Styleguides: - agent_memory_dimensions.md: FileItem/ContextPreset line refs (src/models.py:510-559 / 909-937) -> src/project_files.py + src/context_presets.py (moved per module_taxonomy_refactor_20260627). - config_state_owner.md: 'file I/O primitives in src/models.py' -> src/project_manager.py (the config-load/save helpers moved). - python.md §10 NOT-exempt list: '12 per-aggregate types' -> ~19; 'dataclass types in src/models.py' -> per-system files enumeration (mma.py, project_files.py, mcp_tool_specs.py, result_types.py, personas.py, workspace_manager.py, mcp_client.py). - type_aliases.md: type-registry lookup examples updated to the per-system files (src_mma.md, src_project_files.md, etc.); the 'src/models.py: 48 dataclass field types' worked-example line is flagged as historical (pre-refactor state). Harness plan (directive_hotswap_harness_20260627/plan.md): - §17 line refs corrected: 17.1 220-237 -> 247-264; 17.2 239-250 -> 266-277; 17.3 252-272 -> 279-299; 17.4 274-299 -> 301-326; 17.5 301-311 -> 328-338; 17.6 313-323 -> 340-350; 17.7 325-327 -> 352-354; 17.9 336-409 -> 364-443. - §17 master range 216-409 -> 243-473. - §12 175-184 -> 202-211; §13 185-199 -> 212-224; §15 205-215 -> 234-241. - error_handling.md: hard rules 212-242 -> 212-264; boundary types 274-311 -> 284-365. - type_aliases.md: 40-81 -> 13-87 + 89-160 + 284-365 (the alias table + decision pattern 2.5 + boundary/anti-pattern sections).
15 KiB
The 4 Memory Dimensions
Status: Styleguide; codifies the 4 memory dimensions of the Manual Slop conversation data.
Date: 2026-06-12
Cross-refs: conductor/code_styleguides/data_oriented_design.md §9; docs/guide_agent_memory_dimensions.md; conductor/tracks/nagent_review_20260608/nagent_review_v2_3_20260612.md §2.8.
What this is. The conversation data has 4 distinct memory dimensions. Each lives at a different layer; each serves a different purpose. The wrong shape for the wrong layer is a common mistake. This styleguide names the 4, names the boundary between them, and gives the rule for which one to use when.
0. The 4 dimensions (the one-glance table)
| # | Dim | Where it lives | What it stores | How it's edited | How it's queried | SSDL |
|---|---|---|---|---|---|---|
| 1 | Curation | FileItem + ContextPreset + Fuzzy Anchors |
How to render a file in the AI's context window | Structural File Editor; project TOML | Implicit in aggregate.py:run at discussion start |
[Q] |
| 2 | Discussion | app.disc_entries + branching + UISnapshot |
What was said in the conversation | GUI [Edit] mode; [Branch]; undo/redo |
build_markdown renders as prior context |
o==> |
| 3 | RAG | src/rag_engine.py (ChromaDB) |
Semantic fingerprints of indexed files | (opaque vector store) | RAGEngine.search() at LLM call time |
[Q] |
| 4 | Knowledge | ~/.manual_slop/knowledge/*.md + per-file + digest + ledger |
Durable learnings from past sessions | Plain markdown edit | Bounded digest as stable prefix | o==> |
1. Curation memory (per-file, per-discussion, structural)
The shape. Per-file curation config: path, auto_aggregate, force_full, view_mode (full / skeleton / summary / sig / def / agg), ast_signatures, ast_definitions, ast_mask, custom_slices (Fuzzy Anchors). A ContextPreset is a named, persisted set of FileItems. Both persist in the project TOML.
The query model. "When discussion X opens, render file Y per its curation memory." Implicit in aggregate.py:run at discussion start. The user doesn't query the curation memory directly; they configure it.
The right tool. The Structural File Editor (per docs/guide_context_curation.md). AST-aware slices, Fuzzy Anchor slices, view-mode picker. The file's FileItem is the UI surface.
