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softaworks/design-system-starter

softaworks

design-system-starter

Create and evolve design systems with design tokens, component architecture, accessibility guidelines, and documentation templates. Ensures consistent, scalable, and accessible UI across products.

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version:1.0.0
tags:design-systemuicomponentsdesign-tokensaccessibilityfrontend
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v1.0Saved Jul 12, 2026

Design System Starter

Build robust, scalable design systems that ensure visual consistency and exceptional user experiences.


Quick Start

Just describe what you need:

Create a design system for my React app with dark mode support

That's it. The skill provides tokens, components, and accessibility guidelines.


Triggers

Trigger Example
Create design system "Create a design system for my app"
Design tokens "Set up design tokens for colors and spacing"
Component architecture "Design component structure using atomic design"
Accessibility "Ensure WCAG 2.1 compliance for my components"
Dark mode "Implement theming with dark mode support"

Quick Reference

Task Output
Design tokens Color, typography, spacing, shadows JSON
Component structure Atomic design hierarchy (atoms, molecules, organisms)
Theming CSS variables or ThemeProvider setup
Accessibility WCAG 2.1 AA compliant patterns
Documentation Component docs with props, examples, a11y notes

Bundled Resources

  • references/component-examples.md - Complete component implementations
  • templates/design-tokens-template.json - W3C design token format
  • templates/component-template.tsx - React component template
  • checklists/design-system-checklist.md - Design system audit checklist

Design System Philosophy

What is a Design System?

A design system is more than a component library—it's a collection of:

  1. Design Tokens: Foundational design decisions (colors, spacing, typography)
  2. Components: Reusable UI building blocks
  3. Patterns: Common UX solutions and compositions
  4. Guidelines: Rules, principles, and best practices
  5. Documentation: How to use everything effectively

Core Principles

1. Consistency Over Creativity

  • Predictable patterns reduce cognitive load
  • Users learn once, apply everywhere
  • Designers and developers speak the same language

2. Accessible by Default

  • WCAG 2.1 Level AA compliance minimum
  • Keyboard navigation built-in
  • Screen reader support from the start

3. Scalable and Maintainable

  • Design tokens enable global changes
  • Component composition reduces duplication
  • Versioning and deprecation strategies

4. Developer-Friendly

  • Clear API contracts
  • Comprehensive documentation
  • Easy to integrate and customize

Design Tokens

Design tokens are the atomic design decisions that define your system's visual language.

Token Categories

1. Color Tokens

Primitive Colors (Raw values):

{
  "color": {
    "primitive": {
      "blue": {
        "50": "#eff6ff",
        "100": "#dbeafe",
        "200": "#bfdbfe",
        "300": "#93c5fd",
        "400": "#60a5fa",
        "500": "#3b82f6",
        "600": "#2563eb",
        "700": "#1d4ed8",
        "800": "#1e40af",
        "900": "#1e3a8a",
        "950": "#172554"
      }
    }
  }
}

Semantic Colors (Contextual meaning):

{
  "color": {
    "semantic": {
      "brand": {
        "primary": "{color.primitive.blue.600}",
        "primary-hover": "{color.primitive.blue.700}",
        "primary-active": "{color.primitive.blue.800}"
      },
      "text": {
        "primary": "{color.primitive.gray.900}",
        "secondary": "{color.primitive.gray.600}",
        "tertiary": "{color.primitive.gray.500}",
        "disabled": "{color.primitive.gray.400}",
        "inverse": "{color.primitive.white}"
      },
      "background": {
        "primary": "{color.primitive.white}",
        "secondary": "{color.primitive.gray.50}",
        "tertiary": "{color.primitive.gray.100}"
      },
      "feedback": {
        "success": "{color.primitive.green.600}",
        "warning": "{color.primitive.yellow.600}",
        "error": "{color.primitive.red.600}",
        "info": "{color.primitive.blue.600}"
      }
    }
  }
}

Accessibility: Ensure color contrast ratios meet WCAG 2.1 Level AA:

  • Normal text: 4.5:1 minimum
  • Large text (18pt+ or 14pt+ bold): 3:1 minimum
  • UI components and graphics: 3:1 minimum

