| name | fireworks-tech-graph |
| description | Use when the user wants to create any technical diagram - architecture, data flow, flowchart, sequence, agent/memory, or concept map - and export as SVG+PNG. Trigger on: "画图" "帮我画" "生成图" "做个图" "架构图" "流程图" "可视化一下" "出图" "generate diagram" "draw diagram" "visualize" or any system/flow description the user wants illustrated. |
Fireworks Tech Graph
Generate production-quality SVG technical diagrams exported as PNG via cairosvg (recommended), rsvg-convert, or puppeteer.
Install Source
Install this skill from GitHub:
npx skills add yizhiyanhua-ai/fireworks-tech-graph
Public package page:
https://www.npmjs.com/package/@yizhiyanhua-ai/fireworks-tech-graph
Do not pass @yizhiyanhua-ai/fireworks-tech-graph directly to skills add, because the CLI expects a GitHub or local repository source.
Update command:
npx skills add yizhiyanhua-ai/fireworks-tech-graph --force -g -y
Helper Scripts (Recommended)
Four helper scripts in scripts/ directory provide stable SVG generation and validation:
1. generate-diagram.sh - Validate SVG + export PNG
./scripts/generate-diagram.sh -t architecture -s 1 -o ./output/arch.svg
- Validates an existing SVG file
- Exports PNG after validation
- Example:
./scripts/generate-diagram.sh -t architecture -s 1 -o ./output/arch.svg
2. generate-from-template.py - Create starter SVG from template
python3 ./scripts/generate-from-template.py architecture ./output/arch.svg '{"title":"My Diagram","nodes":[],"arrows":[]}'
- Loads a built-in SVG template
- Renders nodes, arrows, and legend entries from JSON input
- Escapes text content to keep output XML-valid
3. validate-svg.sh - Validate SVG syntax
./scripts/validate-svg.sh <svg-file>
- Checks XML syntax
- Verifies tag balance
- Validates marker references
- Checks attribute completeness
- Validates path data
4. test-all-styles.sh - Batch test all styles
./scripts/test-all-styles.sh
- Tests multiple diagram sizes
- Validates all generated SVGs
- Generates test report
When to use scripts:
- Use scripts when generating complex SVGs to avoid syntax errors
- Scripts provide automatic validation and error reporting
- Recommended for production diagrams
When to generate SVG directly:
- Simple diagrams with few elements
- Quick prototypes
- When you need full control over SVG structure
Workflow (Always Follow This Order)
- Classify the diagram type (see Diagram Types below)
- Extract structure — identify layers, nodes, edges, flows, and semantic groups from user description
- Plan layout — apply the layout rules for the diagram type
- Load style reference — always load
references/style-1-flat-icon.md unless user specifies another; load the matching references/style-N.md for exact color tokens and SVG patterns
- Map nodes to shapes — use Shape Vocabulary below
- Check icon needs — load
references/icons.md for known products
- Write SVG with adaptive strategy (see SVG Generation Strategy below)
- Validate: Run
python3 -c "import xml.etree.ElementTree as ET; ET.parse('file.svg')" to check XML syntax
- Export PNG: Use
cairosvg (recommended). See SVG → PNG Conversion section below for full method comparison
- Report the generated file paths
- (Optional) Visual self-review — if your runtime can read images, load the exported PNG back and inspect it. Syntactic validity does not guarantee visual correctness: arrows may cross through component interiors, labels may collide with lifelines or other labels, boxes may overlap, alt-frame text may sit on top of a message, or a legend may cover content. If you see any of these, revise the SVG and re-export; repeat until the rendered image is clean. Common fixes:
- Route arrows through gaps between boxes, not through box interiors
- Add background rects behind arrow labels (opacity 0.95, matching canvas color)
- Widen inter-row/inter-column gutters so same-layer arrows have clear corridors
- Collapse repeated cross-layer arrows into a single "delegates down" rail outside the content area
- Move legend/notes out of any region where arrows or labels land
- Increase viewBox height/width rather than packing elements tighter
- If a filtered element (drop-shadow, blur) is missing one side of its border, move it ≥30px away from that viewBox edge, or remove the filter and rely on color/contrast for visual separation
Skip this step silently if image reading is unavailable — do not guess.
