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- 26 条
档案由构建时根据 SKILL.md 与安装命令自动衍生,可能与作者实际意图存在差异。
需要注意: 未限定 allowed-tools,默认拥有全部工具权限。
---
name: langchain-architecture
description: Design LLM applications using LangChain 1.x and LangGraph for agents, memory, and tool integrati…
category: 设计与多媒体
runtime: Node.js / Python
---
# langchain-architecture 输出预览
## PART A: 任务判断
- 适用问题:视觉内容、演示材料、信息图或设计交付。
- 输入要求:目标材料、限制条件、期望输出和验收方式。
- 证据边界:围绕“When to Use This Skill / Package Structure (LangChain 1.x) / Core Concepts”读取原文规则,不把推断写成作者承诺。
## PART B: 执行结果
- **01** 任务判断:确认你的需求是否属于视觉内容、演示材料、信息图或设计交付,并标出输入、限制和预期结果。
- **02** 执行计划:优先按“When to Use This Skill / Package Structure (LangChain 1.x) / Core Concepts”拆成步骤,说明每一步会读取什么、修改什么、产出什么。
- **03** 交付结果:给出可复制的命令、文件改动、检查清单或内容草稿,并说明如何继续迭代。
- **04** 风险边界:结合 读取文件、写入/修改文件、执行终端命令、会按任务需要访问外部网络、需要准备 Vendor-specific API Key 给出执行前确认项。
## Running Rules
- 读取文件、写入/修改文件、执行终端命令;会按任务需要访问外部网络;需要准备 Vendor-specific API Key。
- 先小样例验证,再放大到真实任务。
- 交付时同时给结果、检查口径和下一步迭代建议。 原文没有稳定的斜杠命令要求。安装验证后通常全局生效,直接在对话里点名这个 Skill 并描述任务即可。
告诉 Agent 目标文件或材料、期望结果、不可改范围、是否允许联网或执行命令。本 Skill 的权限画像是:读取文件、写入/修改文件、执行终端命令。
先用一个小任务确认它会围绕“When to Use This Skill / Package Structure (LangChain 1.x) / Core Concepts”工作;涉及文件或命令时,先看 diff、日志、预览或测试结果。
检查最终产物是否包含明确结果、必要证据和下一步动作;如果输出泛泛而谈,就补充输入、边界和验收标准后重跑。
---
name: langchain-architecture
description: Design LLM applications using LangChain 1.x and LangGraph for agents, memory, and tool integrati…
category: 设计与多媒体
source: wshobson/agents
---
# langchain-architecture
## 什么时候使用
- 把设计与视觉方向的常用动作沉淀成 Agent 可调用的技能 适合处理界面、视觉、封面、信息图或演示材料交付,核心价值是把输入、判断、执行、验证和交付边界固定下来,避免 Agent 泛泛回答。 把任务拆成可执行、可检查、可继续迭代的步骤…
- 面向视觉内容、演示材料、信息图或设计交付,优先处理能明确输入、步骤和验收标准的工作。
## 需要提供什么
- 目标材料、目录范围、期望结果和不可改动内容。
- 是否允许联网、执行命令、读写文件或调用外部服务。
## 执行规则
- 围绕「When to Use This Skill / Package Structure (LangChain 1.x) / Core Concepts」组织步骤,不把推断写成作者事实。
- 读取文件、写入/修改文件、执行终端命令;会按任务需要访问外部网络;需要准备 Vendor-specific API Key。
- 先跑小样例,确认结果可检查后再扩大任务范围。
## 输出要求
- 给出最终产物、关键证据、验证方式和下一步动作。
- 信息不足时标记 unknown,不编造命令、平台或依赖。 作者原文负责流程事实;仓库文件负责来源和命令;流狐只补充适用场景、限制和质量判断。
skill "langchain-architecture" {
输入层 -> 用户目标 + 目标文件 + 禁止范围 + 验收标准
上下文层 -> When to Use This Skill / Package Structure (LangChain 1.x) / Core Concepts
规则层 -> SKILL.md 触发条件 / 执行顺序 / 输出格式
运行层 -> Node.js / Python | 读取文件、写入/修改文件、执行终端命令 | 会按任务需要访问外部网络
安全层 -> 需要准备 Vendor-specific API Key + 小任务验证 + diff / 日志复核
输出层 -> 可复制结果 + 检查清单 + 下一步迭代
} LangChain & LangGraph Architecture
Master modern LangChain 1.x and LangGraph for building sophisticated LLM applications with agents, state management, memory, and tool integration.
When to Use This Skill
- Building autonomous AI agents with tool access
- Implementing complex multi-step LLM workflows
- Managing conversation memory and state
- Integrating LLMs with external data sources and APIs
- Creating modular, reusable LLM application components
- Implementing document processing pipelines
- Building production-grade LLM applications
Package Structure (LangChain 1.x)
langchain (1.2.x) # High-level orchestration
langchain-core (1.2.x) # Core abstractions (messages, prompts, tools)
langchain-community # Third-party integrations
langgraph # Agent orchestration and state management
langchain-openai # OpenAI integrations
langchain-anthropic # Anthropic/Claude integrations
langchain-voyageai # Voyage AI embeddings
langchain-pinecone # Pinecone vector store
Core Concepts
1. LangGraph Agents
LangGraph is the standard for building agents in 2026. It provides:
Key Features:
- StateGraph: Explicit state management with typed state
- Durable Execution: Agents persist through failures
- Human-in-the-Loop: Inspect and modify state at any point
- Memory: Short-term and long-term memory across sessions
- Checkpointing: Save and resume agent state
Agent Patterns:
- ReAct: Reasoning + Acting with
create_react_agent - Plan-and-Execute: Separate planning and execution nodes
- Multi-Agent: Supervisor routing between specialized agents
- Tool-Calling: Structured tool invocation with Pydantic schemas
2. State Management
LangGraph uses TypedDict for explicit state:
from typing import Annotated, TypedDict
from langgraph.graph import MessagesState
# Simple message-based state
class AgentState(MessagesState):
"""Extends MessagesState with custom fields."""
