name: gsap description: GSAP animations for JARVIS HUD transitions and effects model: sonnet risk_level: LOW version: 1.0.0

GSAP Animation Skill

File Organization: This skill uses split structure. See references/ for advanced patterns.

1. Overview

This skill provides GSAP (GreenSock Animation Platform) expertise for creating smooth, professional animations in the JARVIS AI Assistant HUD.

Risk Level: LOW - Animation library with minimal security surface

Primary Use Cases:

HUD panel entrance/exit animations
Status indicator transitions
Data visualization animations
Scroll-triggered effects
Complex timeline sequences

2. Core Responsibilities

2.1 Fundamental Principles

TDD First: Write animation tests before implementation
Performance Aware: Use transforms/opacity for GPU acceleration, avoid layout thrashing
Cleanup Required: Always kill animations on component unmount
Timeline Organization: Use timelines for complex sequences
Easing Selection: Choose appropriate easing for HUD feel
Accessibility: Respect reduced motion preferences
Memory Management: Avoid memory leaks with proper cleanup

2.5 Implementation Workflow (TDD)

Step 1: Write Failing Test First

// tests/animations/panel-animation.test.ts
import { describe, it, expect, vi, beforeEach, afterEach } from 'vitest'
import { mount } from '@vue/test-utils'
import { gsap } from 'gsap'
import HUDPanel from '~/components/HUDPanel.vue'

describe('HUDPanel Animation', () => {
  beforeEach(() => {
    // Mock reduced motion
    Object.defineProperty(window, 'matchMedia', {
      writable: true,
      value: vi.fn().mockImplementation(query => ({
        matches: false,
        media: query
      }))
    })
  })

  afterEach(() => {
    // Verify cleanup
    gsap.globalTimeline.clear()
  })

  it('animates panel entrance with correct properties', async () => {
    const wrapper = mount(HUDPanel)

    // Wait for animation to complete
    await new Promise(resolve => setTimeout(resolve, 600))

    const panel = wrapper.find('.hud-panel')
    expect(panel.exists()).toBe(true)
  })

  it('cleans up animations on unmount', async () => {
    const wrapper = mount(HUDPanel)
    const childCount = gsap.globalTimeline.getChildren().length

    await wrapper.unmount()

    // All animations should be killed
    expect(gsap.globalTimeline.getChildren().length).toBeLessThan(childCount)
  })

  it('respects reduced motion preference', async () => {
    // Mock reduced motion enabled
    window.matchMedia = vi.fn().mockImplementation(() => ({
      matches: true
    }))

    const wrapper = mount(HUDPanel)
    const panel = wrapper.find('.hud-panel').element

    // Should set final state immediately without animation
    expect(gsap.getProperty(panel, 'opacity')).toBe(1)
  })
})

Step 2: Implement Minimum to Pass

// components/HUDPanel.vue - implement animation logic
const animation = ref<gsap.core.Tween | null>(null)

onMounted(() => {
  if (!panelRef.value) return

  if (window.matchMedia('(prefers-reduced-motion: reduce)').matches) {
    gsap.set(panelRef.value, { opacity: 1 })
    return
  }

  animation.value = gsap.from(panelRef.value, {
    opacity: 0,
    y: 20,
    duration: 0.5
  })
})

onUnmounted(() => {
  animation.value?.kill()
})

Step 3: Refactor Following Patterns

// Extract to composable for reusability
export function usePanelAnimation(elementRef: Ref<HTMLElement | null>) {
  const animation = ref<gsap.core.Tween | null>(null)

  const animate = () => {
    if (!elementRef.value) return

    if (window.matchMedia('(prefers-reduced-motion: reduce)').matches) {
      gsap.set(elementRef.value, { opacity: 1 })
      return
    }

    animation.value = gsap.from(elementRef.value, {
      opacity: 0,
      y: 20,
      duration: 0.5,
      ease: 'power2.out'
    })
  }

  onMounted(animate)
  onUnmounted(() => animation.value?.kill())

  return { animation }
}

Step 4: Run Full Verification

# Run animation tests
npm test -- --grep "Animation"

# Check for memory leaks
npm run test:memory

# Verify 60fps performance
npm run test:performance

3. Technology Stack & Versions

3.1 Recommended Versions

Package	Version	Notes
gsap	^3.12.0	Core library
@gsap/vue	^3.12.0	Vue integration
ScrollTrigger	included	Scroll effects

3.2 Vue Integration

// plugins/gsap.ts
import { gsap } from 'gsap'
import { ScrollTrigger } from 'gsap/ScrollTrigger'

export default defineNuxtPlugin(() => {
  gsap.registerPlugin(ScrollTrigger)

  return {
    provide: {
      gsap,
      ScrollTrigger
    }
  }
})