The wrong tool. Storing curation state in disc_entries (it's not conversational). Storing curation state in the RAG index (it's structural, not semantic). Storing curation state in the knowledge digest (it's per-discussion, not durable).
The codepath (SSDL):
[Q:discussion starts]
│
▼
[Q:which ContextPreset is active?]
│
├── preset N ──► [I:load ContextPreset N's FileItems]
│
▼
[loop: each FileItem]
│
├──► [Q:FileItem.view_mode?]
│ │
│ ├── full ──► [I:read full file]
│ ├── skeleton ──► [I:py_get_skeleton / ts_c_get_skeleton]
│ ├── summary ──► [I:run_subagent_summarization]
│ ├── sig ──► [I:py_get_skeleton (signatures only)]
│ ├── def ──► [I:py_get_skeleton (definitions only)]
│ └── agg ──► [I:py_get_skeleton (children only)]
│
├──► [Q:FileItem.ast_mask?]
│ │
│ └── yes ──► [I:apply ast_mask to the rendered view]
│
├──► [Q:FileItem.custom_slices?]
│ │
│ └── yes ──► [I:apply custom_slices to the rendered view]
│
└──► [I:append to aggregate markdown]
The shape rule. Curation is per-file, per-discussion, structural. Edited at the Structural File Editor. Persisted in TOML. The file's FileItem is the single source of truth for "how do I render this file in the AI's context."
2. Discussion memory (per-discussion, conversational, multi-turn)
The shape. app.disc_entries: list[dict] where each entry is {"role": str, "content": str, "collapsed": bool, "ts": str, ...} plus optional thinking_segments and usage (token accounting). The discussion is rendered as a list[Message] for the LLM by build_markdown (per src/aggregate.py).
The query model. "What did the user say? What did the AI say? In what order?" The discussion is the prior context for the next LLM call. The user can edit, insert, delete, role-change, and branch at any entry (A1-A7 per-entry operations per the nagent review v1 §3).
The right tool. The Discussion Hub panel. Per-entry [Edit], [Read], [+/-], Ins, Del, [Branch], role combo. The undo/redo stack (UISnapshot) and the Take/branching/compact system.
The wrong tool. Storing discussion state in the RAG index (it's temporal, not semantic). Storing discussion state in the knowledge digest (it's per-discussion, not durable). Storing discussion state in a FileItem (it's not per-file).
The codepath (SSDL):
[Q:user types prompt + hits Enter]
│
▼
[I:append new entry to disc_entries] (role: "User")
│
▼
[Q:which ContextPreset is active?]
│
├── preset N ──► [I:render FileItems per curation memory]
│
▼
[I:aggregate.build_markdown(preset, discussion) -> str]
│
▼
[I:ai_client.send(aggregate_text, history)]
│
▼
[I:append new entry to disc_entries] (role: "AI", content: response)
│
▼
[Q:user pressed Edit on an entry?]
│
├── yes ──► [I:update disc_entries[i].content]
│
▼
[Q:user pressed Branch on an entry?]
│
├── yes ──► [I:project_manager.branch_discussion(index) -> new Take]
│
▼
[Q:user pressed Undo?]
│
├── yes ──► [I:history.UISnapshot.pop() -> restore previous state]
│
▼
[Q:user pressed Compact?]
│
├── yes ──► [I:ai_client.run_discussion_compaction(discussion)] (Candidate 11)
│
[T:render Discussion Hub panel from disc_entries]
The shape rule. Discussion is per-discussion, conversational, multi-turn. Edited per-entry. Persisted in TOML via _flush_to_project. The disc_entries list is the single source of truth for "what was said in this discussion."
3. RAG memory (opt-in, semantic, fuzzy)
The shape. ChromaDB vector store; per-file FileItem-like records with embeddings. RAGEngine.search(query, k=N) returns the top-N most-similar chunks. Persisted in tests/artifacts/.slop_cache/chroma_<embedding_provider>/.
The query model. "Given a query, return similar content from the indexed corpus." Semantic similarity, fuzzy. No provenance beyond the file path. No user-editable content.
