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base: coop:loops/flow
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coop:main coop:loops/events coop:loops/content coop:loops/fed-sx-m2 coop:loops/artdag coop:architecture coop:loops/maude coop:loops/radar coop:loops/dream coop:loops/fed-prims coop:loops/relations coop:loops/commerce coop:loops/conformance coop:loops/mod coop:loops/identity coop:loops/search coop:loops/host-persist coop:loops/acl 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/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
..
compare: coop:loops/feed
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coop:loops/events coop:loops/content coop:loops/fed-sx-m2 coop:loops/artdag coop:architecture coop:loops/maude coop:loops/radar coop:loops/dream coop:loops/fed-prims coop:loops/relations coop:loops/commerce coop:loops/conformance coop:loops/mod coop:loops/identity coop:loops/search coop:loops/host-persist coop:loops/acl 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/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

12 Commits
loops/flow ... loops/feed

Author SHA1 Message Date
giles
9c4a5d1913 feed: conversation threading — :reply-to transitive closure (thread/replies/thread-size) + 12 tests
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 2026-06-06 17:00:10 +00:00
giles
f91ac82434 feed: pagination — offset/limit + cursor-by-at (before/after/page-before/next-cursor) + 14 tests
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 2026-06-06 16:58:36 +00:00
giles
5136249ae5 feed: viewer mute/block — mute actors/tags/objects + apply-prefs bag + 9 tests
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 2026-06-06 16:57:05 +00:00
giles
6fc61147a8 feed: trending objects/actors by recent activity window, deterministic tiebreak + 11 tests
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 2026-06-06 16:55:55 +00:00
giles
0122c41ecb feed: verb-aware smart dedupe — reactions collapse cross-actor, posts stay per-actor + 9 tests
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 2026-06-06 16:54:21 +00:00
giles
58656b03e4 feed: feed/home capstone — fanout∘inbox∘dedupe∘ACL∘rank∘take as one line + 6 tests
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 2026-06-06 16:53:15 +00:00
giles
b0feb7b01b feed: notification feed — per-recipient inbox, verb filter, (verb,object) digest + 8 tests
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 2026-06-06 16:51:53 +00:00
giles
a979297959 feed: TF-IDF content ranking over :tags — tag-df/idf, tfidf-score, by-relevance + 15 tests
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 2026-06-06 16:50:36 +00:00
giles
37226cf6eb feed: Phase 4 visibility + federation — per-viewer ACL, fanout partition, inbound/backfill/ingest, e2e feed/timeline + 22 tests
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 2026-06-06 16:48:27 +00:00
giles
50a7f31a39 feed: Phase 3 aggregation + ranking — group-by, recency/velocity/engagement scorers, composite, top-N via stable grade-down + 24 tests
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 2026-06-06 16:44:04 +00:00
giles
915f51b2b6 feed: Phase 2 fanout via outer product — activities ∘.× audience, flatten, edge-guard, dedupe + 29 tests
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 2026-06-06 16:40:34 +00:00
giles
e7501bdf8f feed: Phase 1 stream model — normalize, APL-backed filter/sort/take/reverse, post/all api + 30 tests
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53 changed files with 2385 additions and 1896 deletions
Expand all files Collapse all files

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

49
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; Follow-up — conversation threading via :reply-to closure. (feed-test name got expected)
(define
S
(feed/stream
(list
(feed/normalize {:actor "a" :object "root" :at 1})
(feed/normalize {:actor "b" :object "r1" :at 2 :verb "reply" :reply-to "root"})
(feed/normalize {:actor "c" :object "r2" :at 3 :verb "reply" :reply-to "root"})
(feed/normalize {:actor "d" :object "r3" :at 4 :verb "reply" :reply-to "r1"})
(feed/normalize {:actor "e" :object "x" :at 5}))))
; ---------- direct replies ----------
(feed-test "direct replies to root" (feed/reply-count S "root") 2)
(feed-test "direct replies to r1" (feed/reply-count S "r1") 1)
(feed-test "no replies to r3" (feed/reply-count S "r3") 0)
(feed-test
"replies objects to root"
(map (fn (a) (get a :object)) (feed/items (feed/replies S "root")))
(list "r1" "r2"))
; ---------- thread closure ----------
(feed-test
"thread objects root (transitive)"
(feed/thread-objects S "root")
(list "root" "r1" "r2" "r3"))
(feed-test
"thread root chronological"
(map (fn (a) (get a :object)) (feed/items (feed/thread S "root")))
(list "root" "r1" "r2" "r3"))
(feed-test "thread size root" (feed/thread-size S "root") 4)
(feed-test
"thread excludes unrelated x"
(feed/-elem?
"x"
(map (fn (a) (get a :object)) (feed/items (feed/thread S "root"))))
false)
; ---------- sub-thread ----------
(feed-test
"thread from r1 (sub-tree)"
(map (fn (a) (get a :object)) (feed/items (feed/thread S "r1")))
(list "r1" "r3"))
(feed-test "thread size r1" (feed/thread-size S "r1") 2)
(feed-test "leaf thread is itself" (feed/thread-size S "r3") 1)
(feed-test "unrelated thread is itself" (feed/thread-size S "x") 1)

