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manage-memory

pjt222
Mis à jour 2 days ago
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À propos

Cette compétence aide les développeurs à gérer la mémoire persistante de Claude Code en organisant, extrayant et vérifiant les fichiers MEMORY.md. Elle traite automatiquement l'extraction de sujets vers des fichiers dédiés, détecte les entrées obsolètes et applique la contrainte de limite de 200 lignes. Utilisez-la lorsque le fichier MEMORY.md approche de la limite de lignes, après des sessions productives avec des insights durables, ou lorsque des changements dans le projet peuvent avoir rendu des entrées de mémoire périmées.

Installation rapide

Claude Code

Recommandé
Principal
npx skills add pjt222/agent-almanac -a claude-code
Commande PluginAlternatif
/plugin add https://github.com/pjt222/agent-almanac
Git CloneAlternatif
git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/manage-memory

Copiez et collez cette commande dans Claude Code pour installer cette compétence

Documentation

Manage Memory

Maintain Claude Code's persistent memory directory so it stays accurate, concise, useful across sessions. MEMORY.md loaded into system prompt on every conversation — lines after 200 are truncated. File must be lean index pointing to topic files for detail.

When Use

  • MEMORY.md approaching 200-line truncation threshold
  • Session produced durable insights worth preserving (new patterns, architecture decisions, debugging solutions)
  • Topic section in MEMORY.md grown beyond 10-15 lines. Should be extracted
  • Project state changed (renamed files, new domains, updated counts). Memory entries may be stale
  • Starting new area of work. Check whether relevant memory already exists
  • Periodic maintenance between sessions to keep memory directory healthy

Inputs

  • Required: Access to memory directory (typically ~/.claude/projects/<project-path>/memory/)
  • Optional: Specific trigger (e.g., "MEMORY.md is too long," "just finished major refactor")
  • Optional: Topic to add, update, or extract

Steps

Step 1: Assess Current State

Read MEMORY.md and list all files in memory directory:

wc -l <memory-dir>/MEMORY.md
ls -la <memory-dir>/

Check line count against 200-line limit. Inventory existing topic files.

Got: Clear picture of total lines, number of topic files, which sections exist in MEMORY.md.

If fail: Memory directory doesn't exist? Create it. MEMORY.md doesn't exist? Create minimal one with # Project Memory header and ## Topic Files section.

Step 2: Identify Stale Entries

Compare memory claims against current project state. Common staleness patterns:

  1. Count drift: File counts, skill counts, domain counts changed after additions/removals
  2. Renamed paths: Files or directories moved or renamed
  3. Superseded patterns: Workarounds no longer needed after fixes
  4. Contradictions: Two entries saying different things about same topic

Use Grep to spot-check key claims:

# Example: verify a skill count claim
grep -c "^      - id:" skills/_registry.yml
# Example: verify a file still exists
ls path/claimed/in/memory.md

Got: List of entries stale, with correct current values.

If fail: Can't verify claim (e.g., it references external state you can't check)? Leave it but add (unverified) note rather than silently preserving potentially wrong information.

Step 3: Decide What to Add

For new entries, apply these filters before writing:

  1. Durability: Will this be true next session? Avoid session-specific context (current task, in-progress work, temporary state).
  2. Non-duplication: Does CLAUDE.md or project documentation already cover this? Don't duplicate — memory is for things NOT captured elsewhere.
  3. Verified: Has this been confirmed across multiple interactions, or is it single observation? For single observations, verify against project docs before writing.
  4. Actionable: Does knowing this change behavior? "The sky is blue" isn't useful. "Exit code 5 means quoting error — use temp files" changes how you work.

Exception: User explicitly asks to remember something? Save immediately — no need to wait for multiple confirmations.

Got: Filtered list of entries worth adding, each meeting durability + non-duplication + verification + actionability criteria.

If fail: Unsure whether entry is worth keeping? Err toward keeping briefly in MEMORY.md — easier to prune later than to rediscover.