The right tool. RAGEngine.search() at LLM call time (the rag_* results injected into the LLM prompt). The [X] Enable RAG toggle in AI Settings. The RAGConfig (embedding provider, chunk size, chunk overlap, source selection).
The wrong tool. Using RAG as a replacement for the other 3 dimensions. Using RAG results for state mutation (the integration discipline prohibits this). Using RAG for "show me the last thing the user said" (use Discussion memory). Using RAG for "show me what we decided last time" (use Knowledge memory).
The codepath (SSDL):
[Q:ai_client.send() is called]
│
▼
[Q:is RAG enabled?]
│
├── no ──► [T:skip]
│
▼
[Q:which RAG source? (project / global / none)]
│
├── project ──► [I:RAGEngine.index_file(path) for each tracked file in project]
├── global ──► [I:RAGEngine.index_file(path) for each file in ~/.manual_slop/knowledge/]
└── none ──► [T:skip]
│
▼
[Q:RAG engine initialized?]
│
├── no ──► [I:RAGEngine._init_embedding_provider()] (lazy init, may download)
│
▼
[I:RAGEngine.search(query, k=N) -> list[SearchResult]]
│
▼
[I:append "{rag-context}" block to aggregate markdown]
│
▼
[I:ai_client.send() continues with augmented prompt]
The shape rule. RAG is opt-in. Default-off. Complements the other dimensions; never replaces. Provenance is required (file path, chunk offset). No mutation. See conductor/code_styleguides/rag_integration_discipline.md for the full rule.
4. Knowledge memory (per-project, durable, provenance-aware)
The shape. A markdown tree at ~/.manual_slop/knowledge/:
| File | Format | What it stores |
|---|---|---|
knowledge/facts.md |
- {statement} {provenance} |
Durable statements about systems, repos, tools |
knowledge/decisions.md |
- {statement} {reason} |
Decisions that were made |
knowledge/questions.md |
- {question} |
Unanswered questions |
knowledge/playbooks.md |
- **{name}**: {steps} |
Reusable command sequences |
knowledge/tasks.md |
- {task} (## Open / ## Done) |
Open and done tasks |
knowledge/files/{file_id}.md |
- {note} {provenance} |
Per-file notes (keyed by inode) |
knowledge/digest.md |
bounded 4KB | The projected digest (injected as {knowledge} block) |
knowledge/ledger.json |
{entries: {sha256: {status, at, items}}} |
The harvest audit log |
The query model. "Given past sessions, what durable knowledge should I inject into the current discussion?" The answer is the {knowledge} block in the initial context, regenerated from the category files (newest first), bounded to 4KB.
The right tool. The harvest CLI (python -m src.knowledge_harvest) for the harvest; the plain text editor (vim, nano, the GUI) for the category files. The "Knowledge" panel in the GUI for browse/edit/prune.
The wrong tool. Treating the knowledge digest as state (it's a projection; the category files are the state). Letting the digest grow unbounded (4KB cap; truncate with a visible note). Treating the per-file notes as a replacement for FileItem curation (different dimensions; both are useful).
The codepath (SSDL):
[Q:discussion starts]
│
▼
[Q:knowledge digest exists? (knowledge/digest.md)]
│
├── no ──► [T:skip]
│
▼
[Q:digest within 4KB budget?]
│
├── yes ──► [I:read digest]
│
├── no ──► [I:read digest (truncated with note)]
│
▼
[Q:aggregate.py:run is at the stable prefix position]
│
▼
[I:append "{knowledge}" block to initial context]
│
▼
[Q:per-file knowledge for files in scope?]
│
├── yes ──► [I:append "{file-knowledge}" per FileItem]
│
[T:continue rendering aggregate]
The shape rule. Knowledge is per-project, durable, provenance-aware. Edited by the user (plain markdown). The category files are the source of truth; the digest is a projection. See conductor/code_styleguides/knowledge_artifacts.md for the full harvest workflow.