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

59
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; feed/thread — conversation threading. A reply carries :reply-to <parent-object>
; (normalize preserves it). A thread is the transitive closure over :reply-to from
; a root object: root + replies + replies-to-replies, gathered chronologically.
;
; Requires: lib/feed/normalize.sx, lib/feed/stream.sx, lib/feed/fanout.sx
; (feed/-elem?, feed/-distinct).
; direct replies to an object
(define
feed/replies
(fn
(stream object)
(feed/filter stream (fn (a) (equal? (get a :reply-to) object)))))
(define
feed/reply-count
(fn (stream object) (feed/count (feed/replies stream object))))
; iterate f from x until the result stops growing (set-closure fixpoint)
(define
feed/-fixpoint
(fn
(f x)
(let
((nx (f x)))
(if (= (len nx) (len x)) x (feed/-fixpoint f nx)))))
; the set of object-ids in the thread rooted at `root`
(define
feed/thread-objects
(fn
(stream root)
(let
((all (feed/items stream)))
(feed/-fixpoint
(fn
(acc)
(feed/-distinct
(append
acc
(map
(fn (a) (get a :object))
(filter (fn (a) (feed/-elem? (get a :reply-to) acc)) all)))))
(list root)))))
; the full thread as a chronological stream (root + all descendants)
(define
feed/thread
(fn
(stream root)
(let
((objs (feed/thread-objects stream root)))
(feed/sort-by-at
(feed/filter stream (fn (a) (feed/-elem? (get a :object) objs)))))))
; how many activities are in the thread (root counts as 1)
(define
feed/thread-size
(fn (stream root) (feed/count (feed/thread stream root))))

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

141
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# 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
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;; 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
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#!/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
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;; 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
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;; 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)))

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{
"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" }
}

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# 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

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;; 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)))

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;; 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}))

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;; 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}))

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;; 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
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@@ -1,179 +0,0 @@
;; 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
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@@ -1,120 +0,0 @@
;; 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
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@@ -1,106 +0,0 @@
;; 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
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@@ -1,67 +0,0 @@
;; 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
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@@ -1,115 +0,0 @@
;; 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
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@@ -1,73 +0,0 @@
;; 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
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@@ -1,71 +0,0 @@
;; 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
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@@ -1,114 +0,0 @@
;; 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}))

