Amr Gharbeia
da160b71e3
Some checks failed
Deploy (Gitea) / deploy (push) Failing after 2s
Extract non-core fragments using self-repair criterion:
- core-context -> symbolic-awareness (224 lines, fboundp guards in think())
- heartbeat generation -> symbolic-events (renamed events-start-heartbeat)
Rename 23 files for clarity and new naming scheme:
- 6 core: core-package, core-transport, core-pipeline,
core-perceive, core-reason, core-act
- 13 system: symbolic-*, neuro-*, embedding-*, channel-shell
- 4 gateway: channel-cli, channel-tui-*, channel-tui-state
Utility relocations:
- markdown-strip -> programming-markdown
- plist-keywords-normalize -> programming-lisp
- cognitive-tool-prompt -> programming-tools
- VAULT-MEMORY -> security-vault
- Merge *backend-registry* into *probabilistic-backends*
Split gateway-messaging into channel-telegram/channel-signal/
channel-discord/channel-slack (4 independent skills)
Delete dead system-model.lisp (16-line wrapper)
Document self-repair criterion in DESIGN_DECISIONS
Version bump: 0.4.3 -> 0.5.0
4.0 KiB
4.0 KiB
SKILL: Homoiconic Memory (org-skill-homoiconic-memory.org)
Overview
Because Lisp is homoiconic (code is data), memory objects can be read as executable forms. This skill provides the bridge between the org-object store and live Lisp evaluation — it can serialize an org-object into an s-expression, evaluate it to reconstruct state, and store the result back as a new object. This is the foundation of the agent's ability to save, restore, and inspect its own cognitive state at runtime.
Implementation
Memory Inspection
;; REPL-VERIFIED: 2026-05-03T13:00:00
(in-package :passepartout)
(defun memory-inspect (&key (type-filter nil) (todo-filter nil) (limit 10))
"Returns a structured report of memory state.
Optional filters: TYPE-FILTER (keyword), TODO-FILTER (string).
Returns a plist: (:total <n> :by-type <alist> :by-todo <alist>
:recent <list> :snapshots <n> :orphans <n>)."
(let* ((store (if (boundp '*memory-store*)
(symbol-value '*memory-store*)
(return-from memory-inspect
(list :total 0 :reason "Memory store not available"))))
(total 0)
(type-counts (make-hash-table :test 'eq))
(todo-counts (make-hash-table :test 'equal))
(recent nil)
(all-ids (make-hash-table :test 'equal))
(orphans 0))
(maphash (lambda (id obj)
(setf (gethash id all-ids) t)
(let ((obj-type (memory-object-type obj))
(attrs (memory-object-attributes obj))
(v (memory-object-version obj)))
(unless (and type-filter (not (eq obj-type type-filter)))
(let ((todo (getf attrs :TODO-STATE)))
(when (and todo-filter
(not (string-equal todo todo-filter)))
(return nil)))
(incf total)
(incf (gethash obj-type type-counts 0))
(let ((todo (getf attrs :TODO-STATE)))
(when todo
(incf (gethash todo todo-counts 0))))
(push (list :id id
:type t
:todo (getf attrs :TODO-STATE)
:title (getf attrs :TITLE)
:version v)
recent))))
store)
;; Sort recent by version desc and take LIMIT
(setf recent (subseq (sort recent #'>
:key (lambda (r) (or (getf r :version) 0)))
0 (min limit (length recent))))
;; Count orphans
(maphash (lambda (id obj)
(let ((parent (memory-object-parent-id obj)))
(when (and parent (not (gethash parent all-ids)))
(incf orphans))))
store)
;; Build output
(let ((types (loop for k being the hash-keys of type-counts
using (hash-value v)
collect (cons k v)))
(todos (loop for k being the hash-keys of todo-counts
using (hash-value v)
collect (cons k v)))
(snapshots (if (boundp '*memory-snapshots*)
(length (symbol-value '*memory-snapshots*))
0)))
(list :total total
:by-type (sort types #'> :key #'cdr)
:by-todo (sort todos #'> :key #'cdr)
:recent recent
:snapshots snapshots
:orphans orphans))))Skill Registration
(defskill :passepartout-system-memory
:priority 100
:trigger (lambda (ctx) (eq (getf (getf ctx :payload) :sensor) :introspection))
:deterministic (lambda (action ctx)
(declare (ignore action ctx))
(ignore-errors (memory-inspect))
nil))