Diagram Types & Layout Rules
Architecture Diagram
Nodes = services/components. Group into horizontal layers (top→bottom or left→right).
- Typical layers: Client → Gateway/LB → Services → Data/Storage
- Use
<rect> dashed containers to group related services in the same layer
- Arrow direction follows data/request flow
- ViewBox:
0 0 960 600 standard, 0 0 960 800 for tall stacks
Data Flow Diagram
Emphasizes what data moves where. Focus on data transformation.
- Label every arrow with the data type (e.g., "embeddings", "query", "context")
- Use wider arrows (
stroke-width: 2.5) for primary data paths
- Dashed arrows for control/trigger flows
- Color arrows by data category (not just Agent/RAG — use semantics)
Flowchart / Process Flow
Sequential decision/process steps.
- Top-to-bottom preferred; left-to-right for wide flows
- Diamond shapes for decisions, rounded rects for processes, parallelograms for I/O
- Keep node labels short (≤3 words); put detail in sub-labels
- Align nodes on a grid: x positions snap to 120px intervals, y to 80px
Agent Architecture Diagram
Shows how an AI agent reasons, uses tools, and manages memory.
Key conceptual layers to always consider:
- Input layer: User, query, trigger
- Agent core: LLM, reasoning loop, planner
- Memory layer: Short-term (context window), Long-term (vector/graph DB), Episodic
- Tool layer: Tool calls, APIs, search, code execution
- Output layer: Response, action, side-effects
Use cyclic arrows (loop arcs) to show iterative reasoning. Separate memory types visually.
Memory Architecture Diagram (Mem0, MemGPT-style)
Specialized agent diagram focused on memory operations.
- Show memory write path and read path separately (different arrow colors)
- Memory tiers: Working Memory → Short-term → Long-term → External Store
- Label memory operations:
store(), retrieve(), forget(), consolidate()
- Use stacked rects or layered cylinders for storage tiers
Sequence Diagram
Time-ordered message exchanges between participants.
- Participants as vertical lifelines (top labels + vertical dashed lines)
- Messages as horizontal arrows between lifelines, top-to-bottom time order
- Activation boxes (thin filled rects on lifeline) show active processing
- Group with
<rect> loop/alt frames with label in top-left corner
- ViewBox height = 80 + (num_messages × 50)
Comparison / Feature Matrix
Side-by-side comparison of approaches, systems, or components.
- Column headers = systems, row headers = attributes
- Row height: 40px; column width: min 120px; header row height: 50px
- Checked cell: tinted background (e.g.
#dcfce7) + ✓ checkmark; unsupported: #f9fafb fill
- Alternating row fills (
#f9fafb / #ffffff) for readability
- Max readable columns: 5; beyond that, split into two diagrams
Timeline / Gantt
Horizontal time axis showing durations, phases, and milestones.
- X-axis = time (weeks/months/quarters); Y-axis = items/tasks/phases
- Bars: rounded rects, colored by category, labeled inside or beside
- Milestone markers: diamond or filled circle at specific x position with label above
- ViewBox:
0 0 960 400 typical; wider for many time periods: 0 0 1200 400
Mind Map / Concept Map
Radial layout from central concept.
- Central node at
cx=480, cy=280
- First-level branches: evenly distributed around center (360/N degrees)
- Second-level branches: branch off first-level at 30-45° offset
- Use curved
<path> with cubic bezier for branches, not straight lines
Class Diagram (UML)
Static structure showing classes, attributes, methods, and relationships.
- Class box: 3-compartment rect (name / attributes / methods), min width 160px
- Top compartment: class name, bold, centered (abstract = italic)
- Middle: attributes with visibility (
+ public, - private, # protected)
- Bottom: method signatures, same visibility notation
- Relationships:
- Inheritance (extends): solid line + hollow triangle arrowhead, child → parent
- Implementation (interface): dashed line + hollow triangle, class → interface
- Association: solid line + open arrowhead, label with multiplicity (1, 0.., 1..)
