Two fixes:
1. proactive_curiosity() was calling engram_activate_json with multi-word phrases
("memory knowledge context"). engram_activate finds seeds via istr_contains
(substring match), so the phrase had to appear verbatim in a node's content.
Almost no node contains the exact string "memory knowledge context", so only
0-2 nodes activated per curiosity scan. Fixed by activating each word separately:
"memory", "knowledge", "context" → 3 independent activate calls → hundreds of
nodes promoted to WM per cycle.
2. dist/neuron.c called http_serve() (blocking accept loop) which made awareness_run()
unreachable. soul.el correctly specifies http_serve_async but elc silently drops
unknown builtins, leaving blocking http_serve in the compiled C. Patched neuron.c
to call http_serve_async directly — HTTP server runs in a background pthread,
awareness_run() runs on the main thread as intended.
EL compiles any variable named 'seed' to EL_NULL at call sites (likely
conflicts with BFS seed node terminology in the runtime builtins). Rename to
'curiosity_seed' throughout proactive_curiosity(). Also note this as a known
EL reserved-name hazard alongside the inline if-else string expression bug.
1. perceive() guard — gate on engram_search_json before running activation.
engram_activate_json with no matching seeds cleared all WM weights every
second during idle operation, destroying context built by MCP-layer calls.
The search-based guard is a no-WM-side-effect pre-check.
2. emit_heartbeat() pulse field — replace broken if-else string default with
int_to_str(pulse_count()). EL codegen initialises inline if-else result
slots to 0, producing "pulse":, (invalid JSON) when the true branch fires.
3. proactive_curiosity() — new function that activates a rotating 4-domain seed
every beat_interval/2 idle ticks to build working memory between heartbeats.
Seeds rotate on wall-clock minute cycle to avoid single-topic WM dominance.
Seed selection uses imperative let-rebinding (not inline if-else) to avoid
the same EL codegen empty-string bug.
Ollama availability is a silent failure mode: when the embedding service
is down, semantic seed injection falls back to lexical-only activation with
no signal in the ISE stream. Add embed_ok field (0/1) to every heartbeat
by probing http://localhost:11434 — makes Ollama health visible without
a separate monitoring path.
state_get() returns "" for unset keys. Both soul.pulse and soul_boot_count
could be empty on first heartbeat cycle, producing invalid JSON like
{"event":"heartbeat","pulse":,"boot":,...}. Add defensive guards:
if str_eq(raw, "") { "0" } else { raw } for both fields.
Rebuilds soul daemon binary to pick up tier-based temporal decay rates
implemented in el_runtime.c. No source changes to awareness.el or soul.el —
pure rebuild to stay in sync with Engram runtime.
Heartbeat ISEs now include wm_active: number of nodes currently in
working memory. Makes ISEs observable enough to diagnose activation
health without a separate query.
Heartbeat ISEs previously emitted only {event, pulse, boot, ts} —
sparse enough to be nearly useless for observability. Now they include
node_count, edge_count (from engram_node_count/edge_count builtins),
and the current idle cycle count. This gives each heartbeat a snapshot
of graph growth over time and rhythm health without adding any overhead.
Routes a new event_type "chat_as_soul" through dharma/recv. The Studio
preassembles the system_prompt + transcript and dispatches per-speaker;
the soul-binary just performs the LLM call as the requested speaker_slug.
No engram_compile here — each soul has its own engram (88xx) and the
Studio queries it before composing the prompt.
Also: track the previously-untracked split source modules (chat, routes,
memory, awareness, studio) and add build.sh so the binary can be rebuilt
without the studio’s concat trick. elb resolves the import graph and
emits one .c per .el; we link them together with cc. dist/soul-el now
points at dist/neuron via symlink (matching the launchctl plist).