Agent Skills: Mermaid Graph Writer

Writes precise, well-structured Mermaid diagrams for any visualization need. Use when creating flowcharts, sequence diagrams, state machines, ER models, timelines, mindmaps, Gantt charts, or

Content & WritingID: erichowens/some_claude_skills/mermaid-graph-writer

Install this agent skill to your local

pnpm dlx add-skill https://github.com/curiositech/some_claude_skills/tree/HEAD/.claude/skills/mermaid-graph-writer

Skill Files

Browse the full folder contents for mermaid-graph-writer.

Download Skill

Loading file tree…

.claude/skills/mermaid-graph-writer/SKILL.md

Skill Metadata

Name
mermaid-graph-writer
Description
Writes precise, well-structured Mermaid diagrams for any visualization need. Use when creating flowcharts, sequence diagrams, state machines, ER models, timelines, mindmaps, Gantt charts, or

Mermaid Graph Writer

Writes precise, well-structured Mermaid diagrams. Selects the optimal diagram type for the content, uses correct syntax, and produces diagrams that are readable by both humans (rendered) and agents (text DSL).


When to Use

Use for:

  • Creating any Mermaid diagram from a description or data
  • Choosing the right diagram type for a visualization need
  • Refactoring prose decision trees into Mermaid flowcharts
  • Modeling system architectures, protocols, state machines, data models
  • Encoding temporal knowledge as timeline diagrams

NOT for:

  • Rendering/exporting Mermaid to PNG/SVG/PDF (use mermaid-graph-renderer)
  • ASCII art or Unicode box-drawing (use diagramming-expert)
  • GUI-based design tools (Figma, etc.)

Diagram Type Selection

flowchart TD
  A{What are you modeling?} -->|Branching logic| B[flowchart]
  A -->|Request/response over time| C[sequenceDiagram]
  A -->|States and transitions| D[stateDiagram-v2]
  A -->|Entities and relationships| E[erDiagram]
  A -->|Chronological evolution| F[timeline]
  A -->|Concept hierarchy| G[mindmap]
  A -->|Time-sequenced tasks| H[gantt]
  A -->|Proportions| I[pie]
  A -->|2-axis comparison| J[quadrantChart]
  A -->|Branch/merge history| K[gitGraph]
  A -->|Type hierarchy / OO| L[classDiagram]
  A -->|User experience steps| M[journey]
  A -->|Quantity flows| N[sankey-beta]
  A -->|Numeric data| O[xychart-beta]
  A -->|System components| P[block-beta]
  A -->|Infrastructure| Q[architecture-beta]
  A -->|Task board| R[kanban]
  A -->|Requirements traceability| S[requirementDiagram]
  A -->|System context / containers| T[C4Context]
  A -->|Protocol packets / headers| U[packet-beta]
  A -->|Multi-axis comparison| V[radar]
  A -->|Hierarchical proportions| W[treemap]
  A -->|Code-style sequences| X[zenuml]

Quick Reference

| Content | Type | Direction | |---------|------|-----------| | Decision tree / process | flowchart TD | Top-down for decisions, LR for processes | | API protocol / agent comms | sequenceDiagram | Always vertical (implicit) | | Lifecycle / status machine | stateDiagram-v2 | Automatic layout | | Database / data model | erDiagram | Automatic layout | | "What changed when" | timeline | Horizontal chronological | | Taxonomy / brainstorm | mindmap | Radial from root | | Project schedule | gantt | Horizontal timeline | | Category proportions | pie | Circular | | Effort vs. impact | quadrantChart | 2D scatter | | Git branching strategy | gitGraph | Horizontal | | Class/interface hierarchy | classDiagram | Automatic | | User flow with satisfaction | journey | Horizontal sections | | Flow quantities between categories | sankey-beta | Left-to-right flow | | Bar/line charts | xychart-beta | Standard axes | | System block layout | block-beta | Grid-based | | Cloud/infra topology | architecture-beta | Grouped services | | Task status columns | kanban | Column-based | | Requirements traceability | requirementDiagram | Automatic layout | | System context / containers | C4Context / C4Container | Layered (5 sub-types) | | Protocol packets / headers | packet-beta | Horizontal bit layout | | Multi-axis scoring | radar | Radial axes | | Hierarchical proportions | treemap | Nested rectangles | | Code-style sequences | zenuml | Vertical (plugin) |


Flowchart Deep Dive (Most Common)

Direction

  • TD / TB — top-down (best for decision trees)
  • LR — left-right (best for processes, pipelines)
  • BT — bottom-up (rare, for dependency graphs)
  • RL — right-left (rare)