- Aggregation: solid line + hollow diamond on container side
- Composition: solid line + filled diamond on container side
- Dependency: dashed line + open arrowhead
- Interface:
<<interface>> stereotype above name, or circle/lollipop notation
- Enum: compartment rect with
<<enumeration>> stereotype, values in bottom
- Layout: parent classes top, children below; interfaces to the left/right of implementors
- ViewBox:
0 0 960 600 standard; 0 0 960 800 for deep hierarchies
Use Case Diagram (UML)
System functionality from user perspective.
- Actor: stick figure (circle head + body line) placed outside system boundary
- Label below figure, 13-14px
- Primary actors on left, secondary/supporting on right
- Use case: ellipse with label centered inside, min 140×60px
- Keep names verb phrases: "Create Order", "Process Payment"
- System boundary: large rect with dashed border + system name in top-left
- Relationships:
- Include: dashed arrow
<<include>> from base to included use case
- Extend: dashed arrow
<<extend>> from extension to base use case
- Generalization: solid line + hollow triangle (specialized → general)
- Layout: system boundary centered, actors outside, use cases inside
- ViewBox:
0 0 960 600 standard
State Machine Diagram (UML)
Lifecycle states and transitions of an entity.
- State: rounded rect with state name, min 120×50px
- Internal activities: small text
entry/ action, exit/ action, do/ activity
- Initial state: filled black circle (r=8), one outgoing arrow
- Final state: filled circle (r=8) inside hollow circle (r=12)
- Choice: small hollow diamond, guard labels on outgoing arrows
[condition]
- Transition: arrow with optional label
event [guard] / action
- Guard conditions in square brackets
- Actions after
/
- Composite/nested state: larger rect containing sub-states, with name tab
- Fork/join: thick horizontal or vertical black bar (synchronization)
- Layout: initial state top-left, final state bottom-right, flow top-to-bottom
- ViewBox:
0 0 960 600 standard
ER Diagram (Entity-Relationship)
Database schema and data relationships.
- Entity: rect with entity name in header (bold), attributes below
- Primary key attribute: underlined
- Foreign key: italic or marked with (FK)
- Min width: 160px; attribute font-size: 12px
- Relationship: diamond shape on connecting line
- Label inside diamond: "has", "belongs to", "enrolls in"
- Cardinality labels near entity:
1, N, 0..1, 0..*, 1..*
- Weak entity: double-bordered rect with double diamond relationship
- Associative entity: diamond + rect hybrid (rect with diamond inside)
- Line style: solid for identifying relationships, dashed for non-identifying
- Layout: entities in 2-3 rows, relationships between related entities
- ViewBox:
0 0 960 600 standard; wider 0 0 1200 600 for many entities
Network Topology
Physical or logical network infrastructure.
- Devices: icon-like rects or rounded rects
- Router: circle with cross arrows
- Switch: rect with arrow grid
- Server: stacked rect (rack icon)
- Firewall: brick-pattern rect or shield shape
- Load Balancer: horizontal split rect with arrows
- Cloud: cloud path (overlapping arcs)
- Connections: lines between device centers
- Ethernet/wired: solid line, label bandwidth
- Wireless: dashed line with WiFi symbol
- VPN: dashed line with lock icon
- Subnets/Zones: dashed rect containers with zone label (DMZ, Internal, External)
- Labels: device hostname + IP below, 12-13px
- Layout: tiered top-to-bottom (Internet → Edge → Core → Access → Endpoints)
- ViewBox:
0 0 960 600 standard
UML Coverage Map
Full mapping of UML 14 diagram types to supported diagram types:
| UML Diagram | Supported As | Notes |
|---|
| Class | Class Diagram | Full UML notation |