131
plans/feed-on-sx.md
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@@ -14,7 +14,7 @@ APL, ACL visibility filtering via `lib/acl/`, federation via fed-sx.
## Status (rolling) ## Status (rolling)
`bash lib/feed/conformance.sh`**0/0** (not yet started) `bash lib/feed/conformance.sh`**189/189** (Phases 14 + TF-IDF, notifications, home, smart-dedupe, trending, mute, pagination, threading)
## Ground rules ## Ground rules
@@ -59,47 +59,118 @@ lib/feed/api.sx lib/feed/fed.sx
## Phase 1 — Stream model + basic ops ## Phase 1 — Stream model + basic ops
- [ ] `lib/feed/normalize.sx` — activity record schema; coerce arbitrary inputs - [x] `lib/feed/normalize.sx` — activity record schema; coerce arbitrary inputs
- [ ] `lib/feed/stream.sx` — APL vector representation; filter by predicate; sort by - [x] `lib/feed/stream.sx` — APL vector representation; filter by predicate; sort by
`:at`; take N (`↑`); reverse (`⌽`) `:at`; take N (`↑`); reverse (`⌽`)
- [ ] `lib/feed/api.sx``(feed/post activity)`, `(feed/all)` - [x] `lib/feed/api.sx``(feed/post activity)`, `(feed/all)`
- [ ] `lib/feed/tests/basic.sx`15+ cases: post, query, filter, sort - [x] `lib/feed/tests/basic.sx`30 cases: normalize defaults, filter, sort, take, api
- [ ] `lib/feed/scoreboard.{json,md}` - [x] `lib/feed/scoreboard.{json,md}`
- [ ] `lib/feed/conformance.sh` - [x] `lib/feed/conformance.sh`
## Phase 2 — Fanout via outer product ## Phase 2 — Fanout via outer product
- [ ] follower graph: `followers user → vector of user ids` - [x] follower graph: `followers user → vector of user ids` (`feed/follow-graph`,
- [ ] fanout: activities `∘.×` followers → matrix `(activity, follower)` pairs `feed/followers`; graph = `{followee -> (followers)}` dict)
- [ ] flatten to inbox events vector - [x] fanout: activities `∘.×` audience → matrix via `apl-outer feed/-mk-event`
- [ ] dedupe — group by `(actor, verb, object)` collapse to one inbox event per - [x] flatten to inbox events vector (`feed/-flatten` rank-2 → rank-1)
receiver - [x] dedupe — `feed/dedupe-inbox` by `(to, actor, verb, object)`; also
- [ ] `lib/feed/tests/fanout.sx` — 20+ cases: small graph, mutual follow, popular `feed/dedupe-activities` `(actor verb object)` and `feed/dedupe-collapse`
actor (high-fanout), cross-post dedupe `(verb object)` for cross-actor likes
- [x] `lib/feed/tests/fanout.sx` — 29 cases: small graph, mutual follow, star
(high-fanout), empty graph, unfollowed actor, cross-post dedupe
## Phase 3 — Aggregation + ranking ## Phase 3 — Aggregation + ranking
- [ ] group-by — `(actor, day) → count` via key-reduce - [x] group-by — `feed/group-by`/`feed/group-count` key-reduce; `feed/by-actor-day`
- [ ] velocity score — recent activity count over window buckets `(actor, day)` via `feed/day` (string-joined keys)
- [ ] recency score — decay by age - [x] velocity score — `feed/velocity` counts actor's activities in `(at-window, at]`
- [ ] composite rank — weighted sum of components - [x] recency score — `feed/recency` half-life decay `0.5^(age/hl)`
- [ ] top-N per timeline - [x] composite rank — `feed/composite` weighted sum of `(weight scorer)` parts
- [ ] `lib/feed/tests/rank.sx` — 20+ cases: ranking stable on tie, decay shape, - [x] top-N per timeline — `feed/top` = rank then take
per-user weighting - [x] `lib/feed/tests/rank.sx` — 24 cases: decay shape, velocity burst, stable
tie-break, top-N, composite
## Phase 4 — Visibility filter + federation ## Phase 4 — Visibility filter + federation
- [ ] ACL filter — each candidate activity passed through `(acl/permit? viewer :read `lib/acl/` and fed-sx don't exist yet and are out of scope (import `lib/apl/`
activity)` only), so ACL/transport are injected: `permit?`, `remote?`, `send-fn`, `fetch-fn`
- [ ] fed-sx outbound — local `feed/post` fans out to remote followers' inboxes are function parameters. Real acl-sx / fed-sx wire in at the call site unchanged.
- [ ] fed-sx inbound — peer activities arrive at local inbox
- [ ] backfill on subscribe — request peer history, merge into local stream - [x] ACL filter — `feed/visible stream viewer permit?`; default `feed/permit-acl?`
- [ ] `lib/feed/tests/integration.sx` — federated timeline with ACL applied reads `:visible-to` allowlist (+ author-sees-own); per-viewer, never cached
- [x] fed-sx outbound — `feed/federate`/`feed/deliver` fan out then partition
local vs remote inboxes; remote events handed to injected `send-fn`
- [x] fed-sx inbound — `feed/inbound` normalizes + `feed/ingest` dedupes peer
activities into the local stream
- [x] backfill on subscribe — `feed/backfill local fetch-fn peer-id`
