hay needle)
(let
((hl (len hay)) (nl (len needle)))
(if
(= nl 0)
true
(mod/contains-at? hay needle hl nl 0)))))
;; ── evidence derivation (keyword classification) ──
(define
mod/spam-keywords
(list "spam" "buy now" "click here" "free money" "viagra" "limited offer"))
(define
mod/abuse-keywords
(list "abuse" "harassment" "threat" "slur" "hate speech"))
(define
mod/any?
(fn (pred coll) (reduce (fn (acc x) (if acc acc (pred x))) false coll)))
(define
mod/reason-matches?
(fn
(reason kws)
(let
((low (downcase reason)))
(mod/any? (fn (k) (mod/str-contains? low k)) kws))))
(define
mod/classify-keywords
(fn
(r)
(let
((reason (mod/report-reason r)) (kinds (list)))
(begin
(when
(mod/reason-matches? reason mod/spam-keywords)
(append! kinds "spam"))
(when
(mod/reason-matches? reason mod/abuse-keywords)
(append! kinds "abuse"))
kinds))))
(define
mod/report-count
(fn
(about reports)
(reduce
(fn
(acc r)
(if (= (mod/report-about r) about) (+ acc 1) acc))
0
reports)))
;; ── Prolog fact projection ──
(define
mod/join-with
(fn
(sep items)
(reduce (fn (acc x) (if (= acc "") x (str acc sep x))) "" items)))
(define mod/pl-quote (fn (s) (str "'" s "'")))
(define
mod/classification-facts
(fn
(id kinds)
(mod/join-with
"\n"
(map (fn (k) (str "classification(" id ", " k ").")) kinds))))
(define
mod/evidence-facts
(fn
(id evs)
(mod/join-with
"\n"
(map
(fn
(e)
(str
"evidence("
id
", "
(mod/pl-quote (mod/evidence-kind e))
", "
(mod/pl-quote (str (mod/evidence-val e)))
")."))
evs))))
(define
mod/attr-facts
(fn
(id attrs)
(mod/join-with "\n" (map (fn (a) (str "attr(" id ", " a ").")) attrs))))
(define
mod/signal-facts
(fn
(id sigs)
(mod/join-with
"\n"
(map
(fn
(s)
(str
"signal("
id
", "
(mod/pl-quote (mod/signal-kind s))
", "
(mod/signal-weight s)
")."))
sigs))))
(define
mod/report-facts
(fn
(r count)
(let
((id (mod/report-id r))
(by (mod/pl-quote (mod/report-by r)))
(about (mod/pl-quote (mod/report-about r))))
(let
((cls (mod/classification-facts id (mod/classify-keywords r)))
(evs (mod/evidence-facts id (mod/report-evidence r)))
(ats (mod/attr-facts id (mod/report-attrs r)))
(sgs (mod/signal-facts id (mod/report-signals r))))
(mod/join-with
"\n"
(list
(str "report(" id ", " by ", " about ").")
(str "report_count(" about ", " count ").")
cls
evs
ats
sgs))))))

30
lib/mod/scoreboard.json Normal file
View File

@@ -0,0 +1,30 @@
{
"lang": "mod",
"total_passed": 390,
"total_failed": 0,
"total": 390,
"suites": [
{"name":"decide","passed":31,"failed":0,"total":31},
{"name":"audit","passed":29,"failed":0,"total":29},
{"name":"escalation","passed":46,"failed":0,"total":46},
{"name":"fed","passed":26,"failed":0,"total":26},
{"name":"extensions","passed":32,"failed":0,"total":32},
{"name":"link","passed":12,"failed":0,"total":12},
{"name":"lint","passed":14,"failed":0,"total":14},
{"name":"severity","passed":14,"failed":0,"total":14},
{"name":"offenders","passed":19,"failed":0,"total":19},
{"name":"quorum","passed":9,"failed":0,"total":9},
{"name":"trace","passed":15,"failed":0,"total":15},
{"name":"whatif","passed":13,"failed":0,"total":13},
{"name":"batch","passed":17,"failed":0,"total":17},
{"name":"temporal","passed":15,"failed":0,"total":15},
{"name":"sla","passed":15,"failed":0,"total":15},
{"name":"wire","passed":16,"failed":0,"total":16},
{"name":"disjunction","passed":10,"failed":0,"total":10},
{"name":"activity","passed":17,"failed":0,"total":17},
{"name":"policies","passed":14,"failed":0,"total":14},
{"name":"defrule","passed":11,"failed":0,"total":11},
{"name":"pipeline","passed":15,"failed":0,"total":15}
],
"generated": "2026-06-06T19:40:03+00:00"
}

27
lib/mod/scoreboard.md Normal file
View File

@@ -0,0 +1,27 @@
# mod scoreboard
**390 / 390 passing** (0 failure(s)).
| Suite | Passed | Total | Status |
|-------|--------|-------|--------|
| decide | 31 | 31 | ok |
| audit | 29 | 29 | ok |
| escalation | 46 | 46 | ok |
| fed | 26 | 26 | ok |
| extensions | 32 | 32 | ok |
| link | 12 | 12 | ok |
| lint | 14 | 14 | ok |
| severity | 14 | 14 | ok |
| offenders | 19 | 19 | ok |
| quorum | 9 | 9 | ok |
| trace | 15 | 15 | ok |
| whatif | 13 | 13 | ok |
| batch | 17 | 17 | ok |
| temporal | 15 | 15 | ok |
| sla | 15 | 15 | ok |
| wire | 16 | 16 | ok |
| disjunction | 10 | 10 | ok |
| activity | 17 | 17 | ok |
| policies | 14 | 14 | ok |
| defrule | 11 | 11 | ok |
| pipeline | 15 | 15 | ok |

60
lib/mod/severity.sx Normal file
View File

@@ -0,0 +1,60 @@
;; lib/mod/severity.sx — "strictest-wins" decision strategy.
;;
;; The default engine resolves precedence by rule ORDER (first proven clause wins,
;; via pl-query-one). Some policies instead want the HARSHEST applicable sanction
;; regardless of order. mod/decide-strictest collects every rule that proves
;; (pl-query-all) and picks the highest-severity action. Same decision shape as
;; the engine, plus :strategy. Built over the engine's helpers; engine untouched.
(define
mod/action-severity
(fn
(action)
(cond
((= action "ban") 4)
((= action "remove") 3)
((= action "hide") 2)
((= action "escalate") 1)
(true 0))))
(define
mod/strictest-sol
(fn
(sols)
(reduce
(fn
(acc s)
(if
(nil? acc)
s
(if
(<
(mod/action-severity (dict-get acc "Action"))
(mod/action-severity (dict-get s "Action")))
s
acc)))
nil
sols)))
(define
mod/decide-strictest
(fn
(r reports rules)
(let
((count (mod/report-count (mod/report-about r) reports))
(kinds (mod/classify-keywords r))
(id (mod/report-id r)))
(let
((program (mod/build-program r count rules)))
(let
((db (pl-load program)))
(let
((sols (pl-query-all db (str "policy_action(" id ", Action, Rule)"))))
(let
((best (mod/strictest-sol sols)))
(if
(nil? best)
{:action "keep" :proof {:goals (list) :evidence kinds :conditions (list) :rule "none" :count count} :report-id id :rule "none" :strategy "strictest"}
(let
((rule (mod/find-rule rules (dict-get best "Rule"))))
{:action (mod/rule-action rule) :proof {:goals (mod/proof-goals db id (mod/rule-when rule)) :evidence kinds :conditions (mod/rule-when rule) :rule (mod/rule-name rule) :count count} :report-id id :rule (mod/rule-name rule) :strategy "strictest"})))))))))

47
lib/mod/sla.sx Normal file
View File

@@ -0,0 +1,47 @@
;; lib/mod/sla.sx — service-level sweep over pending lifecycle cases.
;;
;; Composes the Phase-3 lifecycle with the Ext-12 time dimension: a case left in a
;; pending state (open / triaged / appealed) past a deadline has breached SLA and
;; should resurface. A timed-case pairs a case with the tick it entered its
;; current state (the caller stamps this — the lifecycle stays timeless and pure).
;; Terminal states (decided / final) never breach.
(define mod/pending-states (list "open" "triaged" "appealed"))
(define mod/pending-state? (fn (s) (mod/member? s mod/pending-states)))
(define mod/mk-timed-case (fn (c entered-at) {:entered-at entered-at :case c}))
(define mod/tc-case (fn (tc) (get tc :case)))
(define mod/tc-entered-at (fn (tc) (get tc :entered-at)))
(define
mod/overdue?
(fn
(tc now deadline)
(if
(mod/pending-state? (mod/case-state (mod/tc-case tc)))
(< deadline (- now (mod/tc-entered-at tc)))
false)))
(define
mod/sla-sweep
(fn
(timed-cases now deadline)
(reduce
(fn
(acc tc)
(if
(mod/overdue? tc now deadline)
(append
acc
(list (mod/report-id (mod/case-report (mod/tc-case tc)))))
acc))
(list)
timed-cases)))
(define
mod/overdue-count
(fn
(timed-cases now deadline)
(len (mod/sla-sweep timed-cases now deadline))))
(define mod/age (fn (tc now) (- now (mod/tc-entered-at tc))))