context: Annotated[list, "retrieved documents"]
# Custom state for complex agents
class CustomState(TypedDict):
messages: Annotated[list, "conversation history"]
context: Annotated[dict, "retrieved context"]
current_step: str
results: list
3. Memory Systems
Modern memory implementations:
- ConversationBufferMemory: Stores all messages (short conversations)
- ConversationSummaryMemory: Summarizes older messages (long conversations)
- ConversationTokenBufferMemory: Token-based windowing
- VectorStoreRetrieverMemory: Semantic similarity retrieval
- LangGraph Checkpointers: Persistent state across sessions
4. Document Processing
Loading, transforming, and storing documents:
Components:
- Document Loaders: Load from various sources
- Text Splitters: Chunk documents intelligently
- Vector Stores: Store and retrieve embeddings
- Retrievers: Fetch relevant documents
5. Callbacks & Tracing
LangSmith is the standard for observability:
- Request/response logging
- Token usage tracking
- Latency monitoring
- Error tracking
- Trace visualization
Quick Start
Modern ReAct Agent with LangGraph
from langgraph.prebuilt import create_react_agent
from langgraph.checkpoint.memory import MemorySaver
from langchain_anthropic import ChatAnthropic
from langchain_core.tools import tool
import ast
import operator
# Initialize LLM (Claude Sonnet 4.6 recommended)
llm = ChatAnthropic(model="claude-sonnet-4-6", temperature=0)
# Define tools with Pydantic schemas
@tool
def search_database(query: str) -> str:
"""Search internal database for information."""
# Your database search logic
return f"Results for: {query}"
@tool
def calculate(expression: str) -> str:
"""Safely evaluate a mathematical expression.
Supports: +, -, *, /, **, %, parentheses
Example: '(2 + 3) * 4' returns '20'
"""
# Safe math evaluation using ast
allowed_operators = {
ast.Add: operator.add,
ast.Sub: operator.sub,
ast.Mult: operator.mul,
ast.Div: operator.truediv,
ast.Pow: operator.pow,
ast.Mod: operator.mod,
ast.USub: operator.neg,
}
def _eval(node):
if isinstance(node, ast.Constant):
return node.value
elif isinstance(node, ast.BinOp):
left = _eval(node.left)
right = _eval(node.right)
return allowed_operators[type(node.op)](left, right)
elif isinstance(node, ast.UnaryOp):
operand = _eval(node.operand)
return allowed_operators[type(node.op)](operand)
else:
raise ValueError(f"Unsupported operation: {type(node)}")
try:
tree = ast.parse(expression, mode='eval')
return str(_eval(tree.body))
except Exception as e:
return f"Error: {e}"
tools = [search_database, calculate]
# Create checkpointer for memory persistence
checkpointer = MemorySaver()
# Create ReAct agent
agent = create_react_agent(
llm,
tools,
checkpointer=checkpointer
)
# Run agent with thread ID for memory
config = {"configurable": {"thread_id": "user-123"}}
result = await agent.ainvoke(
{"messages": [("user", "Search for Python tutorials and calculate 25 * 4")]},
config=config
)
Detailed patterns and worked examples
Detailed pattern documentation lives in references/details.md. Read that file when the navigation tier above is insufficient.
Testing Strategies
import pytest
from unittest.mock import AsyncMock, patch
@pytest.mark.asyncio
async def test_agent_tool_selection():
"""Test agent selects correct tool."""
with patch.object(llm, 'ainvoke') as mock_llm:
mock_llm.return_value = AsyncMock(content="Using search_database")
result = await agent.ainvoke({
"messages": [("user", "search for documents")]
})
# Verify tool was called
assert "search_database" in str(result)
@pytest.mark.asyncio
async def test_memory_persistence():
"""Test memory persists across invocations."""
config = {"configurable": {"thread_id": "test-thread"}}
# First message
await agent.ainvoke(
{"messages": [("user", "Remember: the code is 12345")]},
config
)
# Second message should remember
result = await agent.ainvoke(
{"messages": [("user", "What was the code?")]},
config
)
assert "12345" in result["messages"][-1].content
Performance Optimization
1. Caching with Redis
from langchain_community.cache import RedisCache
from langchain_core.globals import set_llm_cache
import redis
redis_client = redis.Redis.from_url("redis://localhost:6379")
set_llm_cache(RedisCache(redis_client))
2. Async Batch Processing
import asyncio
from langchain_core.documents import Document
async def process_documents(documents: list[Document]) -> list:
"""Process documents in parallel."""
tasks = [process_single(doc) for doc in documents]
return await asyncio.gather(*tasks)
async def process_single(doc: Document) -> dict:
"""Process a single document."""
chunks = text_splitter.split_documents([doc])
embeddings = await embeddings_model.aembed_documents(
[c.page_content for c in chunks]
)
return {"doc_id": doc.metadata.get("id"), "embeddings": embeddings}
3. Connection Pooling
from langchain_pinecone import PineconeVectorStore
from pinecone import Pinecone
# Reuse Pinecone client
pc = Pinecone(api_key=os.environ["PINECONE_API_KEY"])
index = pc.Index("my-index")
# Create vector store with existing index
vectorstore = PineconeVectorStore(index=index, embedding=embeddings)
先判断是否适合
作者设计意图
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边界和复核