- [x] `lib/feed/tests/integration.sx` — 22 cases incl. end-to-end
`feed/timeline` (federated → ACL for viewer → recency rank → top-N)
## Progress log ## Progress log
(loop fills this in) - **Phase 1 done (30/30).** Stream = APL rank-1 array whose ravel holds activity
dicts. `normalize.sx` (record schema + accessors), `stream.sx` (filter via `/`
compress, sort via `⍋` grade-up [stable], take via `↑`, reverse via `⌽`,
by-actor/verb/object/since predicates), `api.sx` (mutable log: post/all/reset!/size).
Substrate: `apl-compress`, `apl-grade-up`, `apl-take`, `apl-reverse`, `make-array`.
Grade-up returns 1-based indices (⎕IO=1), is stable on ties → deterministic sort.
- **Phase 2 done (59/59 total).** `fanout.sx` (graph + `apl-outer` showcase),
`dedupe.sx` (per-key dedupe, first-wins stable). Key APL gotcha: `scalar?` is
true for ANY dict and `disclose` nils a non-array dict, so an apl-outer combiner
MUST `enclose` its event dict — apl-outer discloses it back intact. `apl-unique`
preserves first-occurrence order; dict `keys` order is NOT stable, so
`feed/audience` sorts (else recipient ordering flakes). `apl-compress` needs a
rank-1 array, so the (activity×follower) matrix is flattened to its ravel before
the edge-guard filter.
- **Phase 3 done (83/83 total).** `aggregate.sx` (group-by/count, day buckets) +
`rank.sx` (recency/velocity/engagement scorers, composite, top-N). `sort` is
single-arg ascending only — no comparator — so ranking uses a stable two-pass
`apl-grade-down` (by :at desc, then by score desc) for deterministic tie-breaks.
Dict keys must be strings, so composite group keys are string-joined ("actor#day").
- **Phase 4 done (105/105 total).** `acl.sx` (per-viewer `feed/visible`,
`feed/timeline` capstone) + `fed.sx` (merge/ingest/inbound/backfill/federate/
deliver). ACL/transport are dependency-injected (permit?/remote?/send-fn/fetch-fn)
since lib/acl + fed-sx don't exist. `feed/normalize` now MERGEs defaults over the
raw dict (was projecting to 5 keys) so extra metadata (:visible-to, peer fields)
survives — matches the "flexible bag" principle.
## Blockers ## Roadmap is complete (all 4 phases). Possible follow-ups:
(loop fills this in) - Wire real acl-sx once `lib/acl/` exists (swap injected `permit?`).
- Wire real fed-sx transport (swap `send-fn`/`fetch-fn`).
- [x] TF-IDF over `:tags` for content ranking — `content.sx`: `feed/tag-df`,
`feed/tag-idf` (log N/df), `feed/tfidf-score`, `feed/by-relevance`; 15 tests.
Composes as a scorer with rank.sx. (120/120 total.)
- [x] Notification feed (verb-filtered, per-recipient) — `notify.sx`:
`feed/notifications`, `feed/notify-verbs`, `feed/notify-digest` (collapses
"X, Y liked Z" by (verb,object), sorted-deterministic); 8 tests. (128/128 total.)
- [x] **Capstone** `feed/home` — the whole pipeline as one line: fanout ∘ inbox ∘
dedupe ∘ ACL ∘ rank ∘ take (`home.sx`); 6 tests incl. per-viewer ACL + cross-post
dedupe. (134/134 total.)
- [x] Per-verb dedupe rules (briefing gotcha #3) — `feed/dedupe-smart` /
`feed/smart-key`: reactions (like/follow/boost/...) collapse cross-actor on
(verb,object); posts stay distinct per actor. `feed/collapse-verbs` is
rebindable policy; 9 tests. (143/143 total.)
- [x] Trending — `feed/trending` / `feed/trending-actors`: objects/actors ranked
by activity count in a recency window, count-desc with key-asc tiebreak
(`trending.sx`); 11 tests. (154/154 total.)
- [x] Mute/block — `feed/mute-actors` / `feed/mute-tags` / `feed/mute-objects` /
`feed/apply-prefs`: viewer-controlled per-request filtering (complements ACL's
author-controlled visibility) (`mute.sx`); 9 tests. (163/163 total.)
- [x] Pagination — `feed/page`/`feed/page-count` (offset) + `feed/before`/
`feed/after`/`feed/page-before`/`feed/next-cursor` (cursor by :at, stable under
inserts) (`page.sx`); 14 tests. (177/177 total.)
- [x] Threading — `feed/replies`/`feed/reply-count`/`feed/thread`/
`feed/thread-objects`/`feed/thread-size`: conversation closure over `:reply-to`
(transitive fixpoint), chronological (`thread.sx`); 12 tests. (189/189 total.)
(none)
## Notes for next iteration
- sx-tree MCP tools take `file:` NOT `path:` (CLAUDE.md is stale). Wrong key →
`Yojson Type_error("Expected string, got null")`. Looks like a broken binary, isn't.
- sx_server binary lives in main repo: `/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe`
(worktree has no `_build`). conformance.sh already points there with relative fallback.
- Phase 2 substrate verified available: `apl-outer` (∘.×), `apl-member` (∊),
`apl-unique`, `apl-iota` (1-based).