62
lib/mod/temporal.sx Normal file
View File

@@ -0,0 +1,62 @@
;; lib/mod/temporal.sx — burst detection over a time window.
;;
;; A plain report count can't tell a burst (N reports in minutes) from slow
;; accumulation (N reports over months). mod/decide-temporal takes a `now` tick
;; and a `window`, counts reports about the subject with :at within [now-window,
;; now], asserts it as burst_count/2, and lets a `(:burst-at-least K)` rule fire
;; only on a genuine burst. Time is supplied (deterministic), never clock-read.
(define
mod/window-count
(fn
(subject reports now window)
(reduce
(fn
(acc r)
(if
(if
(= (mod/report-about r) subject)
(<= (- now window) (mod/report-at r))
false)
(+ acc 1)
acc))
0
reports)))
(define
mod/build-temporal-program
(fn
(r count bcount rules)
(str
(mod/report-facts r count)
"\n"
"burst_count("
(mod/pl-quote (mod/report-about r))
", "
bcount
").\n"
(mod/rules->program rules))))
(define
mod/decide-temporal
(fn
(r reports rules now window)
(let
((about (mod/report-about r))
(id (mod/report-id r))
(kinds (mod/classify-keywords r)))
(let
((count (mod/report-count about reports))
(bcount (mod/window-count about reports now window)))
(let
((program (mod/build-temporal-program r count bcount rules)))
(let
((db (pl-load program)))
(let
((sol (pl-query-one db (str "policy_action(" id ", Action, Rule)"))))
(if
(nil? sol)
{:action "keep" :proof {:burst bcount :goals (list) :evidence kinds :conditions (list) :rule "none" :count count} :report-id id :rule "none" :strategy "temporal"}
(let
((rule (mod/find-rule rules (dict-get sol "Rule"))))
{:action (mod/rule-action rule) :proof {:burst bcount :goals (mod/proof-goals db id (mod/rule-when rule)) :evidence kinds :conditions (mod/rule-when rule) :rule (mod/rule-name rule) :count count} :report-id id :rule (mod/rule-name rule) :strategy "temporal"})))))))))

95
lib/mod/tests/activity.sx Normal file
View File

@@ -0,0 +1,95 @@
;; lib/mod/tests/activity.sx — Ext 16: ActivityPub-shaped decision export.
(define mod-ap-count 0)
(define mod-ap-pass 0)
(define mod-ap-fail 0)
(define mod-ap-failures (list))
(define
mod-ap-test!
(fn
(name got expected)
(begin
(set! mod-ap-count (+ mod-ap-count 1))
(if
(= got expected)
(set! mod-ap-pass (+ mod-ap-pass 1))
(begin
(set! mod-ap-fail (+ mod-ap-fail 1))
(append!
mod-ap-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── action → AP verb ──
(mod-ap-test! "remove → Delete" (mod/action->verb "remove") "Delete")
(mod-ap-test! "ban → Block" (mod/action->verb "ban") "Block")
(mod-ap-test! "hide → Flag" (mod/action->verb "hide") "Flag")
(mod-ap-test! "escalate → Flag" (mod/action->verb "escalate") "Flag")
(mod-ap-test! "keep → nil (no activity)" (mod/action->verb "keep") nil)
;; ── single decision → activity ──
(define mod-ap-spam (mod/mk-report "r1" "a" "bob" "this is spam"))
(define
mod-ap-dec
(mod/decide-report mod-ap-spam (list mod-ap-spam) mod/default-rules))
(define mod-ap-act (mod/decision->activity mod-ap-dec "instance.example"))
(mod-ap-test! "activity type is Flag (hide)" (get mod-ap-act :type) "Flag")
(mod-ap-test! "activity object is report id" (get mod-ap-act :object) "r1")
(mod-ap-test!
"activity actor preserved"
(get mod-ap-act :actor)
"instance.example")
(mod-ap-test!
"activity preserves precise action"
(get mod-ap-act :action)
"hide")
(mod-ap-test! "activity carries rule" (get mod-ap-act :rule) "spam-hide")
(mod-ap-test!
"activity summary"
(get mod-ap-act :summary)
"moderation/hide via spam-hide")
;; ── keep produces no activity ──
(define mod-ap-clean (mod/mk-report "r2" "a" "b" "a fine post"))
(define
mod-ap-keep
(mod/decide-report mod-ap-clean (list mod-ap-clean) mod/default-rules))
(mod-ap-test!
"keep decision → nil activity"
(mod/decision->activity mod-ap-keep "x")
nil)
;; ── abuse → Delete ──
(define mod-ap-abuse (mod/mk-report "r3" "a" "b" "harassment here"))
(define
mod-ap-abuse-dec
(mod/decide-report mod-ap-abuse (list mod-ap-abuse) mod/default-rules))
(mod-ap-test!
"abuse decision → Delete activity"
(get (mod/decision->activity mod-ap-abuse-dec "x") :type)
"Delete")
;; ── batch export drops keeps ──
(define mod-ap-decisions (list mod-ap-dec mod-ap-keep mod-ap-abuse-dec))
(define mod-ap-acts (mod/decisions->activities mod-ap-decisions "inst"))
(mod-ap-test! "batch export drops the keep" (len mod-ap-acts) 2)
(mod-ap-test!
"batch export first is the Flag"
(get (first mod-ap-acts) :type)
"Flag")
(mod-ap-test!
"batch export second is the Delete"
(get (nth mod-ap-acts 1) :type)
"Delete")
(mod-ap-test!
"empty decisions → no activities"
(mod/decisions->activities (list) "inst")
(list))
(define mod-activity-tests-run! (fn () {:failures mod-ap-failures :total mod-ap-count :passed mod-ap-pass :failed mod-ap-fail}))

187
lib/mod/tests/audit.sx Normal file
View File

@@ -0,0 +1,187 @@
;; lib/mod/tests/audit.sx — Phase 2: evidence accumulation + proof tree + audit.
(define mod-aud-count 0)
(define mod-aud-pass 0)
(define mod-aud-fail 0)
(define mod-aud-failures (list))
(define
mod-aud-test!
(fn
(name got expected)
(begin
(set! mod-aud-count (+ mod-aud-count 1))
(if
(= got expected)
(set! mod-aud-pass (+ mod-aud-pass 1))
(begin
(set! mod-aud-fail (+ mod-aud-fail 1))
(append!
mod-aud-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
mod-aud-decide1
(fn (r) (mod/decide-report r (list r) mod/default-rules)))
;; ── proof tree: keyword classification ──
(define
mod-aud-spam
(mod-aud-decide1 (mod/mk-report "r1" "alice" "bob" "this is spam")))
(define mod-aud-spam-goals (get (get mod-aud-spam :proof) :goals))
(mod-aud-test! "spam proof has one goal" (len mod-aud-spam-goals) 1)
(mod-aud-test!
"spam proof goal text"
(get (first mod-aud-spam-goals) :goal)
"classification(r1, spam)")
(mod-aud-test!
"spam proof goal solved"
(get (first mod-aud-spam-goals) :solved)
true)
;; ── proof tree: count rule with real bindings ──
(define mod-aud-rep-r (mod/mk-report "r3" "ann" "dave" "x"))
(define
mod-aud-rep
(mod/decide-report
mod-aud-rep-r
(list mod-aud-rep-r mod-aud-rep-r mod-aud-rep-r)
mod/default-rules))
(define mod-aud-rep-goals (get (get mod-aud-rep :proof) :goals))
(define mod-aud-rep-binds (get (first mod-aud-rep-goals) :bindings))
(mod-aud-test!
"count proof goal solved"
(get (first mod-aud-rep-goals) :solved)
true)
(mod-aud-test! "count proof binding N" (dict-get mod-aud-rep-binds "N") "3")
(mod-aud-test!
"count proof binding S (subject)"
(dict-get mod-aud-rep-binds "S")
"dave")
;; ── proof tree: default keep has a 'true' goal ──
(define
mod-aud-keep
(mod-aud-decide1 (mod/mk-report "rk" "a" "b" "a fine post")))
(define mod-aud-keep-goals (get (get mod-aud-keep :proof) :goals))
(mod-aud-test!
"keep proof goal text true"
(get (first mod-aud-keep-goals) :goal)
"true")
(mod-aud-test!
"keep proof goal solved"
(get (first mod-aud-keep-goals) :solved)
true)
;; ── evidence accumulation drives a rule ──
(define
mod-aud-rev-r
(mod/attach-evidence
(mod/mk-report "re" "a" "carol" "neutral")
(mod/mk-evidence "confirmed-abuse" "human")))
(define mod-aud-rev (mod-aud-decide1 mod-aud-rev-r))
(mod-aud-test!
"evidence has length 1"
(len (mod/report-evidence mod-aud-rev-r))
1)
(mod-aud-test!
"evidence reviewer-remove → remove"
(get mod-aud-rev :action)
"remove")
(mod-aud-test!
"evidence reviewer-remove rule"
(get mod-aud-rev :rule)
"reviewer-remove")
(mod-aud-test!
"evidence proof goal solved"
(get (first (get (get mod-aud-rev :proof) :goals)) :solved)
true)
(mod-aud-test!
"no evidence → not reviewer-remove"
(get (mod-aud-decide1 (mod/mk-report "rn" "a" "b" "neutral")) :rule)
"default-keep")
;; ── append-only audit log via the api ──
(mod/reset!)
(mod/report "alice" "bob" "this is spam")
(mod/report "carol" "eve" "fine post")
(define mod-aud-d1 (mod/decide "r1"))
(define mod-aud-d2 (mod/decide "r2"))
(mod-aud-test! "two decisions logged" (mod/audit-count) 2)
(mod-aud-test!
"first entry seq 1"
(get (first (mod/audit-all)) :seq)
1)
(mod-aud-test!
"audit r1 returns one entry"
(len (mod/audit "r1"))
1)
(mod-aud-test!
"audit r1 action matches decision"
(get (first (mod/audit "r1")) :action)
(get mod-aud-d1 :action))
(mod-aud-test!
"audit r1 rule matches decision"
(get (first (mod/audit "r1")) :rule)
"spam-hide")
(mod-aud-test!
"audit r1 entry carries proof goals"
(len (get (get (first (mod/audit "r1")) :proof) :goals))
1)
(mod-aud-test!
"audit r2 keep"
(get (first (mod/audit "r2")) :action)
"keep")
(mod-aud-test! "audit unknown report → empty" (mod/audit "r99") (list))
;; ── append-only: re-deciding appends, never mutates ──
(define mod-aud-d1b (mod/decide "r1"))
(mod-aud-test! "re-decide appends (count 3)" (mod/audit-count) 3)
(mod-aud-test!
"audit r1 now has 2 entries"
(len (mod/audit "r1"))
2)
(mod-aud-test!
"audit r1 seqs monotonic"
(get (nth (mod/audit "r1") 1) :seq)
3)
(mod-aud-test!
"audit-latest r1 is seq 3"
(get (mod/audit-latest "r1") :seq)
3)
(mod-aud-test!
"first r1 entry unchanged (still seq 1)"
(get (first (mod/audit "r1")) :seq)
1)
;; ── evidence snapshot captured at decision time ──
(mod/add-evidence "r2" "confirmed-abuse" "human")
(define mod-aud-d2b (mod/decide "r2"))
(mod-aud-test!
"post-evidence decision flips to remove"
(get mod-aud-d2b :action)
"remove")
(mod-aud-test!
"audit snapshot records evidence kind"
(mod/evidence-kind (first (get (mod/audit-latest "r2") :evidence)))
"confirmed-abuse")
(mod-aud-test!
"earlier r2 entry had empty evidence snapshot"
(len (get (first (mod/audit "r2")) :evidence))
0)
(define mod-audit-tests-run! (fn () {:failures mod-aud-failures :total mod-aud-count :passed mod-aud-pass :failed mod-aud-fail}))

