mini-context-graph

von github

Standard-RAG entdeckt bei jeder Abfrage Wissen von Grund auf neu. Diese Fähigkeit ist anders:

npx skills add https://github.com/github/awesome-copilot --skill mini-context-graph

Mini Context Graph Skill

The Core Idea

Standard RAG re-discovers knowledge from scratch on every query. This skill is different:

  1. Wiki layer — The LLM writes and maintains persistent markdown pages (summaries, entity pages, topic syntheses). Cross-references are already there. The wiki gets richer with every ingest.
  2. Graph layer — Entities and relations are extracted once and stored as a navigable knowledge graph. BFS traversal answers structural queries without re-reading sources.
  3. Raw source layer — Original documents are stored immutably with chunks. Provenance links tie every graph node and edge back to the exact text that supports it.

The LLM writes; the Python tools handle all bookkeeping.


Three Layers

LayerWhereWhat the LLM doesWhat Python does
Raw Sourcesdata/documents.jsonReads (never modifies)Stores chunks + metadata
Wikiwiki/ (markdown)Writes/updates pagesManages index.md + log.md
Graphdata/graph.jsonExtracts entities + relationsPersists, deduplicates, traverses

⚡ Quick Start for Agents

from scripts.contextgraph import ContextGraphSkill
from scripts.tools import wiki_store

skill = ContextGraphSkill()

# ===== INGEST WITH FULL RAG + WIKI =====
# 1. Read references/ingestion.md and references/ontology.md first
# 2. Extract entities and relations (LLM reasoning step)
entities = [
    {"name": "memory leak",   "type": "issue",  "supporting_text": "memory leaks cause crashes"},
    {"name": "system crash",  "type": "issue",  "supporting_text": "system crashes due to memory leaks"},
]
relations = [
    {"source": "memory leak", "target": "system crash", "type": "causes",
     "confidence": 1.0, "supporting_text": "System crashes due to memory leaks."},
]

result = skill.ingest_with_content(
    doc_id="doc_001",
    title="System Crash Analysis",
    source="/docs/incident_report.pdf",
    raw_content="System crashes due to memory leaks. Memory leaks occur when objects are not released.",
    entities=entities,
    relations=relations,
)
# result = {"doc_id": "doc_001", "chunk_count": 1, "nodes_added": 2, "edges_added": 1}

# 3. Write a wiki summary page for this document
wiki_store.write_page(
    category="summary",
    title="System Crash Analysis Summary",
    content="""---
title: System Crash Analysis
source_document: doc_001
tags: [summary, incident]
---

# System Crash Analysis

**Source:** incident_report.pdf

## Key Claims

- [[memory-leak]] causes [[system-crash]] (confidence: 1.0)

## Entities

- [[memory-leak]] (issue)
- [[system-crash]] (issue)
""",
    summary="Incident report: memory leaks cause system crashes.",
)

# ===== QUERY WITH EVIDENCE =====
result = skill.query_with_evidence("Why does the system crash?")
# Returns: {"query": ..., "subgraph": ..., "supporting_documents": [...], "evidence_chain": ...}

# ===== WIKI SEARCH (read wiki before answering) =====
pages = wiki_store.search_wiki("memory leak")
# Returns: [{slug, category, path, snippet}, ...]

Operations

Ingest

When a user provides a new document:

  1. Read references/ingestion.md — entity/relation extraction rules.
  2. Read references/ontology.md — type normalization rules.
  3. Extract entities and relations using your LLM reasoning.
  4. Call skill.ingest_with_content(...) — stores raw content + chunks + graph nodes + provenance.
  5. Write a wiki summary page using wiki_store.write_page(category="summary", ...).
  6. Update entity pages — for each new/updated entity, write or update wiki_store.write_page(category="entity", ...).
  7. Update topic pages if the document touches an existing synthesis topic.
  8. A single document ingest will typically touch 3–10 wiki pages.

Query

When a user asks a question:

  1. Check the wiki firstwiki_store.search_wiki(query) to find relevant pages. Read them.
  2. If the wiki has a good answer, synthesize from wiki pages (fast path).
  3. If deeper graph traversal is needed, call skill.query_with_evidence(query).
  4. Return the answer with evidence citations from supporting_documents.
  5. If the answer is valuable, file it back as a new wiki topic page.

Lint

Periodically health-check the wiki:

from scripts.tools import wiki_store
issues = wiki_store.lint_wiki()
# Returns: {orphan_pages, missing_pages, broken_wikilinks, isolated_pages}

Ask the LLM to review and fix: broken links, orphan pages, stale claims, missing cross-references. See references/lint.md for full lint workflow.