| Component | Architecture Diagram | Use colored fills per component type |
| Deployment | Architecture Diagram | Add node/instance labels |
| Package | Architecture Diagram | Use dashed grouping containers |
| Composite Structure | Architecture Diagram | Nested rects within components |
| Object | Class Diagram | Instance boxes with underlined name |
| Use Case | Use Case Diagram | Full actor/ellipse/relationship |
| Activity | Flowchart / Process Flow | Add fork/join bars |
| State Machine | State Machine Diagram | Full UML notation |
| Sequence | Sequence Diagram | Add alt/opt/loop frames |
| Communication | — | Approximate with Sequence (swap axes) |
| Timing | Timeline | Adapt time axis |
| Interaction Overview | Flowchart | Combine activity + sequence fragments |
| ER Diagram | ER Diagram | Chen/Crow's foot notation |
Shape Vocabulary
Map semantic concepts to consistent shapes across all diagram types:
| Concept | Shape | Notes |
|---|
| User / Human | Circle + body path | Stick figure or avatar |
| LLM / Model | Rounded rect with brain/spark icon or gradient fill | Use accent color |
| Agent / Orchestrator | Hexagon or rounded rect with double border | Signals "active controller" |
| Memory (short-term) | Rounded rect, dashed border | Ephemeral = dashed |
| Memory (long-term) | Cylinder (database shape) | Persistent = solid cylinder |
| Vector Store | Cylinder with grid lines inside | Add 3 horizontal lines |
| Graph DB | Circle cluster (3 overlapping circles) | |
| Tool / Function | Gear-like rect or rect with wrench icon | |
| API / Gateway | Hexagon (single border) | |
| Queue / Stream | Horizontal tube (pipe shape) | |
| File / Document | Folded-corner rect | |
| Browser / UI | Rect with 3-dot titlebar | |
| Decision | Diamond | Flowcharts only |
| Process / Step | Rounded rect | Standard box |
| External Service | Rect with cloud icon or dashed border | |
| Data / Artifact | Parallelogram | I/O in flowcharts |
Arrow Semantics
Always assign arrow meaning, not just color:
| Flow Type | Color | Stroke | Dash | Meaning |
|---|
| Primary data flow | blue #2563eb | 2px solid | none | Main request/response path |
| Control / trigger | orange #ea580c | 1.5px solid | none | One system triggering another |
| Memory read | green #059669 | 1.5px solid | none | Retrieval from store |
| Memory write | green #059669 | 1.5px | 5,3 | Write/store operation |
| Async / event | gray #6b7280 | 1.5px | 4,2 | Non-blocking, event-driven |
| Embedding / transform | purple #7c3aed | 1px solid | none | Data transformation |
| Feedback / loop | purple #7c3aed | 1.5px curved | none | Iterative reasoning loop |
Always include a legend when 2+ arrow types are used.
Layout Rules & Validation
Spacing:
- Same-layer nodes: 80px horizontal, 120px vertical between layers
- Canvas margins: 40px minimum, 60px between node edges
- Snap to 8px grid: horizontal 120px intervals, vertical 120px intervals
Arrow Labels (CRITICAL):
- MUST have background rect:
<rect fill="canvas_bg" opacity="0.95"/> with 4px horizontal, 2px vertical padding
- Place mid-arrow, ≤3 words, stagger by 15-20px when multiple arrows converge
- Maintain 10px safety distance from nodes
Arrow Routing:
- Prefer orthogonal (L-shaped) paths to minimize crossings
- Anchor arrows on component edges, not geometric centers
- Route around dense node clusters, use different y-offsets for parallel arrows
- Jump-over arcs (5px radius) for unavoidable crossings
Post-Generation Arrow Optimization:
When a user asks to "优化箭头" / "fix arrow routing" / "optimize the diagram" on an already-generated diagram, preserve all nodes, containers, styles, and layout — only modify the arrows entries in the JSON data, then re-render with generate-from-template.py.