180
plans/flow-on-sx.md
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@@ -16,7 +16,7 @@ federation extension via fed-sx for remote-node execution.
## Status (rolling) ## Status (rolling)
`bash lib/flow/conformance.sh`**166/166** (Phases 1-8 complete; host ABI + reference driver) `bash lib/flow/conformance.sh`**0/0** (not yet started)
## Ground rules ## Ground rules
@@ -62,167 +62,47 @@ lib/flow/spec.sx lib/flow/runtime.sx lib/flow/store.sx
## Phase 1 — Declarative DAG + sequential execution ## Phase 1 — Declarative DAG + sequential execution
- [x] `lib/flow/spec.sx``defflow` macro, `sequence` combinator - [ ] `lib/flow/spec.sx``defflow` macro, `sequence` combinator
- [x] node = Scheme procedure of one arg (upstream value threaded in); output - [ ] node = Scheme thunk; output threads to next node (data flow)
threads to next node (data flow). A node ignoring its arg is a thunk. - [ ] `parallel` combinator (sequential semantics for now — TRUE parallelism in Phase 3)
- [x] `parallel` combinator (sequential semantics for now — TRUE parallelism in Phase 3) - [ ] runtime executes a flow synchronously, returns final value
- [x] runtime executes a flow synchronously, returns final value - [ ] `lib/flow/api.sx``(flow/start name args)` entry point
- [x] `lib/flow/api.sx``(flow/start flow input)` entry point - [ ] `lib/flow/tests/basic.sx` — 15+ cases: linear sequence, nested sequences,
- [x] `lib/flow/tests/basic.sx` — 18 cases: single nodes, linear/nested sequence, data flow between nodes, parallel-with-join
data flow between nodes, parallel-with-join, publish-shaped flow - [ ] `lib/flow/scoreboard.{json,md}`
- [x] `lib/flow/scoreboard.{json,md}` - [ ] `lib/flow/conformance.sh`
- [x] `lib/flow/conformance.sh`
## Phase 2 — Control flow + error handling ## Phase 2 — Control flow + error handling
- [x] `cond` combinator — predicate selects branch (named `branch`; `cond` is a - [ ] `cond` combinator — predicate selects branch
Scheme special form). `(branch pred then else)` — 6 tests. - [ ] `retry n [backoff]` — re-runs node up to n times on exception
- [x] `retry n`re-runs node up to n attempts on a raised exception; last - [ ] `timeout ms`bounds node execution
exception propagates. Only raised exceptions are retried — `(fail ...)` values - [ ] `try-catch` — exception handler with reified error
pass through. 6 tests. (Backoff deferred: no wall clock in pure SX.) - [ ] error model — exceptions vs explicit `(fail :reason ...)` results
- [x] `timeout budget` — bounds node execution via a **cooperative step budget** - [ ] `lib/flow/tests/control.sx` — 25+ cases: each combinator + composition
(deterministic; no scheduler/clock in pure SX). Nodes opt in via `(tick)`;
`budget` ticks allowed, the next raises `flow-timeout`. Non-ticking nodes are
unbounded; budgets nest. 7 tests.
- [x] `try-catch` — exception handler with reified error: `(try-catch node handler)`
runs node; on raise, calls `(handler error)` and returns its value. 6 tests.
- [x] error model — exceptions vs explicit `(fail reason)` results: `fail`/`failed?`/
`fail-reason` produce/inspect failure values that flow downstream as data
(distinct from raised exceptions caught by retry/try-catch). 6 tests.
- [x] `lib/flow/tests/control.sx` — 31 cases: branch, error model, try-catch,
retry, timeout + compositions
## Phase 3 — Suspend / resume (the showcase) ## Phase 3 — Suspend / resume (the showcase)
- [x] `(suspend tag)` — guest call/cc is ESCAPE-ONLY (re-entry hangs), so resume - [ ] `(suspend reason)``call/cc` captures continuation, returns flow-id to caller
uses **deterministic replay**: suspend escapes to the driver as `(flow-suspended - [ ] `lib/flow/store.sx` — serialize flow state (continuation + open vars)
tag)`; resume re-runs the flow, replaying resolved suspends from a `(tag value)` - [ ] `(flow/resume id value)` — load continuation, inject value, re-enter
log. No live continuation is ever serialized — the log is plain data. - [ ] `(flow/cancel id)` — explicit termination