Step 4: Extract Oversize Topics

When section in MEMORY.md exceeds ~10-15 lines, extract to dedicated topic file:

  1. Create <memory-dir>/<topic-name>.md with descriptive header
  2. Move detailed content from MEMORY.md to topic file
  3. Replace section in MEMORY.md with 1-2 line summary and link:
## Topic Files
- [topic-name.md](topic-name.md) — Brief description of contents

Naming conventions for topic files:

  • Use lowercase kebab-case: viz-architecture.md, not VizArchitecture.md
  • Name by topic, not chronology: patterns.md, not session-2024-12.md
  • Group related items: combine "R debugging" and "WSL quirks" into patterns.md rather than creating one file per fact

Got: MEMORY.md stays under 200 lines. Each topic file self-contained and readable without MEMORY.md context.

If fail: Topic file would be fewer than 5 lines? Probably not worth extracting — leave inline in MEMORY.md.

Step 5: Update MEMORY.md

Apply all changes: remove stale entries, add new entries, update counts, ensure Topic Files section lists all dedicated files.

MEMORY.md structure should follow this pattern:

# Project Memory

## Section 1 — High-level context
- Bullet points, concise

## Section 2 — Another topic
- Key facts only

## Topic Files
- [file.md](file.md) — What it covers

Guidelines:

  • Keep each bullet to 1-2 lines maximum
  • Use inline formatting (code, bold) for scanability
  • Put most frequently needed context first
  • Topic Files section should always be last

Got: MEMORY.md under 200 lines, accurate, has working links to all topic files.

If fail: Can't get under 200 lines after extraction? Identify least-frequently-used section, extract it. Every section is candidate — even project structure overview can go to topic file if needed, leaving just 1-line summary.

Step 6: Verify Integrity

Run final check:

  1. Line count: Confirm MEMORY.md under 200 lines
  2. Links: Verify every topic file referenced in MEMORY.md exists
  3. Orphans: Check for topic files not referenced in MEMORY.md
  4. Accuracy: Spot-check 2-3 factual claims against project state
wc -l <memory-dir>/MEMORY.md
# Check for broken links
for f in $(grep -oP '\[.*?\]\(\K[^)]+' <memory-dir>/MEMORY.md); do
  ls <memory-dir>/$f 2>/dev/null || echo "BROKEN: $f"
done
# Check for orphan files
ls <memory-dir>/*.md | grep -v MEMORY.md

Got: Line count under 200, no broken links, no orphan files, spot-checked claims accurate.

If fail: Fix broken links (update or remove). Orphan files? Either add reference in MEMORY.md or delete if no longer relevant.

Checks

  • MEMORY.md under 200 lines
  • All topic files referenced in MEMORY.md exist on disk
  • No orphan .md files in memory directory (every file linked from MEMORY.md)
  • No stale counts or renamed paths in any memory file
  • New entries meet durability/non-duplication/verified/actionable criteria
  • Topic files have descriptive headers and are self-contained
  • MEMORY.md reads as useful quick-reference, not changelog

Pitfalls

  • Memory file pollution: Writing every session observation to memory. Most findings session-specific, don't need persisting. Apply four filters (Step 3) before writing.
  • Stale counts: Updating code but not memory. Counts (skills, agents, domains, files) drift silently. Always verify counts against source of truth before trusting memory.
  • Chronological organization: Organizing by "when I learned it" instead of "what it's about." Topic-based organization (patterns.md, viz-architecture.md) far more useful for retrieval than date-based files.
  • Duplicating CLAUDE.md: CLAUDE.md is authoritative project instruction file. Memory should capture things NOT in CLAUDE.md — debugging insights, architecture decisions, workflow preferences, cross-project patterns.
  • Over-extraction: Creating topic file for every 3-line section. Only extract when section exceeds ~10-15 lines. Small sections work fine inline.
  • Forgetting 200-line limit: MEMORY.md loaded into every system prompt. Lines after 200 silently truncated. File grows past this? Bottom content effectively invisible.

See Also

  • write-claude-md — CLAUDE.md captures project instructions. Memory captures cross-session learning
  • prune-agent-memory — inverse of manage-memory: auditing, classifying, selectively forgetting stored memories
  • write-continue-here — write structured continuation file for session handoff. Complements memory as short-term context bridge
  • read-continue-here — read and act on continuation file at session start. Consumption side of handoff
  • create-skill — new skills may produce memory-worthy patterns
  • heal — self-healing may update memory as part of integration step
  • meditate — meditation sessions may surface insights worth persisting

Dépôt GitHub

pjt222/agent-almanac
Chemin: i18n/caveman/skills/manage-memory
0
agentsagentskillsai-assisted-developmentclaude-codeskillsteams

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