101
lib/mod/tests/batch.sx Normal file
View File

@@ -0,0 +1,101 @@
;; lib/mod/tests/batch.sx — Ext 11: batch triage + corpus analytics.
(define mod-b-count 0)
(define mod-b-pass 0)
(define mod-b-fail 0)
(define mod-b-failures (list))
(define
mod-b-test!
(fn
(name got expected)
(begin
(set! mod-b-count (+ mod-b-count 1))
(if
(= got expected)
(set! mod-b-pass (+ mod-b-pass 1))
(begin
(set! mod-b-fail (+ mod-b-fail 1))
(append!
mod-b-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; corpus: 2 spam, 1 abuse, 2 clean — distinct subjects so the count rule stays quiet
(define
mod-b-corpus
(list
(mod/mk-report "r1" "u" "s1" "this is spam")
(mod/mk-report "r2" "u" "s2" "buy now offer")
(mod/mk-report "r3" "u" "s3" "harassment here")
(mod/mk-report "r4" "u" "s4" "a fine post")
(mod/mk-report "r5" "u" "s5" "thanks for sharing")))
(define mod-b-decisions (mod/decide-batch mod-b-corpus mod/default-rules))
;; ── decide-batch ──
(mod-b-test! "one decision per report" (len mod-b-decisions) 5)
(mod-b-test!
"first decision is hide"
(get (first mod-b-decisions) :action)
"hide")
;; ── action histogram ──
(define mod-b-hist (mod/action-histogram mod-b-decisions))
(mod-b-test! "histogram hide count" (get mod-b-hist :hide) 2)
(mod-b-test! "histogram remove count" (get mod-b-hist :remove) 1)
(mod-b-test! "histogram keep count" (get mod-b-hist :keep) 2)
(mod-b-test! "histogram escalate count" (get mod-b-hist :escalate) 0)
(mod-b-test! "histogram ban count" (get mod-b-hist :ban) 0)
(mod-b-test!
"histogram totals match corpus"
(+
(+ (get mod-b-hist :hide) (get mod-b-hist :remove))
(+
(get mod-b-hist :keep)
(+ (get mod-b-hist :escalate) (get mod-b-hist :ban))))
5)
;; ── rule coverage (empirical) ──
(define mod-b-cov (mod/rule-coverage mod-b-corpus mod/default-rules))
(mod-b-test! "coverage has one row per rule" (len mod-b-cov) 6)
(mod-b-test!
"spam-hide fired twice"
(mod/rule-fire-count mod-b-decisions "spam-hide")
2)
(mod-b-test!
"abuse-remove fired once"
(mod/rule-fire-count mod-b-decisions "abuse-remove")
1)
(mod-b-test!
"default-keep fired twice"
(mod/rule-fire-count mod-b-decisions "default-keep")
2)
;; ── never-fired: rules not exercised by this corpus ──
(define mod-b-never (mod/never-fired mod-b-corpus mod/default-rules))
(mod-b-test!
"exonerated-keep never fired"
(mod/member? "exonerated-keep" mod-b-never)
true)
(mod-b-test!
"reviewer-remove never fired"
(mod/member? "reviewer-remove" mod-b-never)
true)
(mod-b-test!
"repeated-escalate never fired"
(mod/member? "repeated-escalate" mod-b-never)
true)
(mod-b-test!
"spam-hide DID fire (not in never-fired)"
(mod/member? "spam-hide" mod-b-never)
false)
(mod-b-test!
"three rules never fired on this corpus"
(len mod-b-never)
3)
(define mod-batch-tests-run! (fn () {:failures mod-b-failures :total mod-b-count :passed mod-b-pass :failed mod-b-fail}))

215
lib/mod/tests/decide.sx Normal file
View File

@@ -0,0 +1,215 @@
;; lib/mod/tests/decide.sx — Phase 1: report representation + simple policy.
(define mod-dec-count 0)
(define mod-dec-pass 0)
(define mod-dec-fail 0)
(define mod-dec-failures (list))
(define
mod-dec-test!
(fn
(name got expected)
(begin
(set! mod-dec-count (+ mod-dec-count 1))
(if
(= got expected)
(set! mod-dec-pass (+ mod-dec-pass 1))
(begin
(set! mod-dec-fail (+ mod-dec-fail 1))
(append!
mod-dec-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; decide a single report (count over a 1-element registry)
(define
mod-dec-one
(fn
(reason)
(let
((r (mod/mk-report "r1" "alice" "bob" reason)))
(mod/decide-report r (list r) mod/default-rules))))
(define mod-dec-action (fn (reason) (get (mod-dec-one reason) :action)))
;; ── spam keyword → :hide ──
(mod-dec-test!
"spam keyword 'spam' → hide"
(mod-dec-action "this is spam")
"hide")
(mod-dec-test!
"spam keyword 'buy now' → hide"
(mod-dec-action "buy now while stocks last")
"hide")
(mod-dec-test!
"spam keyword case-insensitive 'CLICK HERE' → hide"
(mod-dec-action "CLICK HERE now")
"hide")
(mod-dec-test!
"spam keyword 'free money' → hide"
(mod-dec-action "win free money fast")
"hide")
;; ── abuse keyword → :remove ──
(mod-dec-test!
"abuse keyword 'harassment' → remove"
(mod-dec-action "ongoing harassment of users")
"remove")
(mod-dec-test!
"abuse keyword 'threat' → remove"
(mod-dec-action "this is a threat")
"remove")
(mod-dec-test!
"abuse keyword 'slur' → remove"
(mod-dec-action "contains a slur")
"remove")
;; ── no rule → :keep ──
(mod-dec-test!
"neutral reason → keep"
(mod-dec-action "I disagree with this post")
"keep")
(mod-dec-test! "empty reason → keep" (mod-dec-action "") "keep")
;; ── decision carries the matching rule (proof, not bare keyword) ──
(mod-dec-test!
"spam decision rule name"
(get (mod-dec-one "this is spam") :rule)
"spam-hide")
(mod-dec-test!
"keep decision rule name"
(get (mod-dec-one "fine post") :rule)
"default-keep")
(mod-dec-test!
"abuse decision rule name"
(get (mod-dec-one "harassment here") :rule)
"abuse-remove")
(mod-dec-test!
"spam proof :rule"
(get (get (mod-dec-one "spam!") :proof) :rule)
"spam-hide")
(mod-dec-test!
"spam proof :evidence"
(get (get (mod-dec-one "spam!") :proof) :evidence)
(list "spam"))
(mod-dec-test!
"spam proof :count"
(get (get (mod-dec-one "spam!") :proof) :count)
1)
;; ── classification (evidence derivation) ──
(mod-dec-test!
"classify spam"
(mod/classify-keywords (mod/mk-report "r1" "a" "b" "spam!"))
(list "spam"))
(mod-dec-test!
"classify abuse"
(mod/classify-keywords (mod/mk-report "r1" "a" "b" "abuse"))
(list "abuse"))
(mod-dec-test!
"classify neutral → empty"
(mod/classify-keywords (mod/mk-report "r1" "a" "b" "hello"))
(list))
(mod-dec-test!
"classify both spam+abuse"
(mod/classify-keywords (mod/mk-report "r1" "a" "b" "spam and abuse"))
(list "spam" "abuse"))
;; ── report-count + repeated → :escalate ──
(define
mod-dec-three
(list
(mod/mk-report "r1" "a" "bob" "x")
(mod/mk-report "r2" "c" "bob" "y")
(mod/mk-report "r3" "d" "bob" "z")))
(mod-dec-test!
"report-count counts subject"
(mod/report-count "bob" mod-dec-three)
3)
(mod-dec-test!
"3 reports about subject → escalate"
(get
(mod/decide-report (first mod-dec-three) mod-dec-three mod/default-rules)
:action)
"escalate")
(mod-dec-test!
"escalate rule name"
(get
(mod/decide-report (first mod-dec-three) mod-dec-three mod/default-rules)
:rule)
"repeated-escalate")
(define
mod-dec-two
(list
(mod/mk-report "r1" "a" "carol" "x")
(mod/mk-report "r2" "c" "carol" "y")))
(mod-dec-test!
"2 reports about subject → keep (below threshold)"
(get
(mod/decide-report (first mod-dec-two) mod-dec-two mod/default-rules)
:action)
"keep")
;; ── precedence: spam beats repeated ──
(define
mod-dec-spam-among-many
(list
(mod/mk-report "r1" "a" "dave" "buy now spam")
(mod/mk-report "r2" "c" "dave" "y")
(mod/mk-report "r3" "d" "dave" "z")))
(mod-dec-test!
"spam wins over repeated (precedence)"
(get
(mod/decide-report
(first mod-dec-spam-among-many)
mod-dec-spam-among-many
mod/default-rules)
:action)
"hide")
;; ── accessors ──
(mod-dec-test!
"report-about accessor"
(mod/report-about (mod/mk-report "r1" "a" "bob" "x"))
"bob")
(mod-dec-test!
"report-by accessor"
(mod/report-by (mod/mk-report "r1" "alice" "bob" "x"))
"alice")
;; ── api registry ──
(mod/reset!)
(define mod-dec-r1 (mod/report "alice" "bob" "this is spam"))
(define mod-dec-r2 (mod/report "carol" "eve" "fine post"))
(mod-dec-test!
"mod/report assigns sequential id r1"
(mod/report-id mod-dec-r1)
"r1")
(mod-dec-test!
"mod/report assigns sequential id r2"
(mod/report-id mod-dec-r2)
"r2")
(mod-dec-test!
"mod/decide via registry → hide"
(get (mod/decide "r1") :action)
"hide")
(mod-dec-test!
"mod/decide via registry → keep"
(get (mod/decide "r2") :action)
"keep")
(mod-dec-test! "mod/decide unknown id → nil" (mod/decide "r99") nil)
(define mod-decide-tests-run! (fn () {:failures mod-dec-failures :total mod-dec-count :passed mod-dec-pass :failed mod-dec-fail}))