- [x] `lib/flow/store.sx` — flow store: id→record `(flow input log status payload)`; - [ ] crash recovery — on restart, scan store for paused flows, mark resumable
`flow-drive` runs a flow against a replay log. - [ ] `lib/flow/tests/suspend.sx` — pause-resume scenarios, cancellation, "restart"
- [x] `(flow/resume id value)` — append `(tag value)` to the log, re-drive; raw scenarios (simulated by re-loading store)
result on completion, `(flow-suspended id tag)` on a further suspend.
- [x] `(flow/cancel id)` — mark cancelled; a later resume is rejected (stale replay
cannot wake a cancelled flow).
- [x] crash recovery — `flow-store-export` (procs nulled → plain data),
`flow-store-import!`, `flow-resumable-ids`. Records are name-keyed; resume
re-resolves the proc by name (defflow registers names), so a flow survives a
wiped store. `tests/recovery.sx`, 8 cases (export/wipe/import, resumable scan,
restart-at-every-step, replay-log survival).
- [x] `lib/flow/tests/suspend.sx` — 17 cases: start/resume/cancel, multi-step,
replay determinism, lifecycle guards, suspend-in-branch
- Harness: `flow-run` now reuses one env with a per-test reset (building the full
standard env 66× was too slow) — see `api.sx`.
## Phase 4 — Distributed nodes via fed-sx ## Phase 4 — Distributed nodes via fed-sx
- [x] `(remote-node addr fn)` — execute a node on a federation peer. Transport is - [ ] `(remote-node addr fn args)` — execute node on a federation peer
the fed-sx boundary, MOCKED via a peer registry (`flow-peer-register!`); raises - [ ] failure semantics — retry on different peer, fall through to local
`flow-remote-unreachable` / `flow-remote-no-fn`. Composes with sequence, suspend, - [ ] persistence across instances — flow state replicates via fed-sx
retry. `tests/distributed.sx`, 7 cases. - [ ] handoff — flow started here can resume on a peer if the local instance is down
- [x] failure semantics — `(remote-failover addrs fn local)` tries each peer in - [ ] `lib/flow/tests/distributed.sx` — federated flow scenarios (mock fed-sx in tests)
order, moves to the next on any raised error, and runs the `local` node if every
peer fails. 6 tests.
- [x] persistence across instances — `(flow-replicate-to addr)` copies this
instance's store (the plain-data export) to a peer's replica slot;
`(flow-restore-from addr)` imports it. Same mechanism as crash recovery, across
instances.
- [x] handoff — a flow started here resumes on a peer after the local instance dies:
replicate → wipe local store → restore on peer → `flow/resume`. The replay log
(and thus all resolved suspends) survives the move.
- [x] `lib/flow/tests/distributed.sx` — 19 cases: remote-node, failover,
replication, handoff (including replay-log survival across the move)
## Phase 5 — Operational API + combinator library
The four roadmap phases are complete; this phase rounds out the engine into
something operators and authors actually use. Accumulation, not a rewrite.
- [x] introspection API — `flow/status id`, `flow/result id`, `flow/list`,
`flow/pending` (operator view of what each suspended flow awaits). 12 tests in
`tests/api.sx`.
- [x] store hygiene — `flow/gc` drops terminal (done/cancelled) records keeping
live suspended flows (returns count); `flow/forget id` drops one terminal record
and refuses live flows. Bounds unbounded store growth. 9 tests in `tests/hygiene.sx`.
- [x] `tap` — side-effecting pass-through node (logging/metrics) that returns input
- [x] `recover` — complement to try-catch for the fail-VALUE channel: run node; if it
yields `(fail ...)`, run a recovery node on the reason
- [x] `map-flow` — run a flow per item of a list, join results (sequential)
- [x] `flow-while` / `flow-until` — bounded iteration: re-run body threading the
value while/until pred holds, capped at `max` steps (deterministic bound)
- [x] `lib/flow/tests/api.sx` (12) + `lib/flow/tests/combinators.sx` (17)
## Phase 6 — Railway-oriented composition
Make the `(fail reason)` value channel compose into real validation/ETL pipelines.
- [x] `attempt` — like `sequence`, but short-circuits at the first node that returns
a `(fail ...)` value, returning that failure (the railway track). Pairs with
