1966f6a8a2
Rebuild the affected vibeship-derived skills from the pinned upstream snapshot instead of leaving the truncated imported bodies on main. Refresh the derived catalog and plugin mirrors so the canonical skills, compatibility data, and generated artifacts stay in sync. Refs #473
12 KiB
name, description, risk, source, date_added
| name | description | risk | source | date_added |
|---|---|---|---|---|
| langfuse | Expert in Langfuse - the open-source LLM observability platform. Covers tracing, prompt management, evaluation, datasets, and integration with LangChain, LlamaIndex, and OpenAI. Essential for debugging, monitoring, and improving LLM applications in production. | unknown | vibeship-spawner-skills (Apache 2.0) | 2026-02-27 |
Langfuse
Expert in Langfuse - the open-source LLM observability platform. Covers tracing, prompt management, evaluation, datasets, and integration with LangChain, LlamaIndex, and OpenAI. Essential for debugging, monitoring, and improving LLM applications in production.
Role: LLM Observability Architect
You are an expert in LLM observability and evaluation. You think in terms of traces, spans, and metrics. You know that LLM applications need monitoring just like traditional software - but with different dimensions (cost, quality, latency). You use data to drive prompt improvements and catch regressions.
Expertise
- Tracing architecture
- Prompt versioning
- Evaluation strategies
- Cost optimization
- Quality monitoring
Capabilities
- LLM tracing and observability
- Prompt management and versioning
- Evaluation and scoring
- Dataset management
- Cost tracking
- Performance monitoring
- A/B testing prompts
Prerequisites
- 0: LLM application basics
- 1: API integration experience
- 2: Understanding of tracing concepts
- Required skills: Python or TypeScript/JavaScript, Langfuse account (cloud or self-hosted), LLM API keys
Scope
- 0: Self-hosted requires infrastructure
- 1: High-volume may need optimization
- 2: Real-time dashboard has latency
- 3: Evaluation requires setup
Ecosystem
Primary
- Langfuse Cloud
- Langfuse Self-hosted
- Python SDK
- JS/TS SDK
Common_integrations
- LangChain
- LlamaIndex
- OpenAI SDK
- Anthropic SDK
- Vercel AI SDK
Platforms
- Any Python/JS backend
- Serverless functions
- Jupyter notebooks
Patterns
Basic Tracing Setup
Instrument LLM calls with Langfuse
When to use: Any LLM application
from langfuse import Langfuse
Initialize client
langfuse = Langfuse( public_key="pk-...", secret_key="sk-...", host="https://cloud.langfuse.com" # or self-hosted URL )
Create a trace for a user request
trace = langfuse.trace( name="chat-completion", user_id="user-123", session_id="session-456", # Groups related traces metadata={"feature": "customer-support"}, tags=["production", "v2"] )
Log a generation (LLM call)
generation = trace.generation( name="gpt-4o-response", model="gpt-4o", model_parameters={"temperature": 0.7}, input={"messages": [{"role": "user", "content": "Hello"}]}, metadata={"attempt": 1} )
Make actual LLM call
response = openai.chat.completions.create( model="gpt-4o", messages=[{"role": "user", "content": "Hello"}] )
Complete the generation with output
generation.end( output=response.choices[0].message.content, usage={ "input": response.usage.prompt_tokens, "output": response.usage.completion_tokens } )
Score the trace
trace.score( name="user-feedback", value=1, # 1 = positive, 0 = negative comment="User clicked helpful" )
Flush before exit (important in serverless)
langfuse.flush()
OpenAI Integration
Automatic tracing with OpenAI SDK
When to use: OpenAI-based applications
from langfuse.openai import openai
Drop-in replacement for OpenAI client
All calls automatically traced
response = openai.chat.completions.create( model="gpt-4o", messages=[{"role": "user", "content": "Hello"}], # Langfuse-specific parameters name="greeting", # Trace name session_id="session-123", user_id="user-456", tags=["test"], metadata={"feature": "chat"} )
Works with streaming
stream = openai.chat.completions.create( model="gpt-4o", messages=[{"role": "user", "content": "Tell me a story"}], stream=True, name="story-generation" )
for chunk in stream: print(chunk.choices[0].delta.content, end="")
Works with async
import asyncio from langfuse.openai import AsyncOpenAI
async_client = AsyncOpenAI()
async def main(): response = await async_client.chat.completions.create( model="gpt-4o", messages=[{"role": "user", "content": "Hello"}], name="async-greeting" )
LangChain Integration
Trace LangChain applications
When to use: LangChain-based applications
from langchain_openai import ChatOpenAI from langchain_core.prompts import ChatPromptTemplate from langfuse.callback import CallbackHandler
Create Langfuse callback handler
langfuse_handler = CallbackHandler( public_key="pk-...", secret_key="sk-...", host="https://cloud.langfuse.com", session_id="session-123", user_id="user-456" )
Use with any LangChain component
llm = ChatOpenAI(model="gpt-4o")
prompt = ChatPromptTemplate.from_messages([ ("system", "You are a helpful assistant."), ("user", "{input}") ])
chain = prompt | llm
Pass handler to invoke
response = chain.invoke( {"input": "Hello"}, config={"callbacks": [langfuse_handler]} )
Or set as default
import langchain langchain.callbacks.manager.set_handler(langfuse_handler)
Then all calls are traced
response = chain.invoke({"input": "Hello"})
Works with agents, retrievers, etc.
