// Create LangChain agents with create_agent, define tools, and use middleware for human-in-the-loop and error handling.
| name | langchain-fundamentals |
| description | Create LangChain agents with create_agent, define tools, and use middleware for human-in-the-loop and error handling. |
<create_agent>
create_agent() is the recommended way to build agents. It handles the agent loop, tool execution, and state management.
| Parameter | Purpose | Example |
|---|---|---|
model | LLM to use | "anthropic:claude-sonnet-4-5" or model instance |
tools | List of tools | [search, calculator] |
system_prompt / systemPrompt | Agent instructions | "You are a helpful assistant" |
checkpointer | State persistence | MemorySaver() |
middleware | Processing hooks | [HumanInTheLoopMiddleware] (Python) / [humanInTheLoopMiddleware({...})] (TypeScript) |
| </create_agent> |
@tool def get_weather(location: str) -> str: """Get current weather for a location.
Args:
location: City name
"""
return f"Weather in {location}: Sunny, 72F"
agent = create_agent( model="anthropic:claude-sonnet-4-5", tools=[get_weather], system_prompt="You are a helpful assistant." )
result = agent.invoke({ "messages": [{"role": "user", "content": "What's the weather in Paris?"}] }) print(result["messages"][-1].content)
</python>
<typescript>
```typescript
import { createAgent } from "langchain";
import { tool } from "@langchain/core/tools";
import { z } from "zod";
const getWeather = tool(
async ({ location }) => `Weather in ${location}: Sunny, 72F`,
{
name: "get_weather",
description: "Get current weather for a location.",
schema: z.object({ location: z.string().describe("City name") }),
}
);
const agent = createAgent({
model: "anthropic:claude-sonnet-4-5",
tools: [getWeather],
systemPrompt: "You are a helpful assistant.",
});
const result = await agent.invoke({
messages: [{ role: "user", content: "What's the weather in Paris?" }],
});
console.log(result.messages[result.messages.length - 1].content);
checkpointer = MemorySaver()
agent = create_agent( model="anthropic:claude-sonnet-4-5", tools=[search], checkpointer=checkpointer, )
config = {"configurable": {"thread_id": "user-123"}} agent.invoke({"messages": [{"role": "user", "content": "My name is Alice"}]}, config=config) result = agent.invoke({"messages": [{"role": "user", "content": "What's my name?"}]}, config=config)
</python>
<typescript>
Add MemorySaver checkpointer to maintain conversation state across invocations.
```typescript
import { createAgent } from "langchain";
import { MemorySaver } from "@langchain/langgraph";
const checkpointer = new MemorySaver();
const agent = createAgent({
model: "anthropic:claude-sonnet-4-5",
tools: [search],
checkpointer,
});
const config = { configurable: { thread_id: "user-123" } };
await agent.invoke({ messages: [{ role: "user", content: "My name is Alice" }] }, config);
const result = await agent.invoke({ messages: [{ role: "user", content: "What's my name?" }] }, config);
// Agent remembers: "Your name is Alice"
Tools are functions that agents can call. Use the @tool decorator (Python) or tool() function (TypeScript).
@tool def calculate(expression: str) -> str: """Evaluate a mathematical expression.
Args:
expression: Math expression like "2 + 2" or "10 * 5"
"""
return str(eval(expression))
</python>
<typescript>
```typescript
import { tool } from "@langchain/core/tools";
import { z } from "zod";
const calculate = tool(
async ({ expression }) => String(eval(expression)),
{
name: "calculate",
description: "Evaluate a mathematical expression.",
schema: z.object({
expression: z.string().describe("Math expression like '2 + 2' or '10 * 5'"),
}),
}
);
Middleware intercepts the agent loop to add human approval, error handling, logging, and more. A deep understanding of middleware is essential for production agents — use HumanInTheLoopMiddleware (Python) / humanInTheLoopMiddleware (TypeScript) for approval workflows, and @wrap_tool_call (Python) / createMiddleware (TypeScript) for custom hooks.
Key imports:
from langchain.agents.middleware import HumanInTheLoopMiddleware, wrap_tool_call
import { humanInTheLoopMiddleware, createMiddleware } from "langchain";
Key patterns:
middleware=[HumanInTheLoopMiddleware(interrupt_on={"dangerous_tool": True})] — requires checkpointer + thread_idagent.invoke(Command(resume={"decisions": [{"type": "approve"}]}), config=config)@wrap_tool_call decorator (Python) or createMiddleware({ wrapToolCall: ... }) (TypeScript)
<structured_output>
Get typed, validated responses from agents using response_format or with_structured_output().
class ContactInfo(BaseModel): name: str email: str phone: str = Field(description="Phone number with area code")
agent = create_agent(model="gpt-4.1", tools=[search], response_format=ContactInfo) result = agent.invoke({"messages": [{"role": "user", "content": "Find contact for John"}]}) print(result["structured_response"]) # ContactInfo(name='John', ...)
from langchain_openai import ChatOpenAI model = ChatOpenAI(model="gpt-4.1") structured_model = model.with_structured_output(ContactInfo) response = structured_model.invoke("Extract: John, john@example.com, 555-1234")
</python>
<typescript>
```typescript
import { ChatOpenAI } from "@langchain/openai";
import { z } from "zod";
const ContactInfo = z.object({
name: z.string(),
email: z.string().email(),
phone: z.string().describe("Phone number with area code"),
});
// Model-level structured output
const model = new ChatOpenAI({ model: "gpt-4.1" });
const structuredModel = model.withStructuredOutput(ContactInfo);
const response = await structuredModel.invoke("Extract: John, john@example.com, 555-1234");
// { name: 'John', email: 'john@example.com', phone: '555-1234' }
<model_config>
create_agent accepts model strings ("anthropic:claude-sonnet-4-5", "openai:gpt-4.1") or model instances for custom settings:
from langchain_anthropic import ChatAnthropic
agent = create_agent(model=ChatAnthropic(model="claude-sonnet-4-5", temperature=0), tools=[...])