95
lib/mod/tests/defrule.sx Normal file
View File

@@ -0,0 +1,95 @@
;; lib/mod/tests/defrule.sx — Ext 18: ergonomic defrule / ruleset.
(define mod-dr-count 0)
(define mod-dr-pass 0)
(define mod-dr-fail 0)
(define mod-dr-failures (list))
(define
mod-dr-test!
(fn
(name got expected)
(begin
(set! mod-dr-count (+ mod-dr-count 1))
(if
(= got expected)
(set! mod-dr-pass (+ mod-dr-pass 1))
(begin
(set! mod-dr-fail (+ mod-dr-fail 1))
(append!
mod-dr-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── defrule produces the same structure as mk-rule ──
(define
mod-dr-r
(mod/defrule "spam-hide" :hide (list :classification "spam")))
(mod-dr-test! "defrule name" (mod/rule-name mod-dr-r) "spam-hide")
(mod-dr-test! "defrule action" (mod/rule-action mod-dr-r) "hide")
(mod-dr-test!
"defrule when wraps the conditions"
(mod/rule-when mod-dr-r)
(list (list :classification "spam")))
(mod-dr-test!
"defrule equals mk-rule equivalent"
(mod/rule-when mod-dr-r)
(mod/rule-when
(mod/mk-rule "spam-hide" :hide (list (list :classification "spam")))))
;; ── multi-condition + no-condition ──
(define
mod-dr-multi
(mod/defrule
"strict"
:hide (list :classification "spam")
(list :not (list :attr "verified"))))
(mod-dr-test!
"defrule collects multiple conditions"
(len (mod/rule-when mod-dr-multi))
2)
(define mod-dr-catch (mod/defrule "default-keep" :keep))
(mod-dr-test!
"defrule with no conditions is unconditional"
(mod/rule-when mod-dr-catch)
(list))
;; ── ruleset assembles a list ──
(define
mod-dr-rules
(mod/ruleset
(mod/defrule "spam-hide" :hide (list :classification "spam"))
(mod/defrule "default-keep" :keep)))
(mod-dr-test! "ruleset length" (len mod-dr-rules) 2)
(mod-dr-test!
"ruleset first rule name"
(mod/rule-name (first mod-dr-rules))
"spam-hide")
;; ── engine works with defrule/ruleset-built policy ──
(define mod-dr-spam (mod/mk-report "r1" "a" "b" "this is spam"))
(define mod-dr-clean (mod/mk-report "r2" "a" "b" "a fine post"))
(mod-dr-test!
"defrule policy: spam → hide"
(get
(mod/decide-report mod-dr-spam (list mod-dr-spam) mod-dr-rules)
:action)
"hide")
(mod-dr-test!
"defrule policy: clean → keep"
(get
(mod/decide-report mod-dr-clean (list mod-dr-clean) mod-dr-rules)
:action)
"keep")
(mod-dr-test!
"defrule policy: spam names the rule"
(get (mod/decide-report mod-dr-spam (list mod-dr-spam) mod-dr-rules) :rule)
"spam-hide")
(define mod-defrule-tests-run! (fn () {:failures mod-dr-failures :total mod-dr-count :passed mod-dr-pass :failed mod-dr-fail}))

145
lib/mod/tests/disjunction.sx Normal file
View File

@@ -0,0 +1,145 @@
;; lib/mod/tests/disjunction.sx — Ext 15: disjunctive (:any) conditions.
(define mod-or-count 0)
(define mod-or-pass 0)
(define mod-or-fail 0)
(define mod-or-failures (list))
(define
mod-or-test!
(fn
(name got expected)
(begin
(set! mod-or-count (+ mod-or-count 1))
(if
(= got expected)
(set! mod-or-pass (+ mod-or-pass 1))
(begin
(set! mod-or-fail (+ mod-or-fail 1))
(append!
mod-or-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; one rule, OR of two classifications → one action covers both
(define
mod-or-rules
(list
(mod/mk-rule
"spam-or-abuse-hide"
:hide (list
(list
:any (list (list :classification "spam") (list :classification "abuse")))))
(mod/mk-rule "default-keep" :keep (list))))
(define mod-or-spam (mod/mk-report "r1" "a" "b" "this is spam"))
(define mod-or-abuse (mod/mk-report "r2" "a" "b" "harassment here"))
(define mod-or-clean (mod/mk-report "r3" "a" "b" "a fine post"))
(mod-or-test!
"OR: spam branch → hide"
(get
(mod/decide-report mod-or-spam (list mod-or-spam) mod-or-rules)
:action)
"hide")
(mod-or-test!
"OR: abuse branch → hide"
(get
(mod/decide-report mod-or-abuse (list mod-or-abuse) mod-or-rules)
:action)
"hide")
(mod-or-test!
"OR: neither branch → keep"
(get
(mod/decide-report mod-or-clean (list mod-or-clean) mod-or-rules)
:action)
"keep")
;; ── goal text + proof ──
(mod-or-test!
"cond->goal :any joins with ;"
(mod/cond->goal
(list
:any (list (list :classification "spam") (list :classification "abuse")))
"Id")
"(classification(Id, spam) ; classification(Id, abuse))")
(define
mod-or-dec
(mod/decide-report mod-or-spam (list mod-or-spam) mod-or-rules))
(mod-or-test!
"OR proof goal solved"
(get (first (get (get mod-or-dec :proof) :goals)) :solved)
true)
(mod-or-test!
"OR proof goal text"
(get (first (get (get mod-or-dec :proof) :goals)) :goal)
"(classification(r1, spam) ; classification(r1, abuse))")
;; ── :any composes with :not (NOR-ish) and :attr ──
(define
mod-or-mixed-rules
(list
(mod/mk-rule
"spam-or-flagged-hide"
:hide (list
(list
:any (list (list :classification "spam") (list :attr "flagged")))))
(mod/mk-rule "default-keep" :keep (list))))
(define
mod-or-flagged
(mod/attach-attr (mod/mk-report "r4" "a" "b" "a fine post") "flagged"))
(mod-or-test!
"OR over classification|attr: flagged clean post → hide"
(get
(mod/decide-report
mod-or-flagged
(list mod-or-flagged)
mod-or-mixed-rules)
:action)
"hide")
(mod-or-test!
"cond->goal :any with :not branch"
(mod/cond->goal
(list
:any (list
(list :classification "spam")
(list :not (list :attr "verified"))))
"Id")
"(classification(Id, spam) ; not(attr(Id, verified)))")
;; AND still works alongside OR in the same :when list
(define
mod-or-and-rules
(list
(mod/mk-rule
"spam-and-not-verified"
:hide (list
(list
:any (list (list :classification "spam") (list :classification "abuse")))
(list :not (list :attr "verified"))))
(mod/mk-rule "default-keep" :keep (list))))
(define
mod-or-spam-verified
(mod/attach-attr (mod/mk-report "r5" "a" "b" "this is spam") "verified"))
(mod-or-test!
"AND of OR + NOT: verified spam → keep"
(get
(mod/decide-report
mod-or-spam-verified
(list mod-or-spam-verified)
mod-or-and-rules)
:action)
"keep")
(mod-or-test!
"AND of OR + NOT: unverified abuse → hide"
(get
(mod/decide-report mod-or-abuse (list mod-or-abuse) mod-or-and-rules)
:action)
"hide")
(define mod-disjunction-tests-run! (fn () {:failures mod-or-failures :total mod-or-count :passed mod-or-pass :failed mod-or-fail}))

