diff --git a/docs/memory-system/09-sb-content-plan.md b/docs/memory-system/09-sb-content-plan.md index 39eb050..157fe62 100644 --- a/docs/memory-system/09-sb-content-plan.md +++ b/docs/memory-system/09-sb-content-plan.md @@ -1,6 +1,6 @@ # SecondBrain Content Plan (Plan A) -_Status: Planning. Last updated: 2026-06-28._ +_Status: Planning. Last updated: 2026-06-30._ > Plan A of two. Plan A solves the **content problem** — the vault is dormant because it holds > too little valuable knowledge to be worth querying. Plan B (separate doc) solves the @@ -34,6 +34,14 @@ Notes should be focused and use their template structure. Template adherence is constraint, not line count. A note that fully answers its question in 20 lines is better than a sprawling dump. Splitting bloated notes is Plan C. +### Injection economics govern template design + +These notes are injected into AI context mid-task, repeatedly, across every project, indefinitely. Every section that doesn't earn its place is a recurring token tax. The governing rule: + +> **The burden of proof is on inclusion. A section exists only if you can name a consumer who acts differently because it's there.** + +This applies to every template section decision and every authoring choice. + ### Value gate (three dimensions) Before writing a note, check all three: @@ -106,6 +114,8 @@ opportunities) are deferred — they require content density to be useful. - **When to use:** recurring decisions where consistent behavior matters more than one-off judgment. The test: "would a new collaborator ask this?" +*These sections are illustrative starting points. The Step 2 template-design process applies the injection-economics filter — any section that can't pass "a named consumer acts differently because this is here" gets cut. The Step 2 output is authoritative.* + **Template sections:** 1. **Purpose** (1–2 sentences) — what recurring decision does this govern? @@ -146,6 +156,8 @@ opportunities) are deferred — they require content density to be useful. - **When to use:** repeatable procedures where sequencing matters and the steps are non-obvious enough to forget. +*These sections are illustrative starting points. The Step 2 template-design process applies the injection-economics filter — any section that can't pass "a named consumer acts differently because this is here" gets cut. The Step 2 output is authoritative.* + **Template sections:** 1. **Opening** — what this solves; who should read it. @@ -178,11 +190,12 @@ tags: - project/[project] # if project-specific scope: [global|project|client] last_updated: YYYY-MM-DD +date: YYYY-MM-DD # creation date — set once, never updated last_reviewed: YYYY-MM-DD # mutable facts only (API integration refs, billing rates) update_note: experience-driven # howtos only, when steps involve changing UIs/APIs related: - [note-slug] # cross-links to companion notes -source: [source file path(s)] # provenance — where the knowledge was extracted from +source: [project name] # project that spawned the note (e.g., llf-schema, design-mode, hyperthrive_dev) --- ``` @@ -201,42 +214,63 @@ consistent and useful. **Step 1: Reconcile `vault-conventions.md`** Remove the old frontmatter contract: date-prefixed filenames, `source:` as a tag, `scope/global` -as a tag, `date:` field. The typed schema above is authoritative. Keep all other existing +as a tag. The typed schema above is authoritative. Keep all other existing content intact. A contradictory conventions doc undermines every note that references it. -**Step 2: Write three template files** +**Step 2: Harden the template-design process, then write three template files** + +Step 1 (reconciling the frontmatter schema) must be complete before this step — templates sit on top of the frontmatter contract. + +**Step 2a — Write the `memory-template` plugin skill** + +Location: `cc-os/plugins/memory/skills/memory-template/SKILL.md` — alongside the existing skills (`memory-vault`, `memory-write`, `memory-project`, `memory-reorganize`). It is Graphify-indexed in the cc-os project graph, not the vault graph. + +The skill handles two related workflows, routing between them based on context: +- **Template design** — the repeatable 4-step process for designing any note-type template. +- **New-type creation** — the full lifecycle of adding a new type to the vault, from recognizing the need through to a working template (delegates to the template-design flow for the template itself). + +The 4-step template-design process the skill documents: + +1. **Model the consumers** — write who reads this type and the one action each takes. Grab or construct one exemplar (N=1, even synthetic, is enough — the process doesn't require a corpus). +2. **Extract the minimal body shape** — name 2–4 body sections ordered action-first → why/when → caveats-last. For each candidate section, write one line: "*[consumer] acts differently because this is here.*" No line = cut the section. Add a subtype variant only if a real variant needs a genuinely different core shape. +3. **Draft the fillable skeleton** — fixed frontmatter block + H1 + each section as a header with a one-line inline instruction (what goes here + target density) + an abbreviated filled example showing target density. +4. **Dogfood and cut** — fill the template with the exemplar. Cut any empty or padded section; tighten any ambiguous instruction; re-fill. Done when the exemplar fills it with no empty sections and no padding. + +The new-type-creation workflow the skill documents: +1. Recognize the trigger — what signals a type gap? (SessionEnd catch-all surfacing something that doesn't fit; repeated in-session workarounds for the same structural problem; N≥3 real instances exist that share structure) +2. Collect N≥3 real examples (or construct synthetic ones) +3. Define the question frame the type answers +4. Follow the template-design flow above to produce the template +5. Add the type definition to `vault-conventions.md` +6. Create