`recover` for the rejoin.
- [x] `lib/flow/tests/railway.sx` — 10 cases: fail short-circuiting, no-run-after-
failure, recover rejoin, validation pipeline reporting the failing stage
## Phase 8 — Host integration ABI (art-dag / human-in-the-loop)
`suspend` is the seam to the outside world, but a bare tag is an ad-hoc convention.
This phase defines a stable request/response contract a host (an art-dag driver, a
review UI) codes against — so flow can orchestrate art-dag with human decision
points later without reverse-engineering tag shapes. `lib/flow/host.sx`.
- [x] `(request kind payload)` — suspend with a typed `(flow-request kind payload)`
envelope; evaluates to the host's resume value. `await-human`/`await-render`/
`await-effect` sugar.
- [x] `(flow-host-requests)` — the host work queue: `(id kind payload)` for every
suspended flow waiting on a host request; `request?`/`request-kind`/
`request-payload` parse a tag.
- [x] `(flow-drive-host dispatch)` / `(flow-run-host dispatch maxticks)` — reference
host driver: the host supplies only a `(kind payload) -> answer` dispatch fn; the
loop drains pending requests and resumes until quiescent (bounded).
- [x] `lib/flow/tests/host.sx` — 15 cases incl. the art-dag-shaped driver loop
(render → human-review → publish) run both manually and via `flow-run-host`.
- Contract (documented in `host.sx` + README): the host owns IO + persistence; a
flow never does IO, it only `request`s; the host performs the effect and feeds the
result back via resume (logged, so not re-run on recovery). NOT done here (host
side, out of `lib/flow` scope): the real Celery/IPFS bridge and a persistent store
backend — those live in the art-dag integration, coding against this ABI.
## Phase 7 — End-to-end integration
Prove the phases compose: realistic flows exercising attempt + suspend + branch +
remote-node + crash-recovery + handoff + introspection together.
- [x] `lib/flow/tests/integration.sx` — 10 cases: an order-processing flow (validate
→ payment suspend → branch → ledger federation) and an onboarding flow, run through
the full lifecycle including a simulated crash and a peer handoff mid-flow, plus
introspection (`flow/pending`/`status`/`result`) during the flow's life
## Progress log ## Progress log
- **Phase 1 (combinators + sequential runtime).** Flow built as a Scheme prelude (loop fills this in)
loaded onto `scheme-standard-env`: a flow is a Scheme procedure `input -> output`,
so the whole flow runs inside the interpreter (sets up Phase 3 call/cc suspend).
Combinators `flow-node`/`flow-id`/`flow-const`/`sequence`/`parallel`/`defflow` in
`spec.sx`; `flow/start` + SX helpers (`flow-make-env`/`flow-run`) in `api.sx`.
18/18 in `tests/basic.sx`. Substrate constraints found: dotted rest params
`(a . rest)` and named `let` are unsupported in `lib/scheme/eval.sx`, so
combinators use `(lambda args ...)` variadics + top-level recursion. Scheme
strings come back boxed as `{:scm-string "..."}` — unwrap with `(get s :scm-string)`.
- **Phases 2-4.** Control flow (branch/retry/timeout/try-catch + fail-value error
model), then the showcase: durable suspend/resume. Guest call/cc is escape-only
(re-entry hangs), so resume uses **deterministic replay** — re-run the flow,
replaying resolved suspends from a `(tag value)` log; only plain data persists, so
flows survive a wiped store (crash recovery) and a move to another instance
(replication + handoff). Phase 4 models the fed-sx boundary with a mock peer
registry. Timeout is a cooperative step budget (no wall clock in pure SX). Test
harness reuses one env with a per-test reset for speed.
- **Phases 5-7 + docs.** Operational API (introspection, hygiene), combinator
library (tap/recover/map-flow/while/until), railway `attempt`, end-to-end
integration suite, and `lib/flow/README.md` (full API reference + replay-semantics
contract). **151/151 across 10 suites.** Conformance sx_server timeout raised to
540s for the 10-suite run under shared-machine CPU contention.
## Blockers ## Blockers
(none) (loop fills this in)