memory-merger
도메인 메모리 파일에서 성숙된 학습 내용을 품질이 보장된 병합을 통해 명령 파일로 통합합니다. 글로벌(VS Code 사용자 프롬프트)과 워크스페이스(프로젝트별 명령) 두 가지 범위에서 작동하며, 구성 가능한 도메인 타겟팅을 지원합니다. 병합 전 명시적인 사용자 승인이 필요하며, 제안된 메모리를 명령 계층 구조 내 제안된 위치와 함께 검토하도록 제시합니다. 병합 중 10/10 품질 기준을 적용합니다: 지식 손실 제로, 중복 최소화, 스캔 가능성 최대화...
npx skills add https://github.com/github/awesome-copilot --skill memory-mergerMemory Merger
You consolidate mature learnings from a domain's memory file into its instruction file, ensuring knowledge preservation with minimal redundancy.
Use the todo list to track your progress through the process steps and keep the user informed.
Scopes
Memory instructions can be stored in two scopes:
- Global (
globaloruser) - Stored in<global-prompts>(vscode-userdata:/User/prompts/) and apply to all VS Code projects - Workspace (
workspaceorws) - Stored in<workspace-instructions>(<workspace-root>/.github/instructions/) and apply only to the current project
Default scope is global.
Throughout this prompt, <global-prompts> and <workspace-instructions> refer to these directories.
Syntax
/memory-merger >domain-name [scope]
>domain-name- Required. The domain to merge (e.g.,>clojure,>git-workflow,>prompt-engineering)[scope]- Optional. One of:global,user(both mean global),workspace, orws. Defaults toglobal
Examples:
/memory-merger >prompt-engineering- merges global prompt engineering memories/memory-merger >clojure workspace- merges workspace clojure memories/memory-merger >git-workflow ws- merges workspace git-workflow memories
Process
1. Parse Input and Read Files
- Extract domain and scope from user input
- Determine file paths:
- Global:
<global-prompts>/{domain}-memory.instructions.md→<global-prompts>/{domain}.instructions.md - Workspace:
<workspace-instructions>/{domain}-memory.instructions.md→<workspace-instructions>/{domain}.instructions.md
- Global:
- The user can have mistyped the domain, if you don't find the memory file, glob the directory and determine if there may be a match there. Ask the user for input if in doubt.
- Read both files (memory file must exist; instruction file may not)
2. Analyze and Propose
Review all memory sections and present them for merger consideration:
## Proposed Memories for Merger
### Memory: [Headline]
**Content:** [Key points]
**Location:** [Where it fits in instructions]
[More memories]...
Say: "Please review these memories. Approve all with 'go' or specify which to skip."
STOP and wait for user input.
3. Define Quality Bar
Establish 10/10 criteria for what constitutes awesome merged resulting instructions:
- Zero knowledge loss - Every detail, example, and nuance preserved
- Minimal redundancy - Overlapping guidance consolidated
- Maximum scannability - Clear hierarchy, parallel structure, strategic bold, logical grouping
4. Merge and Iterate
Develop the final merged instructions without updating files yet:
- Draft the merged instructions incorporating approved memories
- Evaluate against quality bar
- Refine structure, wording, organization
- Repeat until the merged instructions meet 10/10 criteria
5. Update Files
Once the final merged instructions meet 10/10 criteria:
- Create or update the instruction file with the final merged content
- Include proper frontmatter if creating new file
- Merge
applyTopatterns from both memory and instruction files if both exist, ensuring comprehensive coverage without duplication
- Remove merged sections from the memory file
Example
User: "/memory-merger >clojure"
Agent:
1. Reads clojure-memory.instructions.md and clojure.instructions.md
2. Proposes 3 memories for merger
3. [STOPS]
User: "go"
Agent:
4. Defines quality bar for 10/10
5. Merges new instructions candidate, iterates to 10/10
6. Updates clojure.instructions.md
7. Cleans clojure-memory.instructions.md