| name | excalidraw-skill |
| description | Programmatic canvas toolkit for creating, editing, and refining Excalidraw diagrams via MCP tools with real-time canvas sync. Use when an agent needs to (1) draw or lay out diagrams on a live canvas, (2) iteratively refine diagrams using describe_scene and get_canvas_screenshot to see its own work, (3) export/import .excalidraw files or PNG/SVG images, (4) save/restore canvas snapshots, (5) convert Mermaid to Excalidraw, or (6) perform element-level CRUD, alignment, distribution, grouping, duplication, and locking. Requires a running canvas server (EXPRESS_SERVER_URL, default http://localhost:3000). |
Excalidraw Skill
Step 0: Detect Connection Mode
Before doing anything, determine which mode is available. Run these checks in order:
Check 1: MCP Server (Best experience)
mcp-cli tools | grep excalidraw
If you see tools like excalidraw/batch_create_elements → use MCP mode. Call MCP tools directly.
Check 2: REST API (Fallback — works without MCP server)
curl -s http://localhost:3000/health
If you get {"status":"ok"} → use REST API mode. Use HTTP endpoints (curl / fetch) from the cheatsheet.
Check 3: Nothing works → Guide user to install
If neither works, tell the user:
The Excalidraw canvas server is not running. To set up:
- Clone:
git clone https://github.com/yctimlin/mcp_excalidraw && cd mcp_excalidraw
- Build:
npm ci && npm run build
- Start canvas:
HOST=0.0.0.0 PORT=3000 npm run canvas
- Open
http://localhost:3000 in a browser
- (Recommended) Install the MCP server for the best experience:
claude mcp add excalidraw -s user -e EXPRESS_SERVER_URL=http://localhost:3000 -- node /path/to/mcp_excalidraw/dist/index.js
MCP vs REST API Quick Reference
| Operation | MCP Tool | REST API Equivalent |
|---|
| Create elements | batch_create_elements | POST /api/elements/batch with {"elements": [...]} |
| Get all elements | query_elements | GET /api/elements |
| Get one element | get_element | GET /api/elements/:id |
| Update element | update_element | PUT /api/elements/:id |
| Delete element | delete_element | DELETE /api/elements/:id |
| Clear canvas | clear_canvas | DELETE /api/elements/clear |
| Describe scene | describe_scene | GET /api/elements (parse manually) |
| Export scene | export_scene | GET /api/elements (save to file) |
| Import scene | import_scene | POST /api/elements/sync with {"elements": [...]} |
| Snapshot | snapshot_scene | POST /api/snapshots with {"name": "..."} |
| Restore snapshot | restore_snapshot | GET /api/snapshots/:name then POST /api/elements/sync |
| Screenshot | get_canvas_screenshot | Only via MCP (needs browser) |
| Design guide | read_diagram_guide | Not available — see cheatsheet for guidelines |
| Viewport | set_viewport | POST /api/viewport (needs browser) |
| Export image | export_to_image | POST /api/export/image (needs browser) |
| Export URL | export_to_excalidraw_url | Only via MCP |
REST API Gotchas (Critical — read before using REST API)
- Labels: Use
"label": {"text": "My Label"} (not "text": "My Label"). MCP tools auto-convert, REST API does not.
- Arrow binding: Use
"start": {"id": "svc-a"}, "end": {"id": "svc-b"} (not "startElementId"/"endElementId"). MCP tools accept startElementId and convert, REST API requires the start/end object format directly.
- fontFamily: Must be a string (e.g.
"1") or omit it entirely. Do NOT pass a number like 1.
- Updating labels: When updating a shape via
PUT /api/elements/:id, include the full label in the update body to preserve it. Omitting label from the update won't delete it, but re-sending ensures it renders correctly.
- Screenshot in REST mode:
POST /api/export/image returns {"data": "<base64>"}. Save to file and read it back for visual verification. Requires browser open.
Quality Gate (MANDATORY — read before creating any diagram)
After EVERY iteration (each batch of elements added), you MUST run a quality check before proceeding. NEVER say "looks great" unless ALL checks pass.
Quality Checklist — verify ALL before adding more elements:
- Text truncation: Is ALL text fully visible? Labels must fit inside their shapes. If text is cut off or wrapping badly → increase
width and/or height.
- Overlap: Do ANY elements overlap each other? Check that no rectangles, ellipses, or text elements share the same space. Background zones must fully contain their children with padding.
- Arrow crossing: Do arrows cross through unrelated elements or overlap with text labels? If yes → use curved/elbowed arrows with waypoints to route around obstacles (see "Arrow Routing" section). Never accept crossing arrows.
- Arrow-text overlap: Do any arrow labels ("charge", "event", etc.) overlap with shapes? Arrow labels are positioned at the midpoint — if they overlap, either remove the label, shorten it, or adjust the arrow path.