2. Typography Tokens

{
  "typography": {
    "fontFamily": {
      "sans": "'Inter', -apple-system, BlinkMacSystemFont, 'Segoe UI', sans-serif",
      "serif": "'Georgia', 'Times New Roman', serif",
      "mono": "'Fira Code', 'Courier New', monospace"
    },
    "fontSize": {
      "xs": "0.75rem",     // 12px
      "sm": "0.875rem",    // 14px
      "base": "1rem",      // 16px
      "lg": "1.125rem",    // 18px
      "xl": "1.25rem",     // 20px
      "2xl": "1.5rem",     // 24px
      "3xl": "1.875rem",   // 30px
      "4xl": "2.25rem",    // 36px
      "5xl": "3rem"        // 48px
    },
    "fontWeight": {
      "normal": 400,
      "medium": 500,
      "semibold": 600,
      "bold": 700
    },
    "lineHeight": {
      "tight": 1.25,
      "normal": 1.5,
      "relaxed": 1.75,
      "loose": 2
    },
    "letterSpacing": {
      "tight": "-0.025em",
      "normal": "0",
      "wide": "0.025em"
    }
  }
}

3. Spacing Tokens

Scale: Use a consistent spacing scale (commonly 4px or 8px base)

{
  "spacing": {
    "0": "0",
    "1": "0.25rem",   // 4px
    "2": "0.5rem",    // 8px
    "3": "0.75rem",   // 12px
    "4": "1rem",      // 16px
    "5": "1.25rem",   // 20px
    "6": "1.5rem",    // 24px
    "8": "2rem",      // 32px
    "10": "2.5rem",   // 40px
    "12": "3rem",     // 48px
    "16": "4rem",     // 64px
    "20": "5rem",     // 80px
    "24": "6rem"      // 96px
  }
}

Component-Specific Spacing:

{
  "component": {
    "button": {
      "padding-x": "{spacing.4}",
      "padding-y": "{spacing.2}",
      "gap": "{spacing.2}"
    },
    "card": {
      "padding": "{spacing.6}",
      "gap": "{spacing.4}"
    }
  }
}

4. Border Radius Tokens

{
  "borderRadius": {
    "none": "0",
    "sm": "0.125rem",   // 2px
    "base": "0.25rem",  // 4px
    "md": "0.375rem",   // 6px
    "lg": "0.5rem",     // 8px
    "xl": "0.75rem",    // 12px
    "2xl": "1rem",      // 16px
    "full": "9999px"
  }
}

5. Shadow Tokens

{
  "shadow": {
    "xs": "0 1px 2px 0 rgba(0, 0, 0, 0.05)",
    "sm": "0 1px 3px 0 rgba(0, 0, 0, 0.1), 0 1px 2px -1px rgba(0, 0, 0, 0.1)",
    "base": "0 4px 6px -1px rgba(0, 0, 0, 0.1), 0 2px 4px -2px rgba(0, 0, 0, 0.1)",
    "md": "0 10px 15px -3px rgba(0, 0, 0, 0.1), 0 4px 6px -4px rgba(0, 0, 0, 0.1)",
    "lg": "0 20px 25px -5px rgba(0, 0, 0, 0.1), 0 8px 10px -6px rgba(0, 0, 0, 0.1)",
    "xl": "0 25px 50px -12px rgba(0, 0, 0, 0.25)"
  }
}

Component Architecture

Atomic Design Methodology

AtomsMoleculesOrganismsTemplatesPages

Atoms (Primitive Components)

Basic building blocks that can't be broken down further.

Examples:

  • Button
  • Input
  • Label
  • Icon
  • Badge
  • Avatar

Button Component:

interface ButtonProps {
  variant?: 'primary' | 'secondary' | 'outline' | 'ghost';
  size?: 'sm' | 'md' | 'lg';
  disabled?: boolean;
  loading?: boolean;
  icon?: React.ReactNode;
  children: React.ReactNode;
}

See references/component-examples.md for complete Button implementation with variants, sizes, and styling patterns.

Molecules (Simple Compositions)

Groups of atoms that function together.

Examples:

  • SearchBar (Input + Button)
  • FormField (Label + Input + ErrorMessage)
  • Card (Container + Title + Content + Actions)

FormField Molecule:

interface FormFieldProps {
  label: string;
  name: string;
  error?: string;
  hint?: string;
  required?: boolean;
  children: React.ReactNode;
}

See references/component-examples.md for FormField, Card (compound component pattern), Input with variants, Modal, and more composition examples.