Node Shapes

[text]       Rectangle (default action)
(text)       Rounded rectangle (soft step)
{text}       Diamond (decision/condition)
([text])     Stadium/pill (start/end)
[[text]]     Subroutine (subprocess)
[(text)]     Cylinder (database/storage)
((text))     Circle (event/trigger)
>text]       Flag (async/signal)
{{text}}     Hexagon (preparation)
[/text/]     Parallelogram (input/output)
[\text\]     Reverse parallelogram
[/text\]     Trapezoid
[\text/]     Reverse trapezoid

Edge Styles

-->          Solid arrow (main flow)
---          Solid line (association)
-.->         Dotted arrow (optional/async)
==>          Thick arrow (emphasis/critical path)
--text-->    Labeled edge
~~~          Invisible link (layout control only)

Subgraphs

flowchart TD
  subgraph Backend
    A[API] --> B[DB]
  end
  subgraph Frontend
    C[UI] --> D[State]
  end
  C -->|fetch| A

Sequence Diagram Essentials

Messages

->>    Solid arrow (sync request)
-->>   Dotted arrow (async response)
-)     Open arrow (async fire-and-forget)
-x     Cross (failed/rejected)

Blocks

activate / deactivate    Lifeline activation
alt / else / end         Conditional branching
loop / end               Repetition
par / and / end          Parallel execution
critical / end           Critical section
break / end              Break-out flow
rect rgb(...)  / end     Background highlight

Numbering

Add autonumber after the first line to auto-number all messages.


State Diagram Essentials

[*] --> State1           Start transition
State1 --> State2        Named transition
State1 --> State2: event Labeled transition
State2 --> [*]           End transition

state State1 {          Nested states
  [*] --> SubA
  SubA --> SubB
}

state fork <<fork>>      Fork pseudostate
state join <<join>>      Join pseudostate
state choice <<choice>>  Choice pseudostate

ER Diagram Essentials

Cardinality

||--||    Exactly one to exactly one
||--o{    One to zero-or-many
}o--o{    Zero-or-many to zero-or-many
||--|{    One to one-or-many

Attributes

erDiagram
  USER {
    int id PK
    string name
    string email UK
  }
  ORDER {
    int id PK
    int user_id FK
    date created_at
  }
  USER ||--o{ ORDER : places

Writing Principles

1. Descriptive Labels, Not Codes

  • A[Check if tests pass]
  • A[Step 2.3]

2. Consistent Direction

Pick one direction for the whole diagram. Don't mix TD and LR within the same flowchart.

3. Max 15 Nodes per Diagram

Beyond 15 nodes, split into multiple diagrams or use subgraphs. A crowded diagram is worse than no diagram.

4. Use Subgraphs for Grouping

When a diagram has natural clusters (frontend/backend, phases, teams), use subgraphs to group them visually.

5. Label All Decision Edges

Every edge leaving a diamond ({decision}) node must have a label:

  • A{Ready?} -->|Yes| B and A -->|No| C
  • A{Ready?} --> B and A --> C (which is yes? which is no?)

6. Use Appropriate Edge Styles

  • Solid arrows for main flow
  • Dotted arrows for optional/async paths
  • Thick arrows for critical paths or emphasis
  • Invisible links (~~~) only for layout tweaking

Anti-Patterns

Wrong Diagram Type

Novice: Using a flowchart for everything — even protocols, state machines, and data models. Expert: Match diagram type to content structure. Sequence diagrams for protocols. State diagrams for lifecycle. ER for data models. Each type exists because flowcharts can't express that structure well.

Overcrowded Diagram

Novice: One diagram with 30 nodes and crossing edges. Expert: Split into overview diagram + detail diagrams. Use subgraphs. Max ~15 nodes per diagram.

Unlabeled Decision Edges

Novice: {Decision} --> A and {Decision} --> B — which condition leads where? Expert: Always label edges from decision diamonds: -->|Yes| and -->|No| (or -->|Success| and -->|Failure|, etc.)

Prose That Should Be a Diagram

Novice: "First check if X. If X then do A, otherwise do B. Then if A succeeds, do C, otherwise retry A." Expert: That's a flowchart. Write it as one. The formal graph is more precise AND more readable.


References

  • references/diagram-types.md — Consult for comprehensive syntax, features, and examples for all 23 Mermaid diagram types: timeline, mindmap, quadrant, sankey, XY chart, block, architecture, kanban, pie, gitgraph, class, journey, requirementDiagram, C4 (5 sub-types), packet-beta, radar, treemap, and zenuml
  • scripts/validate_mermaid.py — Validates Mermaid syntax in any file: checks diagram type declarations, matching fences, structural correctness