- Spacing: Is there at least 40px gap between elements? Cramped layouts are unreadable.
- Readability: Can all labels be read at normal zoom? Font size >= 16 for body text, >= 20 for titles.
If ANY issue is found:
- STOP adding new elements
- Fix the issue first (resize, reposition, delete and recreate)
- Re-verify with a new screenshot
- Only proceed to next iteration after ALL quality checks pass
Sizing Rules (prevent truncation):
- Shape width:
max(160, labelTextLength * 9) pixels. For multi-word labels like "API Gateway (Kong)", count all characters.
- Shape height: 60px for single line, 80px for 2 lines, 100px for 3 lines.
- Background zones: Add 50px padding on ALL sides around contained elements.
- Element spacing: 60px vertical between tiers, 40px horizontal between siblings.
- Side panels: Place at least 80px away from main diagram elements.
- Arrow labels: Keep labels short (1-2 words). Long arrow labels overlap with other elements.
Layout Planning (prevent overlap):
Before creating elements, plan your coordinate grid on paper first:
- Tier 1 (y=50-130): Client apps
- Tier 2 (y=200-280): Gateway/Edge
- Tier 3 (y=350-440): Services (spread wide: each service ~180px apart)
- Tier 4 (y=510-590): Data stores
- Side panels: x < 0 (left) or x > mainDiagramRight + 80 (right)
Do NOT place side panels (observability, external APIs) at the same x-range as the main diagram — they WILL overlap.
Quick Start
- Run Step 0 above to detect your connection mode.
- Open the canvas URL in a browser (required for image export/screenshot).
- MCP mode: Use MCP tools for all operations. REST mode: Use HTTP endpoints from cheatsheet.
- For full tool/endpoint reference, read
references/cheatsheet.md.
Workflow: Draw A Diagram
MCP Mode
- Call
read_diagram_guide first to load design best practices.
- Plan your coordinate grid (see Quality Gate → Layout Planning) before writing any JSON.
- Optional:
clear_canvas to start fresh.
- Use
batch_create_elements with shapes AND arrows in one call.
- Assign custom
id to shapes (e.g. "id": "auth-svc"). Set text field to label shapes.
- Size shapes for their text — use
width: max(160, textLength * 9).
- Bind arrows using
startElementId / endElementId — arrows auto-route.
set_viewport with scrollToContent: true to auto-fit the diagram.- Run Quality Checklist —
get_canvas_screenshot and critically evaluate. Fix issues before proceeding.
REST API Mode
- Read
references/cheatsheet.md for design guidelines.
- Plan your coordinate grid (see Quality Gate → Layout Planning) before writing any JSON.
- Optional:
curl -X DELETE http://localhost:3000/api/elements/clear
- Create elements in one call (use
@file.json for large payloads):
curl -X POST http://localhost:3000/api/elements/batch \
-H "Content-Type: application/json" \
-d '{"elements": [
{"id": "svc-a", "type": "rectangle", "x": 0, "y": 0, "width": 160, "height": 60, "label": {"text": "Service A"}},
{"id": "svc-b", "type": "rectangle", "x": 0, "y": 200, "width": 160, "height": 60, "label": {"text": "Service B"}},
{"type": "arrow", "x": 0, "y": 0, "start": {"id": "svc-a"}, "end": {"id": "svc-b"}}
]}'
- Use
"label": {"text": "..."} for shape labels (not "text": "...").
- Bind arrows with
"start": {"id": "..."} / "end": {"id": "..."} — server auto-routes edges.
- Size shapes for their text — use
width: max(160, labelTextLength * 9).
- Run Quality Checklist — take screenshot, critically evaluate. Fix issues before adding more elements.
Arrow Binding (Recommended)
Bind arrows to shapes for auto-routed edges. The format differs between MCP and REST API:
MCP Mode — use startElementId / endElementId:
{"elements": [
{"id": "svc-a", "type": "rectangle", "x": 0, "y": 0, "width": 120, "height": 60, "text": "Service A"},
{"id": "svc-b", "type": "rectangle", "x": 0, "y": 200, "width": 120, "height": 60, "text": "Service B"},
{"type": "arrow", "x": 0, "y": 0, "startElementId": "svc-a", "endElementId": "svc-b", "text": "calls"}
]}
REST API Mode — use start: {id} / end: {id} and label: {text}:
{"elements": [
{"id": "svc-a", "type": "rectangle", "x": 0, "y": 0, "width": 120, "height": 60, "label": {"text": "Service A"}},
{"id": "svc-b", "type": "rectangle", "x": 0, "y": 200, "width": 120, "height": 60, "label": {"text": "Service B"}},
{"type": "arrow", "x": 0, "y": 0, "start": {"id": "svc-a"}, "end": {"id": "svc-b"}}
]}
Arrows without binding use manual x, y, points coordinates.