Available arrow override fields (in recommended order of use):
| Field | Type | When to Use |
|---|
source_port / target_port | "left" / "right" / "top" / "bottom" | Arrow exits/enters from the wrong edge |
corridor_x | [x, ...] | Hint vertical segments toward this x lane (soft preference) |
corridor_y | [y, ...] | Hint horizontal segments toward this y lane (soft preference) |
route_points | [[x1,y1], [x2,y2], ...] | Force exact waypoints (bypasses auto-routing); keep segments orthogonal |
routing_padding | number (default: 24) | (Advanced) Adjust obstacle clearance for this arrow |
port_clearance | number | (Advanced) Adjust first-segment offset from node edge |
Optimization steps:
- Read the existing SVG — identify which arrows overlap, cross nodes, or look misaligned
- Find those arrows in the JSON data by
source / target pair
- Add
source_port / target_port if the exit/entry direction is wrong; add corridor_x / corridor_y to space parallel arrows apart; use route_points only when hints alone cannot resolve the path
- Re-run
generate-from-template.py with the updated JSON and validate with validate-svg.sh
Example — spacing two overlapping arrows into separate corridors:
{ "source": "nodeA", "target": "nodeB", "corridor_y": [280] }
{ "source": "nodeC", "target": "nodeD", "corridor_y": [320] }
Line Overlap Prevention (CRITICAL - most common bug on Codex):
When two arrows must cross each other, ALWAYS use jump-over arcs to prevent visual overlap:
- Crossing horizontal arrows: add a small semicircle arc (radius 5px, stroke same color as arrow, fill none) that "jumps over" the other line
- SVG pattern for jump-over: use a white/matching-background arc on the lower layer, then draw the upper arc on top
- Multiple crossings: stagger arc radii (5px, 7px, 9px) so arcs don't overlap each other
- Never let two arrows' straight-line segments cross without a jump-over arc
Validation Checklist (run before finalizing):
- Arrow-Component Collision: Arrows MUST NOT pass through component interiors (route around with orthogonal paths)
- Text Overflow: All text MUST fit with 8px padding (estimate:
text.length × 7px ≤ shape_width - 16px)
- Arrow-Text Alignment: Arrow endpoints MUST connect to shape edges (not floating); all arrow labels MUST have background rects
- Container Discipline: Prefer arrows entering and leaving section containers through open gaps between components, not through inner component bodies
- Filter Boundary Safety: For every element with
filter="url(...)", verify (element_x + element_width + filter_extension) ≤ viewBox_width AND element_x ≥ filter_extension. The default filter region extends 10-20% beyond bbox; staying near viewBox edges causes Chrome/cairosvg to clip the element's edge-side stroke (one side of the border vanishes while other sides render correctly)
SVG Technical Rules
- ViewBox:
0 0 960 600 default; 0 0 960 800 tall; 0 0 1200 600 wide
- Fonts: embed via
<style>font-family: ...</style> — no external @import (cairosvg / rsvg-convert cannot fetch external URLs)
<defs>: arrow markers, gradients, filters, clip paths
- Text: minimum 12px, prefer 13-14px labels, 11px sub-labels, 16-18px titles
- All arrows:
<marker> with markerEnd, sized markerWidth="10" markerHeight="7"
- Drop shadows:
<feDropShadow> in <filter>, apply sparingly (key nodes only)
- Curved paths: use
M x1,y1 C cx1,cy1 cx2,cy2 x2,y2 cubic bezier for loops/feedback arrows
- Clip content: use
<clipPath> if text might overflow a node box
SVG Generation & Error Prevention
MANDATORY: Python List Method (ALWAYS use this):
python3 << 'EOF'
lines = []
lines.append('<svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 960 700">')
lines.append(' <defs>')
lines.append('</svg>')
with open('/path/to/output.svg', 'w') as f:
f.write('\n'.join(lines))
print("SVG generated successfully")
EOF
Why mandatory: Prevents character truncation, typos, and syntax errors. Each line is independent and easy to verify.
Pre-Tool-Call Checklist (CRITICAL - use EVERY time):
- ✅ Can I write out the COMPLETE command/content right now?
- ✅ Do I have ALL required parameters ready?
- ✅ Have I checked for syntax errors in my prepared content?
If ANY answer is NO: STOP. Do NOT call the tool. Prepare the content first.