</model_config>
Clear descriptions help the agent know when to use each tool. ```python # WRONG: Vague or missing description @tool def bad_tool(input: str) -> str: """Does stuff.""" return "result"@tool def search(query: str) -> str: """Search the web for current information about a topic.
Use this when you need recent data or facts.
Args:
query: The search query (2-10 words recommended)
"""
return web_search(query)
</python>
<typescript>
Clear descriptions help the agent know when to use each tool.
```typescript
// WRONG: Vague description
const badTool = tool(async ({ input }) => "result", {
name: "bad_tool",
description: "Does stuff.", // Too vague!
schema: z.object({ input: z.string() }),
});
// CORRECT: Clear, specific description
const search = tool(async ({ query }) => webSearch(query), {
name: "search",
description: "Search the web for current information about a topic. Use this when you need recent data or facts.",
schema: z.object({
query: z.string().describe("The search query (2-10 words recommended)"),
}),
});
from langgraph.checkpoint.memory import MemorySaver
agent = create_agent( model="anthropic:claude-sonnet-4-5", tools=[search], checkpointer=MemorySaver(), ) config = {"configurable": {"thread_id": "session-1"}} agent.invoke({"messages": [{"role": "user", "content": "I'm Bob"}]}, config=config) agent.invoke({"messages": [{"role": "user", "content": "What's my name?"}]}, config=config)
</python>
<typescript>
Add checkpointer and thread_id for conversation memory across invocations.
```typescript
// WRONG: No persistence
const agent = createAgent({ model: "anthropic:claude-sonnet-4-5", tools: [search] });
await agent.invoke({ messages: [{ role: "user", content: "I'm Bob" }] });
await agent.invoke({ messages: [{ role: "user", content: "What's my name?" }] });
// Agent doesn't remember!
// CORRECT: Add checkpointer and thread_id
import { MemorySaver } from "@langchain/langgraph";
const agent = createAgent({
model: "anthropic:claude-sonnet-4-5",
tools: [search],
checkpointer: new MemorySaver(),
});
const config = { configurable: { thread_id: "session-1" } };
await agent.invoke({ messages: [{ role: "user", content: "I'm Bob" }] }, config);
await agent.invoke({ messages: [{ role: "user", content: "What's my name?" }] }, config);
// Agent remembers: "Your name is Bob"
result = agent.invoke( {"messages": [("user", "Do research")]}, config={"recursion_limit": 10}, # Stop after 10 steps )
</python>
<typescript>
Set recursionLimit in the invoke config to prevent runaway agent loops.
```typescript
// WRONG: No iteration limit
const result = await agent.invoke({ messages: [["user", "Do research"]] });
// CORRECT: Set recursionLimit in config
const result = await agent.invoke(
{ messages: [["user", "Do research"]] },
{ recursionLimit: 10 }, // Stop after 10 steps
);
result = agent.invoke({"messages": [{"role": "user", "content": "Hello"}]}) print(result["messages"][-1].content) # Last message content
</python>
<typescript>
Access the messages array from the result, not result.content directly.
```typescript
// WRONG: Trying to access result.content directly
const result = await agent.invoke({ messages: [{ role: "user", content: "Hello" }] });
console.log(result.content); // undefined!
// CORRECT: Access messages from result object
const result = await agent.invoke({ messages: [{ role: "user", content: "Hello" }] });
console.log(result.messages[result.messages.length - 1].content); // Last message content
INVOKE THIS SKILL when you need human-in-the-loop approval, custom middleware, or structured output. Covers HumanInTheLoopMiddleware for human approval of dangerous tool calls, creating custom middleware with hooks, Command resume patterns, and structured output with Pydantic/Zod.
INVOKE THIS SKILL at the START of any LangChain/LangGraph/Deep Agents project, before writing any agent code. Determines which framework layer is right for the task: LangChain, LangGraph, Deep Agents, or a combination. Must be consulted before other agent skills.
ALWAYS START HERE for any LangChain, Deep Agents, or LangGraph agent building project. Required starting point before choosing other skills or writing any code. Covers framework selection (LangChain vs LangGraph vs Deep Agents), agent archetypes, dependency setup, and which skills to load next based on your decisions.
INVOKE THIS SKILL when building ANY Deep Agents application. Covers create_deep_agent(), harness architecture, SKILL.md format, and configuration options.
INVOKE THIS SKILL when your Deep Agent needs memory, persistence, or filesystem access. Covers StateBackend (ephemeral), StoreBackend (persistent), FilesystemMiddleware, and CompositeBackend for routing.
INVOKE THIS SKILL when using subagents, task planning, or human approval in Deep Agents. Covers SubAgentMiddleware, TodoList for planning, and HITL interrupts.