Organisms (Complex Compositions)

Complex UI components made of molecules and atoms.

Examples:

  • Navigation Bar
  • Product Card Grid
  • User Profile Section
  • Modal Dialog

Templates (Page Layouts)

Page-level structures that define content placement.

Examples:

  • Dashboard Layout (Sidebar + Header + Main Content)
  • Marketing Page Layout (Hero + Features + Footer)
  • Settings Page Layout (Tabs + Content Panels)

Pages (Specific Instances)

Actual pages with real content.


Component API Design

Props Best Practices

1. Predictable Prop Names

// ✅ Good: Consistent naming
<Button variant="primary" size="md" />
<Input variant="outlined" size="md" />

// ❌ Bad: Inconsistent
<Button type="primary" sizeMode="md" />
<Input style="outlined" inputSize="md" />

2. Sensible Defaults

// ✅ Good: Provides defaults
interface ButtonProps {
  variant?: 'primary' | 'secondary';  // Default: primary
  size?: 'sm' | 'md' | 'lg';          // Default: md
}

// ❌ Bad: Everything required
interface ButtonProps {
  variant: 'primary' | 'secondary';
  size: 'sm' | 'md' | 'lg';
  color: string;
  padding: string;
}

3. Composition Over Configuration

// ✅ Good: Composable
<Card>
  <Card.Header>
    <Card.Title>Title</Card.Title>
  </Card.Header>
  <Card.Body>Content</Card.Body>
  <Card.Footer>Actions</Card.Footer>
</Card>

// ❌ Bad: Too many props
<Card
  title="Title"
  content="Content"
  footerContent="Actions"
  hasHeader={true}
  hasFooter={true}
/>

4. Polymorphic Components Allow components to render as different HTML elements:

<Button as="a" href="/login">Login</Button>
<Button as="button" onClick={handleClick}>Click Me</Button>

See references/component-examples.md for complete polymorphic component TypeScript patterns.


Theming and Dark Mode

Theme Structure

interface Theme {
  colors: {
    brand: {
      primary: string;
      secondary: string;
    };
    text: {
      primary: string;
      secondary: string;
    };
    background: {
      primary: string;
      secondary: string;
    };
    feedback: {
      success: string;
      warning: string;
      error: string;
      info: string;
    };
  };
  typography: {
    fontFamily: {
      sans: string;
      mono: string;
    };
    fontSize: Record<string, string>;
  };
  spacing: Record<string, string>;
  borderRadius: Record<string, string>;
  shadow: Record<string, string>;
}

Dark Mode Implementation

Approach 1: CSS Variables

:root {
  --color-bg-primary: #ffffff;
  --color-text-primary: #000000;
}

[data-theme="dark"] {
  --color-bg-primary: #1a1a1a;
  --color-text-primary: #ffffff;
}

Approach 2: Tailwind CSS Dark Mode

<div className="bg-white dark:bg-gray-900 text-gray-900 dark:text-white">
  Content
</div>

Approach 3: Styled Components ThemeProvider

const lightTheme = { background: '#fff', text: '#000' };
const darkTheme = { background: '#000', text: '#fff' };

<ThemeProvider theme={isDark ? darkTheme : lightTheme}>
  <App />
</ThemeProvider>

Accessibility Guidelines

WCAG 2.1 Level AA Compliance

Color Contrast

  • Normal text (< 18pt): 4.5:1 minimum
  • Large text (≥ 18pt or ≥ 14pt bold): 3:1 minimum
  • UI components: 3:1 minimum

Tools: Use contrast checkers like WebAIM Contrast Checker

Keyboard Navigation

// ✅ All interactive elements must be keyboard accessible
<button
  onClick={handleClick}
  onKeyDown={(e) => e.key === 'Enter' && handleClick()}
>
  Click me
</button>

// ✅ Focus management
<Modal>
  <FocusTrap>
    {/* Modal content */}
  </FocusTrap>
</Modal>

ARIA Attributes

Essential ARIA patterns:

  • aria-label: Provide accessible names
  • aria-expanded: Communicate expanded/collapsed state
  • aria-controls: Associate controls with content
  • aria-live: Announce dynamic content changes

Screen Reader Support

  • Use semantic HTML elements (<button>, <nav>, <main>)
  • Avoid div/span soup for interactive elements
  • Provide meaningful labels for all controls

See references/component-examples.md for complete accessibility examples including Skip Links, focus traps, and ARIA patterns.