279
lib/mod/tests/escalation.sx Normal file
View File

@@ -0,0 +1,279 @@
;; lib/mod/tests/escalation.sx — Phase 3: lifecycle state machine + escalation.
(define mod-esc-count 0)
(define mod-esc-pass 0)
(define mod-esc-fail 0)
(define mod-esc-failures (list))
(define
mod-esc-test!
(fn
(name got expected)
(begin
(set! mod-esc-count (+ mod-esc-count 1))
(if
(= got expected)
(set! mod-esc-pass (+ mod-esc-pass 1))
(begin
(set! mod-esc-fail (+ mod-esc-fail 1))
(append!
mod-esc-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── transition table guard ──
(mod-esc-test!
"open → triaged allowed"
(mod/lc-can-transition? "open" "triaged")
true)
(mod-esc-test!
"triaged → decided allowed"
(mod/lc-can-transition? "triaged" "decided")
true)
(mod-esc-test!
"decided → appealed allowed"
(mod/lc-can-transition? "decided" "appealed")
true)
(mod-esc-test!
"appealed → final allowed"
(mod/lc-can-transition? "appealed" "final")
true)
(mod-esc-test!
"open → decided rejected"
(mod/lc-can-transition? "open" "decided")
false)
(mod-esc-test!
"triaged → final rejected"
(mod/lc-can-transition? "triaged" "final")
false)
(mod-esc-test!
"final is terminal"
(mod/lc-can-transition? "final" "open")
false)
;; ── initial state ──
(define
mod-esc-c0
(mod/mk-case (mod/mk-report "r1" "alice" "bob" "this is spam")))
(mod-esc-test! "new case is open" (mod/case-state mod-esc-c0) "open")
(mod-esc-test! "new case has no decision" (mod/case-decision mod-esc-c0) nil)
;; ── auto-tier: spam triages + resolves to decided/hide ──
(define
mod-esc-spam-rep
(list (mod/mk-report "r1" "alice" "bob" "this is spam")))
(define
mod-esc-t1
(mod/case-triage mod-esc-c0 mod-esc-spam-rep mod/default-rules))
(mod-esc-test! "spam triaged" (mod/case-state mod-esc-t1) "triaged")
(mod-esc-test! "spam triage tier auto" (mod/case-tier mod-esc-t1) "auto")
(mod-esc-test! "spam triage action hide" (mod/case-action mod-esc-t1) "hide")
(define mod-esc-r1 (mod/case-resolve mod-esc-t1))
(mod-esc-test!
"auto resolve → decided"
(mod/case-state mod-esc-r1)
"decided")
(mod-esc-test!
"decision preserved through resolve"
(mod/case-action mod-esc-r1)
"hide")
;; ── illegal transition flags :error, leaves state ──
(define mod-esc-bad (mod/case-finalize mod-esc-c0))
(mod-esc-test!
"finalize from open is illegal"
(mod/case-state mod-esc-bad)
"open")
(mod-esc-test!
"illegal transition sets error"
(nil? (mod/case-error mod-esc-bad))
false)
;; ── human-tier: repeated report escalates, resolve blocked, review decides ──
(define mod-esc-rep-r (mod/mk-report "r3" "ann" "dave" "off-topic"))
(define mod-esc-rep-reports (list mod-esc-rep-r mod-esc-rep-r mod-esc-rep-r))
(define mod-esc-rep-c0 (mod/mk-case mod-esc-rep-r))
(define
mod-esc-rep-t
(mod/case-triage mod-esc-rep-c0 mod-esc-rep-reports mod/default-rules))
(mod-esc-test!
"repeated triage action escalate"
(mod/case-action mod-esc-rep-t)
"escalate")
(mod-esc-test!
"repeated triage tier human"
(mod/case-tier mod-esc-rep-t)
"human")
(mod-esc-test!
"repeated still triaged after triage"
(mod/case-state mod-esc-rep-t)
"triaged")
(define mod-esc-rep-block (mod/case-resolve mod-esc-rep-t))
(mod-esc-test!
"auto-resolve blocked on human tier (state unchanged)"
(mod/case-state mod-esc-rep-block)
"triaged")
(mod-esc-test!
"blocked resolve sets error"
(nil? (mod/case-error mod-esc-rep-block))
false)
(define
mod-esc-rep-rev
(mod/case-review
mod-esc-rep-t
"confirmed-abuse"
"human"
mod-esc-rep-reports
mod/default-rules))
(mod-esc-test!
"human review → decided"
(mod/case-state mod-esc-rep-rev)
"decided")
(mod-esc-test!
"human review action remove"
(mod/case-action mod-esc-rep-rev)
"remove")
(mod-esc-test!
"review attached evidence to report"
(len (mod/report-evidence (mod/case-report mod-esc-rep-rev)))
1)
(define mod-esc-rep-final (mod/case-finalize mod-esc-rep-rev))
(mod-esc-test!
"review case finalizes"
(mod/case-state mod-esc-rep-final)
"final")
;; ── appeal overrides a prior decision ──
(define
mod-esc-ap-c0
(mod/mk-case (mod/mk-report "r5" "u" "v" "buy now spam")))
(define mod-esc-ap-rep (list (mod/mk-report "r5" "u" "v" "buy now spam")))
(define
mod-esc-ap-t
(mod/case-triage mod-esc-ap-c0 mod-esc-ap-rep mod/default-rules))
(define mod-esc-ap-d (mod/case-resolve mod-esc-ap-t))
(mod-esc-test!
"appeal precondition decided/hide"
(mod/case-action mod-esc-ap-d)
"hide")
(define
mod-esc-ap-appealed
(mod/case-appeal
mod-esc-ap-d
"exonerated"
"moderator"
mod-esc-ap-rep
mod/default-rules))
(mod-esc-test!
"appeal → appealed state"
(mod/case-state mod-esc-ap-appealed)
"appealed")
(mod-esc-test!
"appeal overrides hide → keep"
(mod/case-action mod-esc-ap-appealed)
"keep")
(mod-esc-test!
"appeal recorded via exonerated-keep rule"
(get (mod/case-decision mod-esc-ap-appealed) :rule)
"exonerated-keep")
(define mod-esc-ap-final (mod/case-finalize mod-esc-ap-appealed))
(mod-esc-test! "appealed → final" (mod/case-state mod-esc-ap-final) "final")
;; ── history records the full traversal ──
(mod-esc-test!
"full lifecycle history length 4 (triage,resolve,appeal,finalize)"
(len (mod/case-history mod-esc-ap-final))
4)
(mod-esc-test!
"first history step open→triaged"
(get (first (mod/case-history mod-esc-ap-final)) :to)
"triaged")
(mod-esc-test!
"last history step → final"
(get (nth (mod/case-history mod-esc-ap-final) 3) :to)
"final")
;; ── api-level lifecycle façade ──
(mod/reset!)
(mod/report "alice" "bob" "this is spam")
(mod/report "carol" "dave" "off-topic")
(mod/report "carol" "dave" "off-topic")
(mod/report "carol" "dave" "off-topic")
(mod-esc-test!
"api: case opens at open"
(mod/case-state (mod/case-of "r1"))
"open")
(define mod-esc-api-t1 (mod/triage "r1"))
(mod-esc-test!
"api: triage spam → triaged"
(mod/case-state mod-esc-api-t1)
"triaged")
(mod-esc-test!
"api: triage spam action hide"
(mod/case-action mod-esc-api-t1)
"hide")
(define mod-esc-api-r1 (mod/resolve "r1"))
(mod-esc-test!
"api: resolve → decided"
(mod/case-state mod-esc-api-r1)
"decided")
(mod-esc-test!
"api: resolve logged decision"
(len (mod/audit "r1"))
1)
(define mod-esc-api-app (mod/appeal "r1" "exonerated" "mod"))
(mod-esc-test!
"api: appeal → appealed"
(mod/case-state mod-esc-api-app)
"appealed")
(mod-esc-test!
"api: appeal overrides → keep"
(mod/case-action mod-esc-api-app)
"keep")
(mod-esc-test!
"api: appeal logged second decision"
(len (mod/audit "r1"))
2)
(mod-esc-test!
"api: finalize → final"
(mod/case-state (mod/finalize "r1"))
"final")
;; r4 is the 3rd report about dave → escalates via the human tier
(define mod-esc-api-t4 (mod/triage "r4"))
(mod-esc-test!
"api: repeated triage escalates (human tier)"
(mod/case-tier mod-esc-api-t4)
"human")
(define mod-esc-api-blk (mod/resolve "r4"))
(mod-esc-test!
"api: escalated resolve blocked"
(mod/case-state mod-esc-api-blk)
"triaged")
(define mod-esc-api-rev (mod/review "r4" "confirmed-abuse" "human"))
(mod-esc-test!
"api: review → decided/remove"
(mod/case-action mod-esc-api-rev)
"remove")
(mod-esc-test! "api: unknown id → nil" (mod/triage "r99") nil)
(define mod-escalation-tests-run! (fn () {:failures mod-esc-failures :total mod-esc-count :passed mod-esc-pass :failed mod-esc-fail}))

