Patent Diagram Generator Skill

Create patent-style technical diagrams including flowcharts, block diagrams, and system architectures using Graphviz.

When to Use

Invoke this skill when users ask to:

Create flowcharts for method claims
Generate block diagrams for system claims
Draw system architecture diagrams
Create technical illustrations for patents
Add reference numbers to diagrams
Generate patent figures

What This Skill Does

Flowchart Generation:
- Method step flowcharts
- Decision trees
- Process flows with branches
- Patent-style step numbering
Block Diagram Creation:
- System component diagrams
- Hardware architecture diagrams
- Software module diagrams
- Component interconnections
Custom Diagram Rendering:
- Render Graphviz DOT code
- Support multiple formats (SVG, PNG, PDF)
- Multiple layout engines (dot, neato, fdp, circo, twopi)
Patent-Style Formatting:
- Add reference numbers (10, 20, 30, etc.)
- Use clear labels and connections
- Professional formatting for USPTO filing

Required Dependencies

This skill requires Graphviz to be installed:

Windows:

choco install graphviz

Linux:

sudo apt install graphviz

Mac:

brew install graphviz

Python Package:

pip install graphviz

How to Use

When this skill is invoked:

Load diagram generator:

import sys
sys.path.insert(0, os.path.join(os.environ.get('CLAUDE_PLUGIN_ROOT', '.'), 'python'))
from python.diagram_generator import PatentDiagramGenerator

generator = PatentDiagramGenerator()

Create flowchart from steps:

steps = [
    {"id": "start", "label": "Start", "shape": "ellipse", "next": ["step1"]},
    {"id": "step1", "label": "Initialize System", "shape": "box", "next": ["decision"]},
    {"id": "decision", "label": "Is Valid?", "shape": "diamond", "next": ["step2", "error"]},
    {"id": "step2", "label": "Process Data", "shape": "box", "next": ["end"]},
    {"id": "error", "label": "Handle Error", "shape": "box", "next": ["end"]},
    {"id": "end", "label": "End", "shape": "ellipse", "next": []}
]

diagram_path = generator.create_flowchart(
    steps=steps,
    filename="method_flowchart",
    output_format="svg"
)

Create block diagram:

blocks = [
    {"id": "input", "label": "Input\\nSensor", "type": "input"},
    {"id": "cpu", "label": "Central\\nProcessor", "type": "process"},
    {"id": "memory", "label": "Memory\\nStorage", "type": "storage"},
    {"id": "output", "label": "Output\\nDisplay", "type": "output"}
]

connections = [
    ["input", "cpu", "raw data"],
    ["cpu", "memory", "store"],
    ["memory", "cpu", "retrieve"],
    ["cpu", "output", "processed data"]
]

diagram_path = generator.create_block_diagram(
    blocks=blocks,
    connections=connections,
    filename="system_diagram",
    output_format="svg"
)

Render custom DOT code:

dot_code = """
digraph PatentSystem {
    rankdir=LR;
    node [shape=box, style=rounded];

    Input [label="User Input\\n(10)"];
    Processor [label="Processing Unit\\n(20)"];
    Output [label="Display\\n(30)"];

    Input -> Processor [label="data"];
    Processor -> Output [label="result"];
}
"""

diagram_path = generator.render_dot_diagram(
    dot_code=dot_code,
    filename="custom_diagram",
    output_format="svg",
    engine="dot"
)

Add reference numbers:

# After creating a diagram, add patent-style reference numbers
reference_map = {
    "Input Sensor": 10,
    "Central Processor": 20,
    "Memory Storage": 30,
    "Output Display": 40
}

annotated_path = generator.add_reference_numbers(
    svg_path=diagram_path,
    reference_map=reference_map
)

Diagram Templates

Get common templates:

templates = generator.get_diagram_templates()

# Available templates:
# - simple_flowchart: Basic process flow
# - system_block: System architecture
# - method_steps: Sequential method
# - component_hierarchy: Hierarchical structure

Shape Types

Flowchart Shapes

ellipse: Start/End points
box: Process steps
diamond: Decision points
parallelogram: Input/Output operations
cylinder: Database/Storage

Block Diagram Types

input: Input devices/sensors
output: Output devices/displays
process: Processing units
storage: Memory/storage
decision: Control logic
default: General components

Layout Engines

dot: Hierarchical (top-down/left-right)
neato: Spring model layout
fdp: Force-directed layout
circo: Circular layout
twopi: Radial layout

Output Formats

svg: Scalable Vector Graphics (best for editing)
png: Raster image (good for viewing)
pdf: Portable Document Format (USPTO compatible)

Patent-Style Reference Numbers

Convention:

Main components: 10, 20, 30, 40, ...
Sub-components: 12, 14, 16 (under 10)
Elements: 22, 24, 26 (under 20)

Example labeling:

"Input Sensor (10)"
"  - Detector Element (12)"
"  - Signal Processor (14)"
"Central Unit (20)"
"  - CPU Core (22)"
"  - Cache (24)"

Presentation Format

When creating diagrams:

Describe what will be generated: "Creating a flowchart for the authentication method with 5 steps..."
Generate the diagram: Run Python code to create SVG/PNG/PDF
Show file location: "Diagram created: ${CLAUDE_PLUGIN_ROOT}/python\diagrams\method_flowchart.svg"

List reference numbers (if added):

Reference Numbers:
- Input Module (10)
- Processing Unit (20)
- Output Interface (30)

Common Use Cases

Method Claims → Flowcharts
- Show sequential steps
- Include decision branches
- Number steps (S1, S2, S3...)
System Claims → Block Diagrams
- Show components and connections
- Use reference numbers
- Indicate data flow directions
Architecture Diagrams → Custom DOT
- Complex system layouts
- Multiple interconnections
- Hierarchical structures

Error Handling

If Graphviz is not installed:

Check installation: dot -V
Install for your OS (see above)
Verify Python package: pip show graphviz
Test generation: python scripts/test_diagrams.py

Tools Available

Bash: To run Python diagram generation
Write: To save DOT code or diagrams
Read: To load existing diagrams or templates