Files
crewAI/docs/edge/en/learn/multimodal-agents.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

142 lines
5.0 KiB
Plaintext

---
title: Using Multimodal Agents
description: Learn how to enable and use multimodal capabilities in your agents for processing images and other non-text content within the CrewAI framework.
icon: video
mode: "wide"
---
## Using Multimodal Agents
CrewAI supports multimodal agents that can process both text and non-text content like images. This guide will show you how to enable and use multimodal capabilities in your agents.
### Enabling Multimodal Capabilities
To create a multimodal agent, simply set the `multimodal` parameter to `True` when initializing your agent:
```python
from crewai import Agent
agent = Agent(
role="Image Analyst",
goal="Analyze and extract insights from images",
backstory="An expert in visual content interpretation with years of experience in image analysis",
multimodal=True # This enables multimodal capabilities
)
```
When you set `multimodal=True`, the agent is automatically configured with the necessary tools for handling non-text content, including the `AddImageTool`.
### Working with Images
The multimodal agent comes pre-configured with the `AddImageTool`, which allows it to process images. You don't need to manually add this tool - it's automatically included when you enable multimodal capabilities.
Here's a complete example showing how to use a multimodal agent to analyze an image:
```python
from crewai import Agent, Task, Crew
# Create a multimodal agent
image_analyst = Agent(
role="Product Analyst",
goal="Analyze product images and provide detailed descriptions",
backstory="Expert in visual product analysis with deep knowledge of design and features",
multimodal=True
)
# Create a task for image analysis
task = Task(
description="Analyze the product image at https://example.com/product.jpg and provide a detailed description",
expected_output="A detailed description of the product image",
agent=image_analyst
)
# Create and run the crew
crew = Crew(
agents=[image_analyst],
tasks=[task]
)
result = crew.kickoff()
```
### Advanced Usage with Context
You can provide additional context or specific questions about the image when creating tasks for multimodal agents. The task description can include specific aspects you want the agent to focus on:
```python
from crewai import Agent, Task, Crew
# Create a multimodal agent for detailed analysis
expert_analyst = Agent(
role="Visual Quality Inspector",
goal="Perform detailed quality analysis of product images",
backstory="Senior quality control expert with expertise in visual inspection",
multimodal=True # AddImageTool is automatically included
)
# Create a task with specific analysis requirements
inspection_task = Task(
description="""
Analyze the product image at https://example.com/product.jpg with focus on:
1. Quality of materials
2. Manufacturing defects
3. Compliance with standards
Provide a detailed report highlighting any issues found.
""",
expected_output="A detailed report highlighting any issues found",
agent=expert_analyst
)
# Create and run the crew
crew = Crew(
agents=[expert_analyst],
tasks=[inspection_task]
)
result = crew.kickoff()
```
### Tool Details
When working with multimodal agents, the `AddImageTool` is automatically configured with the following schema:
```python
class AddImageToolSchema:
image_url: str # Required: The URL or path of the image to process
action: Optional[str] = None # Optional: Additional context or specific questions about the image
```
The multimodal agent will automatically handle the image processing through its built-in tools, allowing it to:
- Access images via URLs or local file paths
- Process image content with optional context or specific questions
- Provide analysis and insights based on the visual information and task requirements
### Best Practices
When working with multimodal agents, keep these best practices in mind:
1. **Image Access**
- Ensure your images are accessible via URLs that the agent can reach
- For local images, consider hosting them temporarily or using absolute file paths
- Verify that image URLs are valid and accessible before running tasks
2. **Task Description**
- Be specific about what aspects of the image you want the agent to analyze
- Include clear questions or requirements in the task description
- Consider using the optional `action` parameter for focused analysis
3. **Resource Management**
- Image processing may require more computational resources than text-only tasks
- Some language models may require base64 encoding for image data
- Consider batch processing for multiple images to optimize performance
4. **Environment Setup**
- Verify that your environment has the necessary dependencies for image processing
- Ensure your language model supports multimodal capabilities
- Test with small images first to validate your setup
5. **Error Handling**
- Implement proper error handling for image loading failures
- Have fallback strategies for when image processing fails
- Monitor and log image processing operations for debugging