Documentation Standards

Component Documentation Template

Each component should document:

  • Purpose: What the component does
  • Usage: Import statement and basic example
  • Variants: Available visual styles
  • Props: Complete prop table with types, defaults, descriptions
  • Accessibility: Keyboard support, ARIA attributes, screen reader behavior
  • Examples: Common use cases with code

Use Storybook, Docusaurus, or similar tools for interactive documentation.

See templates/component-template.tsx for the standard component structure.


Design System Workflow

1. Design Phase

  • Audit existing patterns: Identify inconsistencies
  • Define design tokens: Colors, typography, spacing
  • Create component inventory: List all needed components
  • Design in Figma: Create component library

2. Development Phase

  • Set up tooling: Storybook, TypeScript, testing
  • Implement tokens: CSS variables or theme config
  • Build atoms first: Start with primitives
  • Compose upward: Build molecules, organisms
  • Document as you go: Write docs alongside code

3. Adoption Phase

  • Create migration guide: Help teams adopt
  • Provide codemods: Automate migrations when possible
  • Run workshops: Train teams on usage
  • Gather feedback: Iterate based on real usage

4. Maintenance Phase

  • Version semantically: Major/minor/patch releases
  • Deprecation strategy: Phase out old components gracefully
  • Changelog: Document all changes
  • Monitor adoption: Track usage across products

Quick Start Checklist

When creating a new design system:

  • Define design principles and values
  • Establish design token structure (colors, typography, spacing)
  • Create primitive color palette (50-950 scale)
  • Define semantic color tokens (brand, text, background, feedback)
  • Set typography scale and font families
  • Establish spacing scale (4px or 8px base)
  • Design atomic components (Button, Input, Label, etc.)
  • Implement theming system (light/dark mode)
  • Ensure WCAG 2.1 Level AA compliance
  • Set up documentation (Storybook or similar)
  • Create usage examples for each component
  • Establish versioning and release strategy
  • Create migration guides for adopting teams
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Overall Score

89/100

Grade

A

Excellent

Safety

95

Quality

88

Clarity

85

Completeness

87

Summary

The design-system-starter skill provides comprehensive guidance for building production-ready design systems with design tokens, component architecture (atomic design), accessibility guidelines, and theming support. It includes JSON templates, TypeScript component examples, checklists, and documentation standards aligned with W3C design token format and WCAG 2.1 Level AA compliance.

Detected Capabilities

file readingcomponent template generationdesign token definitionaccessibility guideline documentationtheming pattern examplescode example provision

Trigger Keywords

Phrases that MCP clients use to match this skill to user intent.

create design systemdesign tokens setupcomponent architectureatomic designdark mode implementationwcag compliancetheme providerdesign system startercomponent librarydesign consistency

Referenced Domains

External domains referenced in skill content, detected by static analysis.

design-tokens.orgwebaim.org

Use Cases

  • Create a complete design system from scratch for a React application
  • Establish consistent design tokens (colors, typography, spacing) across products
  • Architect reusable components using atomic design methodology
  • Implement dark mode and theming strategies
  • Ensure WCAG 2.1 Level AA accessibility compliance for UI components
  • Standardize component APIs and reduce design inconsistencies
  • Set up component documentation with Storybook or similar tools
  • Audit existing design patterns and migrate to a unified system

Quality Notes

  • Comprehensive and well-structured guidance covering all aspects of design system creation
  • Real-world component examples with TypeScript, accessibility patterns, and variant systems
  • Bundled resources (templates, checklists, references) provide actionable starting points
  • W3C design token format used, enabling multi-platform tooling compatibility
  • Explicit WCAG 2.1 Level AA compliance guidance with specific contrast ratios and keyboard navigation patterns
  • Clear atomic design hierarchy (Atoms → Molecules → Organisms) with practical examples
  • Philosophy section establishes shared understanding of design system principles
  • Component examples include polymorphic patterns, compound components, and focus trap implementations
  • Design token template is production-ready with primitive and semantic color systems
  • Includes accessibility checklist and design system workflow documentation
  • Clear trigger phrases and usage examples help users understand when to apply the skill
  • Pre-launch and post-launch checklists provide implementation roadmap
Model: claude-haiku-4-5-20251001Analyzed: Jul 12, 2026

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