Files
crewAI/docs/v1.11.0/en/learn/using-annotations.mdx
Lucas Gomide a237ebabba feat: adopt directory-based docs versioning with Edge channel (#6202)
* feat: adopt directory-based docs versioning with Edge channel

Switch docs.crewai.com from navigation-only versioning (every version
selector entry rendered the same docs/<lang>/* source files) to
Mintlify's directory-based versioning so each version selector entry
renders its own snapshot. Add an "Edge" channel under docs/edge/<lang>/*
that always reflects main HEAD for unreleased work, eliminating
pre-release leakage onto frozen release labels. External links to
canonical /<lang>/* URLs are preserved via wildcard redirects that
always land on the current default version.

Layout:
- docs/edge/<lang>/*         rolling source (you edit here)
- docs/edge/enterprise-api.*.yaml
- docs/v<X.Y.Z>/<lang>/*     frozen, immutable snapshots
- docs/v<X.Y.Z>/enterprise-api.*.yaml
- docs/images/               shared, append-only
- docs/docs.json             nav + redirects

URLs follow the Mintlify-idiomatic shape: /edge/<lang>/<page> for
Edge, /v<X.Y.Z>/<lang>/<page> for every frozen snapshot. The wildcard
redirects /<lang>/:slug* -> /<default>/<lang>/:slug* keep stale links
working, and every freeze rewrites them (plus all per-section/per-page
redirects) so destinations always resolve to the current default
without depending on a second redirect hop.

Release flow integration (devtools release):
- New module crewai_devtools.docs_versioning.freeze() materialises
  docs/v<X.Y.Z>/ from docs/edge/, rewrites openapi: refs inside the
  snapshot, inserts the version into every language block in
  docs.json, and refreshes all redirect destinations.
- _update_docs_and_create_pr() in cli.py now calls that freeze during
  Phase 2 of devtools release. Edge changelogs are updated first (so
  the snapshot freeze picks them up), then the snapshot is staged
  alongside docs.json, branched as docs/freeze-v<X.Y.Z>, and the PR
  is titled [docs-freeze] docs: snapshot and changelog for v<X.Y.Z>
  — the title prefix the new CI guard reads.
- The PR still gates tag, GitHub release, PyPI publish, and the
  enterprise release as before; no new PRs are added.
- Pre-releases (1.X.YaN, 1.X.YbN, ...) skip the snapshot — they ride
  Edge — and the docs PR title omits the [docs-freeze] prefix.
- docs_check (AI-generated docs scaffolding) writes to
  docs/edge/<lang>/* so newly-generated unreleased docs land in Edge
  and never accidentally touch a frozen snapshot.

Migration scripts (one-shot):
- scripts/docs/freeze_historical_versions.py reconstructs all 16
  historical snapshots (v1.10.0 .. v1.14.7) from git tags via
  git archive | tar, rewriting openapi: MDX refs so each snapshot
  reads its own enterprise-api YAML rather than the live one.
- scripts/docs/prefix_version_paths.py one-shot-migrates docs.json:
  rewrites every page path in 16 versioned blocks to point under
  docs/v<X.Y.Z>/, inserts a new Edge entry per language, tags
  v1.14.7 as Latest (default), prunes pages whose target file
  doesn't exist in the snapshot (e.g. docs/ar/ didn't exist before
  v1.12.0), and writes the wildcard + per-section redirects.
- scripts/docs/freeze_current_edge.py is now a thin CLI wrapper
  around docs_versioning.freeze for manual one-off freezes (e.g.
  retroactively snapshotting a forgotten release).

CI guards (.github/workflows/docs-snapshots.yml):
- Frozen snapshots under docs/v[0-9]*/ are immutable; only PRs whose
  title contains [docs-freeze] (i.e. release-cut PRs generated by
  devtools release or the manual wrapper) may modify them.
- Images under docs/images/ are append-only since snapshots share a
  single image directory. Deleting or renaming an image breaks every
  historical snapshot that still references it.

Restored docs/images/crewai-otel-export.png from PR #3673; it was
deleted in PR #4908 but v1.10.0 / v1.10.1 snapshots still reference
it. Restoring instead of editing the snapshots preserves historical
rendering fidelity and validates the new append-only rule
retroactively.

Tests:
- lib/devtools/tests/test_docs_versioning.py covers the freeze: file
  copy, openapi rewrite, version insertion, default demotion, redirect
  upserts, per-section redirect rewriting, idempotency, and invalid
  inputs.

Verified locally with mintlify broken-links: 0 broken links across
the full site (Edge + 16 frozen versions, 4 locales).

AGENTS.md (repo root) is the contributor guide for the new model;
RELEASING.md is the release-cut runbook; README's Contribution
section links to both.