5. The boundaries (when NOT to mix)
| Don't store... | In... | Because... |
|---|---|---|
| Discussion state | FileItem (curation) |
Discussion is per-discussion, not per-file |
| File curation | disc_entries (discussion) |
Curation is per-file structural, not conversational |
| Semantic search results | disc_entries (discussion) |
RAG is fuzzy; the discussion is precise |
| A long conversation | the knowledge digest (knowledge) | The digest is bounded (4KB); the conversation is unbounded |
| A "this is the current state" fact | the RAG index (RAG) | RAG is semantic; state is precise |
| Per-file notes | the discussion context | The notes should follow the file, not the discussion |
| Per-discussion summary | the knowledge digest | The digest is cross-discussion, not per-discussion |
| LLM-derived curation | the FileItem schema | LLM outputs are untrusted; the FileItem is user-edited |
| Untrusted LLM output | the knowledge category files | The harvest prompt has retry + graceful failure; but the category files are user-editable, so corrections are first-class |
The discipline. When designing a new feature, ask: which of the 4 dimensions is the natural home? Don't reach for the RAG because "it's there"; reach for the dimension whose shape matches the data.
6. The cross-cutting principle (the "data is the thing")
All 4 dimensions share one principle: the data is the thing, not the agent. Each dimension has:
- A flat shape (no object graphs; structs of structs of scalars)
- A durable storage (TOML, ChromaDB, markdown — not Python objects)
- A user-editable surface (the Structural File Editor, the Discussion Hub, the RAG toggle, the category files)
- A query model that returns "data, not control flow" (per
data_oriented_error_handling_20260606)
The wrong shape for the right question is a common mistake. The right question is "which of the 4 dimensions is this?" — not "is there a tool that does X?"
7. The decision tree (the 1-question test)
When a feature needs some memory, ask this single question:
Q: What is the *data* (not the operation) the feature needs?
│
├── "How to render a file" ──► Curation (FileItem)
├── "What was said in this chat" ──► Discussion (disc_entries)
├── "What similar content exists" ──► RAG (RAGEngine.search)
└── "What we learned from past runs" ──► Knowledge (knowledge/digest.md)
Pick the matching dimension. If the feature needs 2+ dimensions, use 2+ dimensions — but be explicit about which is the primary (the one that holds the answer) and which is secondary (the one that provides context).
8. The implementation cross-references (the file:line map)
For Manual Slop's current state:
| Dim | Where in src/ |
Line range | What to look at |
|---|---|---|---|
| Curation | src/project_files.py |
(whole file) | FileItem schema (moved out of src/models.py per module_taxonomy_refactor_20260627) |
| Curation | src/context_presets.py |
(whole file) | ContextPreset schema + ContextPresetManager (moved out of src/models.py) |
| Curation | src/aggregate.py |
(518 lines) | build_file_items, build_markdown |
| Discussion | src/gui_2.py |
3770-3853 | render_discussion_entry (A1-A7) |
| Discussion | src/gui_2.py |
4239-4260 | render_discussion_entry_controls (B1-B11) |
| Discussion | src/history.py |
8-71 | UISnapshot, HistoryManager (C1-C5) |
| Discussion | src/project_manager.py |
429+ | branch_discussion, promote_take |
| RAG | src/rag_engine.py |
1-384 | The RAG engine + ChromaDB |
| Knowledge | (NEW) src/knowledge_store.py |
(proposed) | The knowledge store |
| Knowledge | (NEW) src/knowledge_harvest_cli.py |
(proposed) | The harvest CLI |
9. The cross-references
conductor/code_styleguides/data_oriented_design.md§9 — the 4-dim table in the canonical DODconductor/code_styleguides/rag_integration_discipline.md— the conservative-RAG ruleconductor/code_styleguides/knowledge_artifacts.md— the knowledge harvest patternconductor/code_styleguides/cache_friendly_context.md— the cache strategy (where the 4 dims get injected)docs/guide_agent_memory_dimensions.md— the user-facing cross-cutting guidedocs/guide_context_curation.md— the existing curation deep-divedocs/guide_rag.md— the existing RAG deep-diveconductor/tracks/nagent_review_20260608/nagent_review_v2_3_20260612.md§2.8 — the nagent-origin pattern that informed the knowledge dim