Ingestion Constraints

  • ❌ Do NOT hallucinate entities not present in the text
  • ❌ Do NOT add relations without explicit textual evidence
  • ❌ Do NOT add edges with confidence < 0.6
  • ✅ Provide supporting_text for every entity and relation — this enables provenance
  • ✅ Write a wiki summary page for every ingested document
  • ✅ Update existing entity pages when new information arrives
  • ✅ Flag contradictions in wiki pages when new data conflicts with old claims

Retrieval Constraints

  • 🔒 Traversal depth MUST NOT exceed 2 (config: MAX_GRAPH_DEPTH)
  • 🔒 Only edges with confidence ≥ 0.6 (config: MIN_CONFIDENCE)
  • 🔒 Maximum 50 nodes returned (config: MAX_NODES)
  • ❌ Do NOT fabricate nodes or edges not in the graph

Full Python API Reference

MethodPurposeWhen to Use
skill.ingest_with_content(doc_id, title, source, raw_content, entities, relations)Full RAG ingest: raw docs + graph + provenanceEvery new document
skill.add_node(name, node_type)Add single entity (no provenance)Quick additions without a source doc
skill.add_edge(source_name, target_name, relation, confidence)Add single relationQuick additions without a source doc
skill.query(query)Graph-only retrieval → subgraphStructural queries
skill.query_with_evidence(query)Graph + provenance → subgraph + source chunksQueries requiring citations
wiki_store.write_page(category, title, content, summary)Write/update a wiki pageAfter every ingest; after answering queries
wiki_store.read_page(category, title)Read a wiki pageBefore answering; for cross-referencing
wiki_store.search_wiki(query)Keyword search across wikiFast path before graph traversal
wiki_store.list_pages(category)List all wiki pagesGetting an overview
wiki_store.get_log(last_n)Read recent operationsUnderstanding wiki history
wiki_store.lint_wiki()Health checkPeriodic maintenance
documents_store.list_documents()List all ingested raw sourcesAudit / provenance checking
documents_store.search_chunks(query)Chunk-level searchFinding specific evidence

Design Philosophy

"The wiki is a persistent, compounding artifact. The cross-references are already there. The synthesis already reflects everything you've read." — Karpathy

LayerWhat HappensWho Owns It
LLM ReasoningExtraction, synthesis, writing wiki pagesAgent (.md guidance files)
Wiki PersistenceIndex, log, file I/Owiki_store.py
Graph PersistenceDedup, index, BFS traversegraph_store.py, retrieval_engine.py
Raw Source StorageImmutable docs + chunks + provenancedocuments_store.py

The human curates sources and asks questions. The LLM writes the wiki, extracts the graph, and answers with citations. Python handles all bookkeeping.

Mehr Skills von github

console-rendering
github
Anleitung zur Verwendung des auf struct-Tags basierenden Konsolen-Rendering-Systems in Go
official
acquire-codebase-knowledge
github
Verwenden Sie diese Fähigkeit, wenn der Benutzer explizit darum bittet, eine bestehende Codebasis zu kartieren, zu dokumentieren oder sich in sie einzuarbeiten. Auslöser für Aufforderungen wie „diese Codebasis kartieren“, „dokumentieren…
official
acreadiness-assess
github
Run the AgentRC readiness assessment on the current repository and produce a static HTML dashboard at reports/index.html. Wraps `npx github:microsoft/agentrc…
official
acreadiness-generate-instructions
github
Generieren Sie maßgeschneiderte KI-Agenten-Anweisungsdateien über den AgentRC-Befehl. Erstellt .github/copilot-instructions.md (Standard, empfohlen für Copilot in VS…
official
acreadiness-policy
github
Helfen Sie dem Benutzer, eine AgentRC-Richtlinie auszuwählen, zu schreiben oder anzuwenden. Richtlinien passen die Bereitschaftsbewertung an, indem sie irrelevante Prüfungen deaktivieren, Auswirkungen/Stufen überschreiben, festlegen…
official
add-educational-comments
github
Füge pädagogische Kommentare zu Codedateien hinzu, um sie in effektive Lernressourcen zu verwandeln. Passt Erklärungstiefe und Ton an drei konfigurierbare Wissensstufen an: Anfänger, Fortgeschrittene und Fortgeschrittene. Fordert automatisch eine Datei an, falls keine bereitgestellt wird, mit nummerierter Liste für schnelle Auswahl. Erweitert Dateien um bis zu 125 % nur durch pädagogische Kommentare (hartes Limit: 400 neue Zeilen; 300 bei Dateien über 1.000 Zeilen). Bewahrt Dateikodierung, Einrückungsstil, Syntaxkorrektheit und...
official
adobe-illustrator-scripting
github
Schreiben, debuggen und optimieren Sie Adobe Illustrator-Automatisierungsskripte mit ExtendScript (JavaScript/JSX). Verwenden Sie dies beim Erstellen oder Ändern von Skripten, die…
official
agent-governance
github
Deklarative Richtlinien, Intent-Klassifizierung und Prüfpfade zur Kontrolle des Zugriffs und Verhaltens von KI-Agenten-Tools. Zusammensetzbare Governance-Richtlinien definieren erlaubte/blockierte Tools, Inhaltsfilter, Ratenbegrenzungen und Genehmigungsanforderungen – gespeichert als Konfiguration, nicht als Code. Semantische Intent-Klassifizierung erkennt gefährliche Eingabeaufforderungen (Datenerfassung, Privilegieneskalation, Prompt-Injection) vor der Tool-Ausführung mittels musterbasierter Signale. Der Governance-Decorator auf Tool-Ebene setzt Richtlinien bei Funktionen durch...
official