313
lib/mod/tests/extensions.sx Normal file
View File

@@ -0,0 +1,313 @@
;; lib/mod/tests/extensions.sx — beyond-roadmap extensions.
;;
;; Ext 1: negation-as-failure conditions (:not / :attr) + report attributes.
;; "hide spam UNLESS the author is verified" (closed-world reasoning).
;; Ext 2: weighted/aggregate evidence scoring (:score-at-least) + report signals.
;; Many low-confidence signals accumulate past a threshold via Prolog
;; aggregate_all(sum(W), ...).
;; Ext 3: human-readable proof explanation (mod/explain) over the proof tree.
;; Demonstrated with custom rule sets so the default policy (and its conformance
;; tests) stays untouched.
(define mod-ext-count 0)
(define mod-ext-pass 0)
(define mod-ext-fail 0)
(define mod-ext-failures (list))
(define
mod-ext-test!
(fn
(name got expected)
(begin
(set! mod-ext-count (+ mod-ext-count 1))
(if
(= got expected)
(set! mod-ext-pass (+ mod-ext-pass 1))
(begin
(set! mod-ext-fail (+ mod-ext-fail 1))
(append!
mod-ext-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── Ext 1: report attributes ──
(define mod-ext-r0 (mod/mk-report "r1" "a" "b" "this is spam"))
(mod-ext-test!
"fresh report has no attrs"
(len (mod/report-attrs mod-ext-r0))
0)
(define mod-ext-rv (mod/attach-attr mod-ext-r0 "verified"))
(mod-ext-test!
"attach-attr adds one attr"
(len (mod/report-attrs mod-ext-rv))
1)
(mod-ext-test!
"attach-attr preserves evidence field"
(len
(mod/report-evidence
(mod/attach-evidence mod-ext-rv (mod/mk-evidence "x" "y"))))
1)
(mod-ext-test!
"attach-evidence preserves attrs"
(len
(mod/report-attrs
(mod/attach-evidence mod-ext-rv (mod/mk-evidence "x" "y"))))
1)
;; ── Ext 1: negation-as-failure: spam hidden unless author verified ──
(define
mod-ext-rules
(list
(mod/mk-rule
"spam-unverified-hide"
:hide (list
(list :classification "spam")
(list :not (list :attr "verified"))))
(mod/mk-rule "default-keep" :keep (list))))
(define mod-ext-spam-plain (mod/mk-report "p1" "a" "b" "this is spam"))
(define
mod-ext-spam-verified
(mod/attach-attr (mod/mk-report "p2" "a" "b" "this is spam") "verified"))
(define mod-ext-clean (mod/mk-report "p3" "a" "b" "a fine post"))
(mod-ext-test!
"unverified spam → hide"
(get
(mod/decide-report
mod-ext-spam-plain
(list mod-ext-spam-plain)
mod-ext-rules)
:action)
"hide")
(mod-ext-test!
"verified author spam → keep (negation blocks)"
(get
(mod/decide-report
mod-ext-spam-verified
(list mod-ext-spam-verified)
mod-ext-rules)
:action)
"keep")
(mod-ext-test!
"clean post → keep"
(get
(mod/decide-report mod-ext-clean (list mod-ext-clean) mod-ext-rules)
:action)
"keep")
;; ── Ext 1: negation appears in the goal text + proof ──
(define
mod-ext-dec
(mod/decide-report
mod-ext-spam-plain
(list mod-ext-spam-plain)
mod-ext-rules))
(define mod-ext-goals (get (get mod-ext-dec :proof) :goals))
(mod-ext-test!
"rule that matched is spam-unverified-hide"
(get mod-ext-dec :rule)
"spam-unverified-hide")
(mod-ext-test! "proof has two goals" (len mod-ext-goals) 2)
(mod-ext-test!
"negation goal text"
(get (nth mod-ext-goals 1) :goal)
"not(attr(p1, verified))")
(mod-ext-test!
"negation goal solved for unverified"
(get (nth mod-ext-goals 1) :solved)
true)
;; ── Ext 1: cond->goal compiles :attr and :not directly ──
(mod-ext-test!
"cond->goal :attr"
(mod/cond->goal (list :attr "verified") "Id")
"attr(Id, verified)")
(mod-ext-test!
"cond->goal :not wraps inner"
(mod/cond->goal (list :not (list :classification "spam")) "Id")
"not(classification(Id, spam))")
;; ── Ext 1: positive :attr condition (allowlist-style) ──
(define
mod-ext-allow-rules
(list
(mod/mk-rule "trusted-keep" :keep (list (list :attr "trusted")))
(mod/mk-rule "spam-hide" :hide (list (list :classification "spam")))
(mod/mk-rule "default-keep" :keep (list))))
(define
mod-ext-trusted-spam
(mod/attach-attr (mod/mk-report "t1" "a" "b" "this is spam") "trusted"))
(mod-ext-test!
"trusted attr exempts spam → keep"
(get
(mod/decide-report
mod-ext-trusted-spam
(list mod-ext-trusted-spam)
mod-ext-allow-rules)
:action)
"keep")
;; ── Ext 2: weighted signals + aggregate scoring ──
(define mod-ext-s0 (mod/mk-report "s1" "a" "b" "neutral"))
(mod-ext-test!
"fresh report has no signals"
(len (mod/report-signals mod-ext-s0))
0)
(define
mod-ext-s1
(mod/attach-signal mod-ext-s0 (mod/mk-signal "link" 2)))
(mod-ext-test!
"attach-signal adds one"
(len (mod/report-signals mod-ext-s1))
1)
(mod-ext-test!
"attach-signal preserves attrs"
(len
(mod/report-attrs
(mod/attach-signal mod-ext-rv (mod/mk-signal "x" 1))))
1)
(define
mod-ext-score-rules
(list
(mod/mk-rule
"high-score-hide"
:hide (list (list :score-at-least 5)))
(mod/mk-rule "default-keep" :keep (list))))
;; one weak signal (2) — below threshold
(define
mod-ext-weak
(mod/attach-signal
(mod/mk-report "w1" "a" "b" "neutral")
(mod/mk-signal "link" 2)))
(mod-ext-test!
"single weak signal → keep (below threshold)"
(get
(mod/decide-report mod-ext-weak (list mod-ext-weak) mod-ext-score-rules)
:action)
"keep")
;; three signals summing to 6 — over threshold
(define
mod-ext-strong0
(mod/attach-signal
(mod/mk-report "w2" "a" "b" "neutral")
(mod/mk-signal "link" 2)))
(define
mod-ext-strong1
(mod/attach-signal mod-ext-strong0 (mod/mk-signal "newaccount" 2)))
(define
mod-ext-strong
(mod/attach-signal mod-ext-strong1 (mod/mk-signal "burst" 2)))
(mod-ext-test!
"accumulated signals (2+2+2=6) → hide"
(get
(mod/decide-report
mod-ext-strong
(list mod-ext-strong)
mod-ext-score-rules)
:action)
"hide")
(mod-ext-test!
"scoring rule named in decision"
(get
(mod/decide-report
mod-ext-strong
(list mod-ext-strong)
mod-ext-score-rules)
:rule)
"high-score-hide")
;; exactly at threshold (5) fires
(define
mod-ext-exact0
(mod/attach-signal
(mod/mk-report "w3" "a" "b" "neutral")
(mod/mk-signal "link" 3)))
(define
mod-ext-exact
(mod/attach-signal mod-ext-exact0 (mod/mk-signal "burst" 2)))
(mod-ext-test!
"exactly at threshold (5) → hide"
(get
(mod/decide-report mod-ext-exact (list mod-ext-exact) mod-ext-score-rules)
:action)
"hide")
(mod-ext-test!
"cond->goal :score-at-least"
(mod/cond->goal (list :score-at-least 5) "Id")
"aggregate_all(sum(W), signal(Id, _, W), T), T >= 5")
;; ── Ext 3: human-readable proof explanation ──
(define mod-ext-spam-explain (mod/explain mod-ext-dec))
(mod-ext-test!
"explain mentions the report id"
(mod/str-contains? mod-ext-spam-explain "Report p1")
true)
(mod-ext-test!
"explain mentions the action"
(mod/str-contains? mod-ext-spam-explain "hide")
true)
(mod-ext-test!
"explain mentions the rule"
(mod/str-contains? mod-ext-spam-explain "spam-unverified-hide")
true)
(mod-ext-test!
"explain marks proved goals"
(mod/str-contains? mod-ext-spam-explain "[proved]")
true)
(mod-ext-test!
"explain renders the evidence line"
(mod/str-contains? mod-ext-spam-explain "Evidence: spam")
true)
;; count-rule explanation shows the unification bindings
(define mod-ext-rep-r (mod/mk-report "rc" "ann" "dave" "off-topic"))
(define
mod-ext-rep-d
(mod/decide-report
mod-ext-rep-r
(list mod-ext-rep-r mod-ext-rep-r mod-ext-rep-r)
mod/default-rules))
(define mod-ext-rep-explain (mod/explain mod-ext-rep-d))
(mod-ext-test!
"explain shows binding N=3"
(mod/str-contains? mod-ext-rep-explain "N=3")
true)
(mod-ext-test!
"explain shows subject binding"
(mod/str-contains? mod-ext-rep-explain "dave")
true)
;; explain-goal direct: unproved goal gets [unproved]
(mod-ext-test!
"explain-goal marks unproved"
(mod/str-contains? (mod/explain-goal {:solved false :goal "attr(x, foo)" :bindings {}}) "[unproved]")
true)
;; explain-binds renders key=value pairs
(mod-ext-test!
"explain-binds renders pair"
(mod/explain-binds {:N "3"})
"N=3")
;; no-evidence decision says (none)
(define
mod-ext-keep-d
(mod/decide-report mod-ext-clean (list mod-ext-clean) mod-ext-rules))
(mod-ext-test!
"explain (none) for empty evidence"
(mod/str-contains? (mod/explain mod-ext-keep-d) "Evidence: (none)")
true)
(define mod-extensions-tests-run! (fn () {:failures mod-ext-failures :total mod-ext-count :passed mod-ext-pass :failed mod-ext-fail}))

154
lib/mod/tests/fed.sx Normal file
View File

@@ -0,0 +1,154 @@
;; lib/mod/tests/fed.sx — Phase 4: federation (mock fed-sx).
(define mod-fed-count 0)
(define mod-fed-pass 0)
(define mod-fed-fail 0)
(define mod-fed-failures (list))
(define
mod-fed-test!
(fn
(name got expected)
(begin
(set! mod-fed-count (+ mod-fed-count 1))
(if
(= got expected)
(set! mod-fed-pass (+ mod-fed-pass 1))
(begin
(set! mod-fed-fail (+ mod-fed-fail 1))
(append!
mod-fed-failures
(str name "\n expected: " expected "\n got: " got)))))))
(mod/reset!)
(mod/fed-reset!)
;; ── trust model (advisory by default) ──
(mod-fed-test! "trust initially false" (mod/trusted? "peerA" :mod) false)
(mod/grant-trust "peerA" :mod)
(mod-fed-test! "trust after grant" (mod/trusted? "peerA" :mod) true)
(mod-fed-test! "trust wrong scope" (mod/trusted? "peerA" :other) false)
(mod-fed-test! "trust other peer" (mod/trusted? "peerB" :mod) false)
(mod/revoke-trust "peerA" :mod)
(mod-fed-test! "trust after revoke" (mod/trusted? "peerA" :mod) false)
;; ── cross-instance reports ──
(define
mod-fed-fr
(mod/fed-receive-report "peerB" "alice" "bob" "this is spam"))
(mod-fed-test! "fed report assigned id r1" (mod/report-id mod-fed-fr) "r1")
(mod-fed-test! "fed report origin is peer" (mod/report-origin "r1") "peerB")
(define mod-fed-local (mod/report "carol" "dave" "fine post"))
(mod-fed-test!
"local report origin is local"
(mod/report-origin (mod/report-id mod-fed-local))
"local")
(mod-fed-test!
"engine decides fed report (spam → hide)"
(get
(mod/decide-report mod-fed-fr (list mod-fed-fr) mod/default-rules)
:action)
"hide")
;; ── decision sharing (outbox) ──
(define mod-fed-dec {:action "hide" :rule "spam-hide" :report-id "r1"})
(define
mod-fed-shared
(mod/fed-share-decision mod-fed-dec (list "peerB" "peerC")))
(mod-fed-test! "share returns notified peers" (len mod-fed-shared) 2)
(mod-fed-test! "outbox has two messages" (len (mod/fed-outbox)) 2)
(mod-fed-test!
"outbox message type decision"
(get (first (mod/fed-outbox)) :type)
"decision")
(mod-fed-test!
"outbox message addressed to peer"
(get (first (mod/fed-outbox)) :to)
"peerB")
;; ── receiving a peer decision: advisory unless trusted ──
(define mod-fed-untrusted (mod/fed-receive-decision "peerZ" {:action "remove" :rule "reviewer-remove" :report-id "rx"}))
(mod-fed-test!
"untrusted decision not applied"
(get mod-fed-untrusted :applied)
false)
(mod-fed-test!
"untrusted decision advisory"
(get mod-fed-untrusted :advisory)
true)
(mod-fed-test!
"untrusted decision absent from applied log"
(mod/fed-applied-action "rx")
nil)
(mod-fed-test!
"advisory log records suggestion"
(len mod/*fed-advisory*)
1)
(mod/grant-trust "peerT" :mod)
(define mod-fed-trusted (mod/fed-receive-decision "peerT" {:action "hide" :rule "spam-hide" :report-id "ry"}))
(mod-fed-test! "trusted decision applied" (get mod-fed-trusted :applied) true)
(mod-fed-test!
"trusted decision binds locally"
(get (mod/fed-applied-action "ry") :action)
"hide")
;; ── revocation ──
(mod-fed-test!
"applied action not yet revoked"
(get (mod/fed-applied-action "ry") :revoked)
false)
(mod/fed-revoke! "ry" "manual")
(mod-fed-test!
"revoke marks applied action revoked"
(get (mod/fed-applied-action "ry") :revoked)
true)
(mod-fed-test!
"revoke emits a revocation message"
(mod/any? (fn (m) (= (get m :type) "revocation")) (mod/fed-outbox))
true)
;; revoke-if-invalidated: proof still holds → no revocation
(define mod-fed-spam-r (mod/mk-report "rs" "a" "b" "this is spam"))
(define
mod-fed-spam-d
(mod/decide-report mod-fed-spam-r (list mod-fed-spam-r) mod/default-rules))
(mod-fed-test! "spam decision is hide" (get mod-fed-spam-d :action) "hide")
(define
mod-fed-rev-same
(mod/fed-revoke-if-invalidated
mod-fed-spam-r
mod-fed-spam-d
(list mod-fed-spam-r)
mod/default-rules))
(mod-fed-test!
"valid proof → not revoked"
(get mod-fed-rev-same :revoked)
false)
;; exoneration invalidates the proof → revocation
(define
mod-fed-exon-r
(mod/attach-evidence mod-fed-spam-r (mod/mk-evidence "exonerated" "mod")))
(define
mod-fed-rev-inv
(mod/fed-revoke-if-invalidated
mod-fed-exon-r
mod-fed-spam-d
(list mod-fed-exon-r)
mod/default-rules))
(mod-fed-test!
"invalidated proof → revoked"
(get mod-fed-rev-inv :revoked)
true)
(mod-fed-test!
"re-decision after exoneration is keep"
(get (get mod-fed-rev-inv :decision) :action)
"keep")
(define mod-fed-tests-run! (fn () {:failures mod-fed-failures :total mod-fed-count :passed mod-fed-pass :failed mod-fed-fail}))