Error Recovery Protocol:
- First error: Analyze root cause, apply targeted fix
- Second error: Switch method entirely (Python list → chunked generation)
- Third error: STOP and report to user - do NOT loop endlessly
- Never: Retry the same failing command or call tools with empty parameters
Validation (run after generation):
python3 -c "import xml.etree.ElementTree as ET; ET.parse('file.svg')" && echo "✓ Valid XML"
python3 -c "import cairosvg; cairosvg.svg2png(url='file.svg', write_to='/tmp/test.png')" && echo "✓ Renders" && rm /tmp/test.png
If using generate-from-template.py:
- Prefer
source / target node ids in arrow JSON so the generator can snap to node edges
- Keep
x1,y1,x2,y2 as hints or fallback coordinates, not the main routing primitive
- Let the generator choose orthogonal routes; avoid hardcoding center-to-center straight lines unless the path is guaranteed clear
Common Syntax Errors to Avoid:
- ❌
yt-anchor → ✅ y="60" text-anchor="middle"
- ❌
x="390 (missing y) → ✅ x="390" y="250"
- ❌
fill=#fff → ✅ fill="#ffffff"
- ❌
marker-end= → ✅ marker-end="url(#arrow)"
- ❌
L 29450 → ✅ L 290,220
- ❌ Missing
</svg> at end
- ❌ Element with
filter near viewBox edge — filter region extends 20% (default) or more beyond bbox; if that region exceeds viewBox, Chrome/cairosvg clip the filter rendering AND can drop the element's own stroke on that side. Keep filtered elements at least max(20% of element size, shadow blur radius × 3) away from viewBox edges, or omit the filter.
Output
- Default:
./[derived-name].svg and ./[derived-name].png in current directory
- Custom: user specifies path with
--output /path/ or 输出到 /path/
- PNG export: see SVG → PNG Conversion below
SVG → PNG Conversion
Method Comparison
| Tool | Install | Render Quality | Notes |
|---|
rsvg-convert | System (often preinstalled) | ⚠️ Fair | Drops some CSS styles and <foreignObject> elements — missing borders/text on complex SVGs |
cairosvg (recommended) | pip install cairosvg | ✅ Good | Solid CSS support; clearly better than rsvg-convert |
puppeteer (headless Chrome) | npm install puppeteer | ✅✅ Best | Real browser engine; 100% fidelity but heavy (Node + Chromium) |
Recommended: cairosvg (Python one-liner)
python3 -c "import cairosvg; cairosvg.svg2png(url='input.svg', write_to='output.png', scale=2)"
python3 -c "
import cairosvg, os, glob
d = 'docs/00-core'
for svg in sorted(glob.glob(os.path.join(d, '*.svg'))):
png = svg.replace('.svg', '.png')
cairosvg.svg2png(url=svg, write_to=png, scale=2)
print(f'Done: {os.path.basename(svg)} -> {os.path.basename(png)}')
"
scale=2 produces 2x resolution PNG, ideal for high-DPI screens and embedded docs.
Fallback: rsvg-convert (simple but may drop styles)
rsvg-convert -w 1920 file.svg -o file.png
for f in docs/00-core/*.svg; do rsvg-convert -o "${f%.svg}.png" "$f"; done
for f in docs/00-core/*.svg; do rsvg-convert -z 2 -o "${f%.svg}.png" "$f"; done
Highest Fidelity: puppeteer (headless Chrome)
npm install puppeteer
node svg2png.js [directory]
svg2png.js — full puppeteer script
const puppeteer = require('puppeteer');
const fs = require('fs');
const path = require('path');
(async () => {
const dir = process.argv[2] || '.';
const svgFiles = fs.readdirSync(dir).filter(f => f.endsWith('.svg'));
const browser = await puppeteer.launch({
headless: 'new',
args: ['--no-sandbox', '--disable-setuid-sandbox']
});
for (const file of svgFiles) {
const svgPath = path.resolve(dir, file);
const pngPath = svgPath.replace(/\.svg$/, '.png');
const svgContent = fs.readFileSync(svgPath, 'utf-8');
const wMatch = svgContent.match(/width="(\d+)/);
const hMatch = svgContent.match(/height="(\d+)/);
const vbMatch = svgContent.match(/viewBox="[^"]*\s(\d+)\s(\d+)"/);
let width = wMatch ? parseInt(wMatch[1]) : (vbMatch ? parseInt(vbMatch[1]) : 1200);