Co-authored-by: Cursor <cursoragent@cursor.com>

* style: resolve linter issues

---------

Co-authored-by: Cursor <cursoragent@cursor.com>
2026-06-17 11:56:59 -04:00

152 lines
6.1 KiB
Plaintext

---
title: "Using Annotations in crew.py"
description: "Learn how to use annotations to properly structure agents, tasks, and components in CrewAI"
icon: "at"
mode: "wide"
---
This guide explains how to use annotations to properly reference **agents**, **tasks**, and other components in the `crew.py` file.
## Introduction
Annotations in the CrewAI framework are used to decorate classes and methods, providing metadata and functionality to various components of your crew. These annotations help in organizing and structuring your code, making it more readable and maintainable.
## Available Annotations
The CrewAI framework provides the following annotations:
- `@CrewBase`: Used to decorate the main crew class.
- `@agent`: Decorates methods that define and return Agent objects.
- `@task`: Decorates methods that define and return Task objects.
- `@crew`: Decorates the method that creates and returns the Crew object.
- `@llm`: Decorates methods that initialize and return Language Model objects.
- `@tool`: Decorates methods that initialize and return Tool objects.
- `@callback`: Used for defining callback methods.
- `@output_json`: Used for methods that output JSON data.
- `@output_pydantic`: Used for methods that output Pydantic models.
- `@cache_handler`: Used for defining cache handling methods.
## Usage Examples
Let's go through examples of how to use these annotations:
### 1. Crew Base Class
```python
@CrewBase
class LinkedinProfileCrew():
"""LinkedinProfile crew"""
agents_config = 'config/agents.yaml'
tasks_config = 'config/tasks.yaml'
```
The `@CrewBase` annotation is used to decorate the main crew class. This class typically contains configurations and methods for creating agents, tasks, and the crew itself.
<Tip>
`@CrewBase` does more than register the class:
- **Configuration bootstrapping:** looks for `agents_config` and `tasks_config` (defaulting to `config/agents.yaml` and `config/tasks.yaml`) beside the class file, loads them at instantiation, and safely falls back to empty dicts if files are missing.
- **Decorator orchestration:** keeps memoized references to every method marked with `@agent`, `@task`, `@before_kickoff`, or `@after_kickoff` so they are instantiated once per crew and executed in declaration order.
- **Hook wiring:** automatically attaches the preserved kickoff hooks to the `Crew` object returned by the `@crew` method, making them run before and after `.kickoff()`.
- **MCP integration:** when the class defines `mcp_server_params`, `get_mcp_tools()` lazily starts an MCP server adapter, hydrates the declared tools, and an internal after-kickoff hook stops the adapter. See [MCP overview](/en/mcp/overview) for adapter configuration details.
</Tip>
### 2. Tool Definition
```python
@tool
def myLinkedInProfileTool(self):
return LinkedInProfileTool()
```
The `@tool` annotation is used to decorate methods that return tool objects. These tools can be used by agents to perform specific tasks.
### 3. LLM Definition
```python
@llm
def groq_llm(self):
api_key = os.getenv('api_key')
return ChatGroq(api_key=api_key, temperature=0, model_name="mixtral-8x7b-32768")
```
The `@llm` annotation is used to decorate methods that initialize and return Language Model objects. These LLMs are used by agents for natural language processing tasks.
### 4. Agent Definition
```python
@agent
def researcher(self) -> Agent:
return Agent(
config=self.agents_config['researcher']
)
```
The `@agent` annotation is used to decorate methods that define and return Agent objects.
### 5. Task Definition
```python
@task
def research_task(self) -> Task:
return Task(
config=self.tasks_config['research_linkedin_task'],
agent=self.researcher()
)
```
The `@task` annotation is used to decorate methods that define and return Task objects. These methods specify the task configuration and the agent responsible for the task.
### 6. Crew Creation
```python
@crew
def crew(self) -> Crew:
"""Creates the LinkedinProfile crew"""
return Crew(
agents=self.agents,
tasks=self.tasks,
process=Process.sequential,
verbose=True
)
```
The `@crew` annotation is used to decorate the method that creates and returns the `Crew` object. This method assembles all the components (agents and tasks) into a functional crew.
## YAML Configuration
The agent configurations are typically stored in a YAML file. Here's an example of how the `agents.yaml` file might look for the researcher agent:
```yaml
researcher:
role: >
LinkedIn Profile Senior Data Researcher
goal: >
Uncover detailed LinkedIn profiles based on provided name {name} and domain {domain}
Generate a Dall-E image based on domain {domain}
backstory: >
You're a seasoned researcher with a knack for uncovering the most relevant LinkedIn profiles.
Known for your ability to navigate LinkedIn efficiently, you excel at gathering and presenting
professional information clearly and concisely.
allow_delegation: False
verbose: True
llm: groq_llm
tools:
- myLinkedInProfileTool
- mySerperDevTool
- myDallETool
```
This YAML configuration corresponds to the researcher agent defined in the `LinkedinProfileCrew` class. The configuration specifies the agent's role, goal, backstory, and other properties such as the LLM and tools it uses.
Note how the `llm` and `tools` in the YAML file correspond to the methods decorated with `@llm` and `@tool` in the Python class.
## Best Practices
- **Consistent Naming**: Use clear and consistent naming conventions for your methods. For example, agent methods could be named after their roles (e.g., researcher, reporting_analyst).
- **Environment Variables**: Use environment variables for sensitive information like API keys.
- **Flexibility**: Design your crew to be flexible by allowing easy addition or removal of agents and tasks.
- **YAML-Code Correspondence**: Ensure that the names and structures in your YAML files correspond correctly to the decorated methods in your Python code.
By following these guidelines and properly using annotations, you can create well-structured and maintainable crews using the CrewAI framework.