86
lib/mod/tests/link.sx Normal file
View File

@@ -0,0 +1,86 @@
;; lib/mod/tests/link.sx — Ext 4: report linking + dedup.
(define mod-lnk-count 0)
(define mod-lnk-pass 0)
(define mod-lnk-fail 0)
(define mod-lnk-failures (list))
(define
mod-lnk-test!
(fn
(name got expected)
(begin
(set! mod-lnk-count (+ mod-lnk-count 1))
(if
(= got expected)
(set! mod-lnk-pass (+ mod-lnk-pass 1))
(begin
(set! mod-lnk-fail (+ mod-lnk-fail 1))
(append!
mod-lnk-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── link-key + dedup ──
(define mod-lnk-a (mod/mk-report "r1" "alice" "bob" "this is spam"))
(define mod-lnk-a2 (mod/mk-report "r2" "alice" "bob" "THIS IS SPAM"))
(define mod-lnk-b (mod/mk-report "r3" "carol" "bob" "abuse"))
(define mod-lnk-c (mod/mk-report "r4" "alice" "eve" "this is spam"))
(mod-lnk-test!
"identical reports share a link key (case-insensitive reason)"
(= (mod/link-key mod-lnk-a) (mod/link-key mod-lnk-a2))
true)
(mod-lnk-test!
"different reporter → different key"
(= (mod/link-key mod-lnk-a) (mod/link-key mod-lnk-b))
false)
(mod-lnk-test!
"different subject → different key"
(= (mod/link-key mod-lnk-a) (mod/link-key mod-lnk-c))
false)
(define mod-lnk-set (list mod-lnk-a mod-lnk-a2 mod-lnk-b mod-lnk-c))
(mod-lnk-test!
"dedup collapses identical reports"
(len (mod/dedup-reports mod-lnk-set))
3)
(mod-lnk-test!
"duplicate-count counts collapsed"
(mod/duplicate-count mod-lnk-set)
1)
(mod-lnk-test!
"dedup of all-distinct keeps all"
(len (mod/dedup-reports (list mod-lnk-a mod-lnk-b mod-lnk-c)))
3)
;; ── Prolog-backed relational linking ──
(mod-lnk-test!
"related-ids finds all reports about subject"
(len (mod/related-ids "bob" mod-lnk-set))
3)
(mod-lnk-test!
"related-ids returns the ids"
(mod/related-ids "eve" mod-lnk-set)
(list "r4"))
(mod-lnk-test!
"related-ids empty for unknown subject"
(mod/related-ids "nobody" mod-lnk-set)
(list))
;; reporters: bob reported by alice (x2) + carol → 3 raw, 2 distinct
(mod-lnk-test!
"reporters-of counts all reports"
(len (mod/reporters-of "bob" mod-lnk-set))
3)
(mod-lnk-test!
"distinct reporters-of dedups reporters"
(len (mod/distinct-reporters-of "bob" mod-lnk-set))
2)
(mod-lnk-test!
"distinct utility removes dups"
(mod/distinct (list "a" "b" "a" "c" "b"))
(list "a" "b" "c"))
(define mod-link-tests-run! (fn () {:failures mod-lnk-failures :total mod-lnk-count :passed mod-lnk-pass :failed mod-lnk-fail}))

122
lib/mod/tests/lint.sx Normal file
View File

@@ -0,0 +1,122 @@
;; lib/mod/tests/lint.sx — Ext 5: policy rule-set static analysis.
(define mod-lint-count 0)
(define mod-lint-pass 0)
(define mod-lint-fail 0)
(define mod-lint-failures (list))
(define
mod-lint-test!
(fn
(name got expected)
(begin
(set! mod-lint-count (+ mod-lint-count 1))
(if
(= got expected)
(set! mod-lint-pass (+ mod-lint-pass 1))
(begin
(set! mod-lint-fail (+ mod-lint-fail 1))
(append!
mod-lint-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── the default rule set is well-formed ──
(mod-lint-test!
"default rules: no unreachable"
(mod/unreachable-rules mod/default-rules)
(list))
(mod-lint-test!
"default rules: has catch-all"
(mod/has-catchall? mod/default-rules)
true)
(mod-lint-test!
"default rules: no duplicate names"
(mod/duplicate-rule-names mod/default-rules)
(list))
(mod-lint-test!
"default rules: well-formed"
(mod/rules-ok? mod/default-rules)
true)
;; ── unreachable detection ──
(define
mod-lint-shadowed
(list
(mod/mk-rule "spam-hide" :hide (list (list :classification "spam")))
(mod/mk-rule "catch-all" :keep (list))
(mod/mk-rule
"abuse-remove"
:remove (list (list :classification "abuse")))
(mod/mk-rule
"repeated"
:escalate (list (list :count-at-least 3)))))
(mod-lint-test!
"rules after catch-all are unreachable"
(mod/unreachable-rules mod-lint-shadowed)
(list "abuse-remove" "repeated"))
(mod-lint-test!
"shadowed rule set is not ok"
(mod/rules-ok? mod-lint-shadowed)
false)
;; ── missing catch-all ──
(define
mod-lint-nocatch
(list
(mod/mk-rule "spam-hide" :hide (list (list :classification "spam")))
(mod/mk-rule
"abuse-remove"
:remove (list (list :classification "abuse")))))
(mod-lint-test!
"no catch-all detected"
(mod/has-catchall? mod-lint-nocatch)
false)
(mod-lint-test!
"no unreachable when no catch-all"
(mod/unreachable-rules mod-lint-nocatch)
(list))
(mod-lint-test!
"no-catch-all rule set is not ok"
(mod/rules-ok? mod-lint-nocatch)
false)
;; ── duplicate names ──
(define
mod-lint-dups
(list
(mod/mk-rule "x" :hide (list (list :classification "spam")))
(mod/mk-rule "x" :remove (list (list :classification "abuse")))
(mod/mk-rule "default" :keep (list))))
(mod-lint-test!
"duplicate names detected"
(mod/duplicate-rule-names mod-lint-dups)
(list "x"))
(mod-lint-test!
"duplicate-name rule set is not ok"
(mod/rules-ok? mod-lint-dups)
false)
;; ── helpers ──
(mod-lint-test!
"rule-unconditional? true for empty when"
(mod/rule-unconditional? (mod/mk-rule "d" :keep (list)))
true)
(mod-lint-test!
"rule-unconditional? false with conditions"
(mod/rule-unconditional?
(mod/mk-rule "s" :hide (list (list :classification "spam"))))
false)
(mod-lint-test!
"count-eq counts occurrences"
(mod/count-eq "a" (list "a" "b" "a"))
2)
(define mod-lint-tests-run! (fn () {:failures mod-lint-failures :total mod-lint-count :passed mod-lint-pass :failed mod-lint-fail}))