the template file in `_templates/` +7. Author the first 2–3 notes using the template +8. Dogfood critique (template already bakes this in via Step 4 of the design process) +9. Refine based on findings + +Key design decisions baked in to the template-design flow: +- Frontmatter (`summary` + tags) already serves the scanning human and the recall AI. The body only needs to serve two consumers: the injected AI mid-task and the executing human. Both want actionable core up front; they differ only in how far they read. One artifact, progressive disclosure, different stopping points. +- One shared spine (frontmatter → H1 → actionable core → why/when → caveats), three type-specific body shapes. Subtypes are body variants within a template — never separate templates. +- Anti-patterns the process must guard against: section inflation ("for completeness"), vague headers (`## Notes`, `## Details`), body duplicating frontmatter, paper-good/practice-ignored structure (caught by the dogfood step), convention stated without its boundary, smuggling project narrative (episodic content belongs in memsearch, not SB). + +**Step 2b — Write the three template files** Location: `~/Documents/SecondBrain/_templates/` -- `convention.md` — codify the skeleton that emerged from the first two convention notes -- `reference.md` — codify the hub+detail pattern; include sub-template selector -- `howto.md` — codify the skeleton that emerged from the `airtable-mcp-setup` note +Apply the Step 2a process (from the `memory-template` skill) to each type in this order: +1. `howto.md` — first, because the template-design flow dogfoods it +2. `convention.md` +3. `reference.md` — include the sub-template variant selector in the body -Templates serve two purposes: they guide authoring and they make structure machine-checkable. +Use these existing notes as exemplars for the dogfood step: +- howto: `howto/airtable-mcp-setup.md` +- convention: `convention/sandi-metz-code-philosophy.md` +- reference: `reference/agent-orchestration-patterns.md` **Step 3: Patch 4 of the 6 proof-of-concept notes (the 2 convention notes required no fixes)** See the Known Issues table in the next section. Apply all fixes before authoring new notes — stale patterns propagate. -**Step 4: Write `howto/how-to-create-a-new-note-type.md`** - -This note documents the process of creating a new note type, making the process itself -reusable: - -1. Find real examples of what the type would capture -2. Read multiple instances to extract consistent structure -3. Define the question frame the type answers -4. Draft a template -5. Write to `vault-conventions.md` -6. Create the template file in `_templates/` -7. Author the first 2–3 notes using the template -8. Critique them (Opus pass or equivalent) -9. Refine template based on findings - -This is the process that produced the three Plan A types. Writing it down means the next type -doesn't require re-deriving the approach. - --- ### Phase 2 — Populate SB (Ongoing) @@ -246,7 +280,7 @@ doesn't require re-deriving the approach. signal for a given type. - Use the SessionEnd catch-all (once Plan B is live) to discover new candidates between sessions. -- When a new type is needed, follow `howto/how-to-create-a-new-note-type.md`. +- When a new type is needed, invoke the `memory-template` skill (new-type-creation flow). Phase 2 has no end date — it's the steady-state operation of SB as a living knowledge base. @@ -259,7 +293,7 @@ Patch these in Phase 1, Step 3, before authoring new notes. | Note | Issue | Fix | |------|-------|-----| | `reference/agent-orchestration-patterns.md` | Missing `tool/claude-code` tag; contains stale Claude Code tool claims (Task tool behavior) | Add `tool/claude-code` tag; add `last_reviewed` date; caveat tool-specific sections as version-sensitive | -| `reference/agent-orchestration-cookbook.md` | Same tag gap; stale tool capability claims; glossary duplicates patterns note | Add `tool/claude-code` tag + `last_reviewed`; add caveat; replace glossary with pointer to patterns note | +| `reference/agent-orchestration-cookbook.md` | Same tag gap; stale tool capability claims; glossary duplicates patterns note | Add `tool/claude-code` tag + `last_reviewed`; add caveat; fix non-enum `subtype: cookbook` → remove or replace with valid subtype; replace glossary with pointer to patterns note | | `howto/design-mode-workflow.md` | `scope: global` is incorrect (requires design-mode project context); project-internal details retained | Fix scope to `project`; add `project/design-mode` tag; remove future-capability markers and internal file path tables | | `howto/airtable-mcp-setup.md` | `update_note` field was undocumented; Step 3 leaks project-specific scaffolding | `update_note` is now documented in the schema above; add inline comment flagging Step 3 as a project-customization point | | `vault-conventions.md` | Two contradictory frontmatter schemas coexist | Reconcile — see Phase 1 Step 1 | @@ -286,7 +320,7 @@ exhaustive — these feed Phase 2. | `delta-refinery/docs/state_machine_reference.md` | `reference/state-machine-pattern.md` | | `design-mode/guides/design-color-rules.md` | `reference/design-color-rules.md` | -_Additional candidates to be discovered via `/memory-audit` as projects are onboarded._ +_Additional candidates to be discovered via Plan B Phase 3 (SessionEnd discovery agent) as projects are onboarded._ ### Howto @@ -294,7 +328,7 @@ _Additional candidates to be discovered via `/memory-audit` as projects are onbo |--------|--------| | `dev/design-mode/docs/devcontainer-guide.md` | `howto/devcontainer-sandbox-setup.md` | -_Additional candidates to be discovered via `/memory-audit` as projects are onboarded._ +_Additional candidates to be discovered via Plan B Phase 3 (SessionEnd discovery agent) as projects are onboarded._ When migrating: extract the knowledge, don't copy the document. Source file stays in its repo; `source:` field in frontmatter records provenance.