# Überblick Dieser Guide führt durch den Bau eines LLM-Agenten, der Kontext über Sessions hinweg mittels Synapse persistiert. Am Ende wird dein Agent: - Vergangenen Kontext zu Session-Beginn abrufen - Neue Learnings beim Entstehen speichern - Mehrschrittige Tasks über Sessions verfolgen - Mit Menschen via asynchronem Chat kommunizieren ## Architektur ```text ┌──────────────┐ recall/store ┌──────────┐ │ LLM Agent │ ◀──────────────▶ │ Synapse │ │ (your code) │ │ API │ └──────────────┘ └──────────┘ │ │ poll/reply ▼ ┌──────────────┐ │ Human │ (browser or chat UI) └──────────────┘ ``` ## Schritt 1: Mind Key einrichten ```bash # Register and get JWT JWT=$(curl -s -X POST https://synapse.schaefer.zone/register \ -H "Content-Type: application/json" \ -d '{"email":"agent@example.com","password":"secret"}' | jq -r .jwt) # Create mind and get Mind Key MIND_KEY=$(curl -s -X POST https://synapse.schaefer.zone/minds \ -H "Authorization: Bearer $JWT" \ -H "Content-Type: application/json" \ -d '{"name":"persistent-agent","description":"My persistent agent"}' | jq -r .mind_key) echo "Save this: $MIND_KEY" ``` ## Schritt 2: Session-Start-Protokoll Zu Beginn jeder Session alle Memories abrufen: ```python import os import requests MIND_KEY = os.environ["SYNAPSE_MIND_KEY"] URL = "https://synapse.schaefer.zone" def session_start(): """Call this at the start of every session.""" # 1. Recall all memories r = requests.get( f"{URL}/memory/recall", headers={"Authorization": f"Bearer {MIND_KEY}"} ) memories = r.text # plain text summary # 2. Check for unread chat messages r = requests.get( f"{URL}/chat/poll", headers={"Authorization": f"Bearer {MIND_KEY}"} ) messages = r.json().get("messages", []) # 3. Check in-progress tasks r = requests.get( f"{URL}/mind/tasks?status=in_progress", headers={"Authorization": f"Bearer {MIND_KEY}"} ) tasks = r.json().get("tasks", []) return { "memories": memories, "unread_messages": messages, "active_tasks": tasks, } context = session_start() # Build system prompt with this context ``` ## Schritt 3: Neue Learnings speichern Wann immer der Agent etwas lernenswertes erfährt: ```python def remember(category, key, content, tags=None, priority="normal"): """Store a memory.""" requests.post( f"{URL}/memory", headers={ "Authorization": f"Bearer {MIND_KEY}", "Content-Type": "application/json", }, json={ "category": category, "key": key, "content": content, "tags": tags or [], "priority": priority, } ) # Examples remember("identity", "user_name", "User is Michael Schäfer", tags=["person"], priority="critical") remember("preference", "communication_style", "User prefers concise technical responses", tags=["communication"]) remember("project", "current_project", "Building Synapse v1.6.0 with docs system", tags=["synapse", "docs"], priority="high") remember("mistake", "npm_version_bump", "Always bump package.json version after changes", tags=["npm", "ci"], priority="high") ``` ## Schritt 4: Task-Management Mehrschrittige Arbeit über Sessions verfolgen: ```python def create_task(title, description="", priority="normal"): r = requests.post( f"{URL}/mind/task", headers={"Authorization": f"Bearer {MIND_KEY}", "Content-Type": "application/json"}, json={"title": title, "description": description, "priority": priority} ) return r.json()["id"] def update_task(task_id, status=None, description=None): payload = {} if status: payload["status"] = status if description: payload["description"] = description requests.put( f"{URL}/mind/task/{task_id}", headers={"Authorization": f"Bearer {MIND_KEY}", "Content-Type": "application/json"}, json=payload ) # Multi-session workflow task_id = create_task("Deploy v1.6.0", "Push docs system to production", "high") update_task(task_id, status="in_progress") # ... work across multiple sessions ... update_task(task_id, status="done") ``` ## Schritt 5: Asynchroner Chat mit Menschen Zwischen Tool-Aufrufen nach Nachrichten pollen: ```python import time def poll_messages(): r = requests.get( f"{URL}/chat/poll", headers={"Authorization": f"Bearer {MIND_KEY}"} ) return r.json().get("messages", []) def reply(content): requests.post( f"{URL}/chat/reply", headers={"Authorization": f"Bearer {MIND_KEY}", "Content-Type": "application/json"}, json={"content": content} ) # Main loop while working: # Poll for human messages for msg in poll_messages(): print(f"Human: {msg['content']}") reply(f"Got it: {msg['content']}. Working on it.") # Do one unit of work do_work() time.sleep(30) # don't poll too frequently ``` ## Schritt 6: Session-Ende-Protokoll Am Session-Ende finalen Kontext speichern: ```python def session_end(): """Call this before terminating the session.""" # Store what we accomplished remember("context", "last_session_summary", f"Session ended at {time.now()}. Accomplished: ...", tags=["session"], priority="normal") # Update task statuses for task in get_active_tasks(): if task_in_progress(task): update_task(task["id"], description=f"In progress: {current_step}") session_end() ``` ## Vollständiges Pattern ```python class PersistentAgent: def __init__(self): self.mind_key = os.environ["SYNAPSE_MIND_KEY"] self.url = "https://synapse.schaefer.zone" def run(self): # 1. Recall context context = self.session_start() # 2. Process unread messages for msg in context["unread_messages"]: self.handle_message(msg) # 3. Resume active tasks for task in context["active_tasks"]: self.continue_task(task) # 4. Do new work self.do_work() # 5. Persist state self.session_end() ``` ## Best Practices > [!TIP] > > - **Immer zuerst recall** — nie ohne geladenen Kontext arbeiten beginnen > - **Proaktiv speichern** — nicht bis Session-Ende warten > - **Aussagekräftige Keys verwenden** — `user_name`, `project_status`, nicht `mem_001` > - **Alles taggen** — Tags treiben Suche und Filterung > - **Realistische Prioritäten setzen** — nicht alles ist `critical` ## Nächste Schritte - [LLM-Cookbook](/docs/llm-cookbook/session-start-pattern) — praktische Patterns - [Memory-Best-Practices](/docs/guides/memory-best-practices) - [Multi-Agent-Koordination](/docs/guides/multi-agent-coordination)