115
lib/mod/tests/offenders.sx Normal file
View File

@@ -0,0 +1,115 @@
;; lib/mod/tests/offenders.sx — Ext 7: repeat-offender escalation.
(define mod-off-count 0)
(define mod-off-pass 0)
(define mod-off-fail 0)
(define mod-off-failures (list))
(define
mod-off-test!
(fn
(name got expected)
(begin
(set! mod-off-count (+ mod-off-count 1))
(if
(= got expected)
(set! mod-off-pass (+ mod-off-pass 1))
(begin
(set! mod-off-fail (+ mod-off-fail 1))
(append!
mod-off-failures
(str name "\n expected: " expected "\n got: " got)))))))
;; ── sanction? predicate ──
(mod-off-test! "hide is a sanction" (mod/sanction? "hide") true)
(mod-off-test! "remove is a sanction" (mod/sanction? "remove") true)
(mod-off-test! "ban is a sanction" (mod/sanction? "ban") true)
(mod-off-test! "keep is not a sanction" (mod/sanction? "keep") false)
(mod-off-test! "escalate is not a sanction" (mod/sanction? "escalate") false)
;; ── repeat-offender escalation over the audit log ──
(mod/reset!)
(mod/report "u1" "spammer" "this is spam")
(mod/report "u2" "spammer" "buy now offer")
(mod/report "u3" "spammer" "click here free money")
(mod/report "u4" "innocent" "fine post")
(mod-off-test!
"no sanctions before any decision"
(mod/subject-sanctions "spammer")
0)
(define mod-off-d1 (mod/decide-escalating "r1" 2))
(mod-off-test!
"first spam → hide (0 priors)"
(get mod-off-d1 :action)
"hide")
(mod-off-test!
"one sanction recorded"
(mod/subject-sanctions "spammer")
1)
(define mod-off-d2 (mod/decide-escalating "r2" 2))
(mod-off-test!
"second spam → hide (1 prior, below k=2)"
(get mod-off-d2 :action)
"hide")
(mod-off-test!
"two sanctions recorded"
(mod/subject-sanctions "spammer")
2)
(define mod-off-d3 (mod/decide-escalating "r3" 2))
(mod-off-test!
"third spam → ban (2 priors ≥ k)"
(get mod-off-d3 :action)
"ban")
(mod-off-test!
"ban decision names repeat-offender rule"
(get mod-off-d3 :rule)
"repeat-offender-ban")
(mod-off-test!
"ban proof records prior sanction count"
(get (get mod-off-d3 :proof) :prior-sanctions)
2)
;; ── different subjects accumulate independently ──
(define mod-off-d4 (mod/decide-escalating "r4" 2))
(mod-off-test!
"innocent keep → not escalated"
(get mod-off-d4 :action)
"keep")
(mod-off-test!
"innocent has no sanctions"
(mod/subject-sanctions "innocent")
0)
(mod-off-test!
"repeat-offender? true for spammer at k=2"
(mod/repeat-offender? "spammer" 2)
true)
(mod-off-test!
"repeat-offender? false for innocent at k=1"
(mod/repeat-offender? "innocent" 1)
false)
;; ── non-sanction decisions are never upgraded to ban ──
;; r5 is a clean post, but it is the 4th report about "spammer", so the
;; repeated-report rule escalates it. escalate is not a sanction, so it passes
;; through decide-escalating unchanged (never becomes :ban).
(mod/report "u5" "spammer" "a perfectly fine post")
(define mod-off-d5 (mod/decide-escalating "r5" 1))
(mod-off-test!
"non-sanction (escalate) decision is not upgraded to ban"
(get mod-off-d5 :action)
"escalate")
(mod-off-test!
"decide-escalating unknown id → nil"
(mod/decide-escalating "r99" 2)
nil)
(define mod-offenders-tests-run! (fn () {:failures mod-off-failures :total mod-off-count :passed mod-off-pass :failed mod-off-fail}))

112
lib/mod/tests/pipeline.sx Normal file
View File

@@ -0,0 +1,112 @@
;; lib/mod/tests/pipeline.sx — Ext 19: end-to-end triage orchestration.
(define mod-pp-count 0)
(define mod-pp-pass 0)
(define mod-pp-fail 0)
(define mod-pp-failures (list))
(define
mod-pp-test!
(fn
(name got expected)
(begin
(set! mod-pp-count (+ mod-pp-count 1))
(if
(= got expected)
(set! mod-pp-pass (+ mod-pp-pass 1))
(begin
(set! mod-pp-fail (+ mod-pp-fail 1))
(append!
mod-pp-failures
(str name "\n expected: " expected "\n got: " got)))))))
(mod/policies-reset!)
(mod/register-policy!
"market"
(mod/ruleset
(mod/defrule "market-spam-remove" :remove (list :classification "spam"))
(mod/defrule "default-keep" :keep)))
;; ── spam in the market domain: full bundle ──
(define mod-pp-spam (mod/mk-report "r1" "u" "bob" "this is spam"))
(define
mod-pp
(mod/triage-pipeline "market" mod-pp-spam (list mod-pp-spam) "inst.example"))
(mod-pp-test!
"pipeline action (market policy → remove)"
(mod/pipeline-action mod-pp)
"remove")
(mod-pp-test! "pipeline rule" (get mod-pp :rule) "market-spam-remove")
(mod-pp-test!
"pipeline explanation mentions the action"
(mod/str-contains? (get mod-pp :explanation) "remove")
true)
(mod-pp-test!
"pipeline activity is Delete (remove)"
(get (mod/pipeline-activity mod-pp) :type)
"Delete")
(mod-pp-test!
"pipeline activity object is the report"
(get (mod/pipeline-activity mod-pp) :object)
"r1")
(mod-pp-test!
"pipeline wire round-trips to the same action"
(get (mod/wire->decision (mod/pipeline-wire mod-pp)) :action)
"remove")
;; ── same report, blog domain (default) → hide, Flag ──
(define
mod-pp-blog
(mod/triage-pipeline "blog" mod-pp-spam (list mod-pp-spam) "inst.example"))
(mod-pp-test!
"blog default policy → hide"
(mod/pipeline-action mod-pp-blog)
"hide")
(mod-pp-test!
"blog activity is Flag"
(get (mod/pipeline-activity mod-pp-blog) :type)
"Flag")
;; ── clean report: keep, no activity, explanation says (none) ──
(define mod-pp-clean (mod/mk-report "r2" "u" "eve" "a fine post"))
(define
mod-pp-k
(mod/triage-pipeline
"market"
mod-pp-clean
(list mod-pp-clean)
"inst.example"))
(mod-pp-test! "clean → keep" (mod/pipeline-action mod-pp-k) "keep")
(mod-pp-test! "keep → no activity" (mod/pipeline-activity mod-pp-k) nil)
(mod-pp-test!
"keep explanation says no evidence"
(mod/str-contains? (get mod-pp-k :explanation) "Evidence: (none)")
true)
(mod-pp-test!
"keep wire still round-trips"
(get (mod/wire->decision (mod/pipeline-wire mod-pp-k)) :rule)
"default-keep")
;; ── federated handoff: market decision crosses to a peer, trust-gated ──
(mod/fed-reset!)
(define mod-pp-peer-dec (mod/wire->decision (mod/pipeline-wire mod-pp)))
(mod-pp-test!
"untrusted peer: market decision is advisory"
(get (mod/fed-receive-decision "peerX" mod-pp-peer-dec) :applied)
false)
(mod/grant-trust "peerY" :mod)
(mod-pp-test!
"trusted peer: market decision applies"
(get (mod/fed-receive-decision "peerY" mod-pp-peer-dec) :applied)
true)
(mod-pp-test!
"applied action is remove"
(get (mod/fed-applied-action "r1") :action)
"remove")
(define mod-pipeline-tests-run! (fn () {:failures mod-pp-failures :total mod-pp-count :passed mod-pp-pass :failed mod-pp-fail}))

112
lib/mod/tests/policies.sx Normal file
View File

@@ -0,0 +1,112 @@
;; lib/mod/tests/policies.sx — Ext 17: per-domain policy registry.
(define mod-pol-count 0)
(define mod-pol-pass 0)
(define mod-pol-fail 0)
(define mod-pol-failures (list))
(define
mod-pol-test!
(fn
(name got expected)
(begin
(set! mod-pol-count (+ mod-pol-count 1))
(if
(= got expected)
(set! mod-pol-pass (+ mod-pol-pass 1))
(begin
(set! mod-pol-fail (+ mod-pol-fail 1))
(append!
mod-pol-failures
(str name "\n expected: " expected "\n got: " got)))))))
(mod/policies-reset!)
;; market is strict: spam is removed outright, not just hidden
(define
mod-pol-market-rules
(list
(mod/mk-rule
"market-spam-remove"
:remove (list (list :classification "spam")))
(mod/mk-rule "default-keep" :keep (list))))
(mod-pol-test!
"unregistered domain falls back to default"
(mod/policy-registered? "market")
false)
(mod/register-policy! "market" mod-pol-market-rules)
(mod-pol-test!
"domain registered after register!"
(mod/policy-registered? "market")
true)
(define mod-pol-spam (mod/mk-report "r1" "a" "b" "this is spam"))
;; ── same report, different domain → different action ──
(mod-pol-test!
"market policy removes spam"
(get (mod/decide-in "market" mod-pol-spam (list mod-pol-spam)) :action)
"remove")
(mod-pol-test!
"market decision uses market rule"
(get (mod/decide-in "market" mod-pol-spam (list mod-pol-spam)) :rule)
"market-spam-remove")
(mod-pol-test!
"blog (unregistered) uses default → hide"
(get (mod/decide-in "blog" mod-pol-spam (list mod-pol-spam)) :action)
"hide")
(mod-pol-test!
"blog decision uses default rule"
(get (mod/decide-in "blog" mod-pol-spam (list mod-pol-spam)) :rule)
"spam-hide")
;; ── policy-for resolution ──
(mod-pol-test!
"policy-for market returns market rules"
(mod/policy-for "market")
mod-pol-market-rules)
(mod-pol-test!
"policy-for unknown returns default"
(mod/policy-for "events")
mod/default-rules)
(mod-pol-test!
"registered-domains lists market"
(mod/registered-domains)
(list "market"))
;; ── a second domain ──
(define
mod-pol-events-rules
(list (mod/mk-rule "events-keep-all" :keep (list))))
(mod/register-policy! "events" mod-pol-events-rules)
(mod-pol-test!
"events policy keeps everything (even spam)"
(get (mod/decide-in "events" mod-pol-spam (list mod-pol-spam)) :action)
"keep")
(mod-pol-test!
"two domains registered"
(len (mod/registered-domains))
2)
(mod-pol-test!
"market still removes after second registration"
(get (mod/decide-in "market" mod-pol-spam (list mod-pol-spam)) :action)
"remove")
;; ── clean report is keep everywhere ──
(define mod-pol-clean (mod/mk-report "r2" "a" "b" "a fine post"))
(mod-pol-test!
"clean report keep in market"
(get (mod/decide-in "market" mod-pol-clean (list mod-pol-clean)) :action)
"keep")
(mod-pol-test!
"clean report keep in blog"
(get (mod/decide-in "blog" mod-pol-clean (list mod-pol-clean)) :action)
"keep")
(define mod-policies-tests-run! (fn () {:failures mod-pol-failures :total mod-pol-count :passed mod-pol-pass :failed mod-pol-fail}))

Some files were not shown because too many files have changed in this diff Show More