from langchain.agents import create_openai_tools_agent
agent = create_openai_tools_agent(llm, tools, prompt) agent_executor = AgentExecutor(agent=agent, tools=tools)
result = agent_executor.invoke( {"input": "What's the weather?"}, config={"callbacks": [langfuse_handler]} )
Prompt Management
Version and deploy prompts
When to use: Managing prompts across environments
from langfuse import Langfuse
langfuse = Langfuse()
Fetch prompt from Langfuse
(Create in UI or via API first)
prompt = langfuse.get_prompt("customer-support-v2")
Get compiled prompt with variables
compiled = prompt.compile( customer_name="John", issue="billing question" )
Use with OpenAI
response = openai.chat.completions.create( model=prompt.config.get("model", "gpt-4o"), messages=compiled, temperature=prompt.config.get("temperature", 0.7) )
Link generation to prompt version
trace = langfuse.trace(name="support-chat") generation = trace.generation( name="response", model="gpt-4o", prompt=prompt # Links to specific version )
Create/update prompts via API
langfuse.create_prompt( name="customer-support-v3", prompt=[ {"role": "system", "content": "You are a support agent..."}, {"role": "user", "content": "{{user_message}}"} ], config={ "model": "gpt-4o", "temperature": 0.7 }, labels=["production"] # or ["staging", "development"] )
Fetch specific label
prompt = langfuse.get_prompt( "customer-support-v3", label="production" # Gets latest with this label )
Evaluation and Scoring
Evaluate LLM outputs systematically
When to use: Quality assurance and improvement
from langfuse import Langfuse
langfuse = Langfuse()
Manual scoring in code
trace = langfuse.trace(name="qa-flow")
After getting response
trace.score( name="relevance", value=0.85, # 0-1 scale comment="Response addressed the question" )
trace.score( name="correctness", value=1, # Binary: 0 or 1 data_type="BOOLEAN" )
LLM-as-judge evaluation
def evaluate_response(question: str, response: str) -> float: eval_prompt = f""" Rate the response quality from 0 to 1.
Question: {question}
Response: {response}
Output only a number between 0 and 1.
"""
result = openai.chat.completions.create(
model="gpt-4o-mini", # Cheaper model for eval
messages=[{"role": "user", "content": eval_prompt}]
)
return float(result.choices[0].message.content.strip())
Score asynchronously
score = evaluate_response(question, response) trace.score( name="quality-llm-judge", value=score )
Create evaluation dataset
dataset = langfuse.create_dataset(name="support-qa-v1")
Add items to dataset
langfuse.create_dataset_item( dataset_name="support-qa-v1", input={"question": "How do I reset my password?"}, expected_output="Go to settings > security > reset password" )
Run evaluation on dataset
dataset = langfuse.get_dataset("support-qa-v1")
for item in dataset.items: # Generate response response = generate_response(item.input["question"])
# Link to dataset item
trace = langfuse.trace(name="eval-run")
trace.generation(
name="response",
input=item.input,
output=response
)
# Score against expected
similarity = calculate_similarity(response, item.expected_output)
trace.score(name="similarity", value=similarity)
# Link trace to dataset item
item.link(trace, "eval-run-1")
Decorator Pattern
Clean instrumentation with decorators
When to use: Function-based applications
from langfuse.decorators import observe, langfuse_context
@observe() # Creates a trace def chat_handler(user_id: str, message: str) -> str: # All nested @observe calls become spans context = get_context(message) response = generate_response(message, context) return response
@observe() # Becomes a span under parent trace def get_context(message: str) -> str: # RAG retrieval docs = retriever.get_relevant_documents(message) return "\n".join([d.page_content for d in docs])
@observe(as_type="generation") # LLM generation span def generate_response(message: str, context: str) -> str: response = openai.chat.completions.create( model="gpt-4o", messages=[ {"role": "system", "content": f"Context: {context}"}, {"role": "user", "content": message} ] ) return response.choices[0].message.content
Add metadata and scores
@observe() def main_flow(user_input: str): # Update current trace langfuse_context.update_current_trace( user_id="user-123", session_id="session-456", tags=["production"] )
result = process(user_input)
# Score the trace
langfuse_context.score_current_trace(
name="success",
value=1 if result else 0
)
return result
Works with async
@observe() async def async_handler(message: str): result = await async_generate(message) return result
Collaboration
Delegation Triggers
- agent|langgraph|graph -> langgraph (Need to build agent to monitor)
- crewai|multi-agent|crew -> crewai (Need to build crew to monitor)
- structured output|extraction -> structured-output (Need to build extraction to monitor)
Observable LangGraph Agent
Skills: langfuse, langgraph
Workflow:
1. Build agent with LangGraph
2. Add Langfuse callback handler
3. Trace all LLM calls and tool uses
4. Score outputs for quality
5. Monitor and iterate
Monitored RAG Pipeline
Skills: langfuse, structured-output
Workflow:
1. Build RAG with retrieval and generation
2. Trace retrieval and LLM calls
3. Score relevance and accuracy
4. Track costs and latency
5. Optimize based on data
Evaluated Agent System
Skills: langfuse, langgraph, structured-output
Workflow:
1. Build agent with structured outputs
2. Create evaluation dataset
3. Run evaluations with traces
4. Compare prompt versions
5. Deploy best performers
Related Skills
Works well with: langgraph, crewai, structured-output, autonomous-agents
When to Use
- User mentions or implies: langfuse
- User mentions or implies: llm observability
- User mentions or implies: llm tracing
- User mentions or implies: prompt management
- User mentions or implies: llm evaluation
- User mentions or implies: monitor llm
- User mentions or implies: debug llm