4. Implementation Patterns

4.1 Panel Entrance Animation

<script setup lang="ts">
import { gsap } from 'gsap'
import { onMounted, onUnmounted, ref } from 'vue'

const panelRef = ref<HTMLElement | null>(null)
let animation: gsap.core.Tween | null = null

onMounted(() => {
  if (!panelRef.value) return

  // ✅ Check reduced motion preference
  if (window.matchMedia('(prefers-reduced-motion: reduce)').matches) {
    gsap.set(panelRef.value, { opacity: 1 })
    return
  }

  animation = gsap.from(panelRef.value, {
    opacity: 0,
    y: 20,
    scale: 0.95,
    duration: 0.5,
    ease: 'power2.out'
  })
})

// ✅ Cleanup on unmount
onUnmounted(() => {
  animation?.kill()
})
</script>

<template>
  <div ref="panelRef" class="hud-panel">
    <slot />
  </div>
</template>

4.2 Status Indicator Animation

// composables/useStatusAnimation.ts
import { gsap } from 'gsap'

export function useStatusAnimation(element: Ref<HTMLElement | null>) {
  const timeline = ref<gsap.core.Timeline | null>(null)

  const animateStatus = (status: string) => {
    if (!element.value) return

    timeline.value?.kill()

    timeline.value = gsap.timeline()

    switch (status) {
      case 'active':
        timeline.value
          .to(element.value, {
            scale: 1.2,
            duration: 0.2,
            ease: 'power2.out'
          })
          .to(element.value, {
            scale: 1,
            duration: 0.3,
            ease: 'elastic.out(1, 0.3)'
          })
        break

      case 'warning':
        timeline.value.to(element.value, {
          backgroundColor: '#f59e0b',
          boxShadow: '0 0 10px #f59e0b',
          duration: 0.3,
          repeat: 2,
          yoyo: true
        })
        break

      case 'error':
        timeline.value.to(element.value, {
          x: -5,
          duration: 0.05,
          repeat: 5,
          yoyo: true
        })
        break
    }
  }

  onUnmounted(() => {
    timeline.value?.kill()
  })

  return { animateStatus }
}

4.3 Data Visualization Animation

<script setup lang="ts">
import { gsap } from 'gsap'

const props = defineProps<{
  data: number[]
}>()

const barsRef = ref<HTMLElement[]>([])
let animations: gsap.core.Tween[] = []

watch(() => props.data, (newData) => {
  // Kill previous animations
  animations.forEach(a => a.kill())
  animations = []

  // Animate each bar
  newData.forEach((value, index) => {
    const bar = barsRef.value[index]
    if (!bar) return

    const tween = gsap.to(bar, {
      height: `${value}%`,
      duration: 0.5,
      delay: index * 0.05,
      ease: 'power2.out'
    })

    animations.push(tween)
  })
}, { immediate: true })

onUnmounted(() => {
  animations.forEach(a => a.kill())
})
</script>

<template>
  <div class="flex items-end h-40 gap-1">
    <div
      v-for="(_, index) in data"
      :key="index"
      ref="barsRef"
      class="w-4 bg-jarvis-primary"
    />
  </div>
</template>

4.4 Timeline Sequence

// Create complex HUD startup sequence
export function createStartupSequence(elements: {
  logo: HTMLElement
  panels: HTMLElement[]
  status: HTMLElement
}): gsap.core.Timeline {
  const tl = gsap.timeline({
    defaults: { ease: 'power2.out' }
  })

  // Logo reveal
  tl.from(elements.logo, {
    opacity: 0,
    scale: 0,
    duration: 0.8,
    ease: 'back.out(1.7)'
  })

  // Panels stagger in
  tl.from(elements.panels, {
    opacity: 0,
    x: -30,
    stagger: 0.1,
    duration: 0.5
  }, '-=0.3')

  // Status indicator
  tl.from(elements.status, {
    opacity: 0,
    y: 10,
    duration: 0.3
  }, '-=0.2')

  return tl
}

4.5 Scroll-Triggered Animation

<script setup lang="ts">
import { gsap } from 'gsap'
import { ScrollTrigger } from 'gsap/ScrollTrigger'

const sectionRef = ref<HTMLElement | null>(null)

onMounted(() => {
  if (!sectionRef.value) return

  gsap.from(sectionRef.value.querySelectorAll('.animate-item'), {
    scrollTrigger: {
      trigger: sectionRef.value,
      start: 'top 80%',
      end: 'bottom 20%',
      toggleActions: 'play none none reverse'
    },
    opacity: 0,
    y: 30,
    stagger: 0.1,
    duration: 0.5
  })
})

onUnmounted(() => {
  ScrollTrigger.getAll().forEach(trigger => trigger.kill())
})
</script>

5. Quality Standards

5.1 Performance

// ✅ GOOD - Use transforms for GPU acceleration
gsap.to(element, {
  x: 100,
  y: 50,
  rotation: 45,
  scale: 1.2
})