Arrow Routing — Avoid Overlaps (Critical for complex diagrams)
Straight arrows (2-point) cause crossing and overlap in complex diagrams. Use curved or elbowed arrows instead:
Option 1: Curved arrows — add intermediate waypoints + roundness:
{
"type": "arrow", "x": 100, "y": 100,
"points": [[0, 0], [50, -40], [200, 0]],
"roundness": {"type": 2},
"strokeColor": "#1971c2"
}
Option 2: Elbowed arrows — right-angle routing (L-shaped or Z-shaped):
{
"type": "arrow", "x": 100, "y": 100,
"points": [[0, 0], [0, -50], [200, -50], [200, 0]],
"roundness": {"type": 2},
"strokeColor": "#1971c2"
}
When to use which:
- Fan-out arrows (one source → many targets): Use curved arrows with waypoints spread vertically to avoid overlapping each other.
- Cross-lane arrows (connecting to side panels): Use elbowed arrows that route around the main diagram — go UP first, then ACROSS, then DOWN.
- Inter-service arrows (horizontal connections): Use curved arrows with a slight vertical offset to avoid crossing through adjacent elements.
Rule of thumb: If an arrow would cross through an unrelated element, add a waypoint to route around it. Never accept crossing arrows — always fix them.
Workflow: Iterative Refinement (Key Differentiator)
The feedback loop that makes this skill unique. Each iteration MUST include a quality check.
MCP Mode (full feedback loop)
- Add elements (
batch_create_elements, create_element).
set_viewport with scrollToContent: true.get_canvas_screenshot — critically evaluate against the Quality Checklist.- If issues found → fix them (
update_element, delete_element, resize, reposition).
get_canvas_screenshot again — re-verify fix.- Only proceed to next iteration when ALL quality checks pass.
REST API Mode (partial feedback loop)
- Add elements via
POST /api/elements/batch.
POST /api/viewport with {"scrollToContent": true}.- Take screenshot:
POST /api/export/image → save PNG → critically evaluate against Quality Checklist.
- If issues found → fix via
PUT /api/elements/:id or delete and recreate.
- Re-screenshot and re-verify.
- Only proceed to next iteration when ALL quality checks pass.
How to critically evaluate a screenshot:
- Look at EVERY label — is any text cut off or overflowing its container?
- Look at EVERY arrow — does any arrow pass through an unrelated element?
- Look at ALL element pairs — do any overlap or touch?
- Look at spacing — is anything crammed together?
- Be honest. If you see ANY issue, say "I see [issue], fixing it" — not "looks great".
Workflow: Refine An Existing Diagram
describe_scene to understand current state.- Identify targets by id, type, or label text (not x/y coordinates).
update_element to move/resize/recolor, delete_element to remove.get_canvas_screenshot to verify changes visually.- If updates fail: check element id exists (
get_element), element isn't locked (unlock_elements).
Workflow: File I/O (Diagrams-as-Code)
- Export to .excalidraw format:
export_scene with optional filePath.
- Import from .excalidraw:
import_scene with mode: "replace" or "merge".
- Export to image:
export_to_image with format: "png" or "svg" (requires browser open).
- CLI export:
node scripts/export-elements.cjs --out diagram.elements.json
- CLI import:
node scripts/import-elements.cjs --in diagram.elements.json --mode batch|sync
Workflow: Snapshots (Save/Restore Canvas State)
snapshot_scene with a name before risky changes.- Make changes,
describe_scene / get_canvas_screenshot to evaluate.
restore_snapshot to rollback if needed.
Workflow: Duplication
duplicate_elements with elementIds and optional offsetX/offsetY (default 20,20).- Useful for creating repeated patterns or copying existing layouts.
Points Format for Arrows/Lines
The points field accepts both formats:
- Tuple:
[[0, 0], [100, 50]]
- Object:
[{"x": 0, "y": 0}, {"x": 100, "y": 50}]
Both are normalized to tuples automatically.
Workflow: Share Diagram (excalidraw.com URL)
- Create your diagram using any of the above workflows.
export_to_excalidraw_url — uploads encrypted scene, returns a shareable URL.- Share the URL — anyone can open it in excalidraw.com to view and edit.
Workflow: Viewport Control
set_viewport with scrollToContent: true — auto-fit all elements (zoom-to-fit).set_viewport with scrollToElementId: "my-element" — center view on a specific element.set_viewport with zoom: 1.5, offsetX: 100, offsetY: 200 — manual camera control.
References
references/cheatsheet.md: Complete MCP tool list (26 tools) + REST API endpoints + payload shapes.