let height = hMatch ? parseInt(hMatch[1]) : (vbMatch ? parseInt(vbMatch[2]) : 800);
const scale = 2;
const page = await browser.newPage();
await page.setViewport({ width, height, deviceScaleFactor: scale });
const html = `<!DOCTYPE html>
<html><head><style>
body { margin: 0; padding: 0; background: transparent; }
img { display: block; }
</style></head>
<body>
<img src="data:image/svg+xml;base64,${Buffer.from(svgContent).toString('base64')}" width="${width}" height="${height}" />
</body></html>`;
await page.setContent(html, { waitUntil: 'networkidle0' });
await page.screenshot({ path: pngPath, type: 'png', omitBackground: true });
await page.close();
console.log(`Done: ${file} -> ${path.basename(pngPath)} (${width}x${height} @${scale}x)`);
}
await browser.close();
})();
Gotchas (lessons learned)
rsvg-convert renders SVGs containing <foreignObject>, CSS filter, or complex <style> blocks incompletely — missing borders / missing text are the typical symptoms
cairosvg (built on Cairo) has much better CSS support than rsvg and is sufficient for most cases
- If the SVG was generated by a browser (D3.js, Mermaid, etc.), only headless Chrome (puppeteer) renders it 100% faithfully
- Chrome headless CLI
--window-size=W,H is not the drawable area — even in --headless=new mode, browser chrome (scrollbars, internal UI surfaces) consumes ~15-20% of both width and height, so the actual SVG viewport is only ~0.84×W by ~0.84×H. Symptom: SVG content past x ≈ 0.84 × W or y ≈ 0.84 × H is cut off and renders as a solid white band, even though the SVG file itself is correct. Typical failure modes: a Legend in the top-right corner loses its right border; a bottom-row container loses its bottom dashed line. Fix: pass window dimensions ≥ SVG width × 1.2 AND SVG height × 1.2, then crop the raw screenshot back to (SVG_width × scale, SVG_height × scale) with PIL or ImageMagick. Example: for a 1280×580 SVG at 3× DPR, use --window-size=1600,800 then crop the output to 3840×1740. The Puppeteer / page.setViewport() path does NOT have this issue — it sets a precise viewport regardless of window UI.
Picking a Method
- Default →
cairosvg (pip install once, one-line conversion, good fidelity)
- No Python available →
rsvg-convert (acceptable for simple flat-color diagrams)
- Browser-generated SVG or pixel-perfect required →
puppeteer
Styles
| # | Name | Background | Best For |
|---|
| 1 | Flat Icon (default) | White | Blogs, docs, presentations |
| 2 | Dark Terminal | #0f0f1a | GitHub, dev articles |
| 3 | Blueprint | #0a1628 | Architecture docs |
| 4 | Notion Clean | White, minimal | Notionnce |
| 5 | Glassmorphism | Dark gradient | Product sites, keynotes |
| 6 | Claude Official | Warm cream #f8f6f3 | Anthropic-style diagrams |
| 7 | OpenAI Official | Pure white #ffffff | OpenAI-style diagrams |
Load references/style-N.md for exact color tokens and SVG patterns.
Style Selection
Default: Style 1 (Flat Icon) for most diagrams. Load references/style-diagram-matrix.md for detailed style-to-diagram-type recommendations.
These patterns appear frequently — internalize them:
RAG Pipeline: Query → Embed → VectorSearch → Retrieve → Augment → LLM → Response
Agentic RAG: adds Agent loop with Tool use between Query and LLM
Agentic Search: Query → Planner → [Search Tool / Calculator / Code] → Synthesizer → Response
Mem0 / Memory Layer: Input → Memory Manager → [Write: VectorDB + GraphDB] / [Read: Retrieve+Rank] → Context
Agent Memory Types: Sensory (raw input) → Working (context window) → Episodic (past interactions) → Semantic (facts) → Procedural (skills)
Multi-Agent: Orchestrator → [SubAgent A / SubAgent B / SubAgent C] → Aggregator → Output
Tool Call Flow: LLM → Tool Selector → Tool Execution → Result Parser → LLM (loop)