// ❌ BAD - Triggers layout recalculation
gsap.to(element, {
  left: 100,
  top: 50,
  width: '120%'
})

5.2 Accessibility

// ✅ Respect reduced motion
const prefersReducedMotion = window.matchMedia(
  '(prefers-reduced-motion: reduce)'
).matches

if (prefersReducedMotion) {
  gsap.set(element, { opacity: 1 })
} else {
  gsap.from(element, { opacity: 0, duration: 0.5 })
}

6. Performance Patterns

6.1 will-change Property Usage

// Good: Apply will-change before animation
const animatePanel = (element: HTMLElement) => {
  element.style.willChange = 'transform, opacity'

  gsap.to(element, {
    x: 100,
    opacity: 0.8,
    duration: 0.5,
    onComplete: () => {
      element.style.willChange = 'auto'
    }
  })
}

// Bad: Never removing will-change
const animatePanelBad = (element: HTMLElement) => {
  element.style.willChange = 'transform, opacity' // Memory leak!
  gsap.to(element, { x: 100, opacity: 0.8 })
}

6.2 Transform vs Layout Properties

// Good: Use transforms (GPU accelerated)
gsap.to(element, {
  x: 100,           // translateX
  y: 50,            // translateY
  scale: 1.2,       // scale
  rotation: 45,     // rotate
  opacity: 0.5      // opacity
})

// Bad: Layout-triggering properties (CPU, causes reflow)
gsap.to(element, {
  left: 100,        // Triggers layout
  top: 50,          // Triggers layout
  width: '120%',    // Triggers layout
  height: 200,      // Triggers layout
  margin: 10        // Triggers layout
})

6.3 Timeline Reuse

// Good: Reuse timeline instance
const timeline = gsap.timeline({ paused: true })
timeline
  .to(element, { opacity: 1, duration: 0.3 })
  .to(element, { y: -20, duration: 0.5 })

// Play/reverse as needed
const show = () => timeline.play()
const hide = () => timeline.reverse()

// Bad: Creating new timeline each time
const showBad = () => {
  gsap.timeline()
    .to(element, { opacity: 1, duration: 0.3 })
    .to(element, { y: -20, duration: 0.5 })
}

6.4 ScrollTrigger Batching

// Good: Batch ScrollTrigger animations
ScrollTrigger.batch('.animate-item', {
  onEnter: (elements) => {
    gsap.to(elements, {
      opacity: 1,
      y: 0,
      stagger: 0.1,
      overwrite: true
    })
  },
  onLeave: (elements) => {
    gsap.to(elements, {
      opacity: 0,
      y: -20,
      overwrite: true
    })
  }
})

// Bad: Individual ScrollTrigger per element
document.querySelectorAll('.animate-item').forEach(item => {
  gsap.to(item, {
    scrollTrigger: {
      trigger: item,
      start: 'top 80%'
    },
    opacity: 1,
    y: 0
  })
})

6.5 Lazy Initialization

// Good: Initialize animations only when needed
let panelAnimation: gsap.core.Timeline | null = null

const getPanelAnimation = () => {
  if (!panelAnimation) {
    panelAnimation = gsap.timeline({ paused: true })
      .from('.panel', { opacity: 0, y: 20 })
      .from('.panel-content', { opacity: 0, stagger: 0.1 })
  }
  return panelAnimation
}

const showPanel = () => getPanelAnimation().play()
const hidePanel = () => getPanelAnimation().reverse()

// Bad: Initialize all animations on mount
onMounted(() => {
  // Creates timeline even if never used
  const animation1 = gsap.timeline().to('.panel1', { x: 100 })
  const animation2 = gsap.timeline().to('.panel2', { y: 100 })
  const animation3 = gsap.timeline().to('.panel3', { scale: 1.2 })
})

7. Testing & Quality

7.1 Animation Testing

describe('Panel Animation', () => {
  it('cleans up on unmount', async () => {
    const wrapper = mount(HUDPanel)
    await wrapper.unmount()

    // No active GSAP animations should remain
    expect(gsap.globalTimeline.getChildren().length).toBe(0)
  })
})

8. Common Mistakes & Anti-Patterns

8.1 Critical Anti-Patterns

Never: Skip Cleanup

// ❌ MEMORY LEAK
onMounted(() => {
  gsap.to(element, { x: 100, duration: 1 })
})

// ✅ PROPER CLEANUP
let tween: gsap.core.Tween

onMounted(() => {
  tween = gsap.to(element, { x: 100, duration: 1 })
})

onUnmounted(() => {
  tween?.kill()
})

Never: Animate Layout Properties

// ❌ BAD - Causes layout thrashing
gsap.to(element, { width: 200, height: 100 })

// ✅ GOOD - Use transforms
gsap.to(element, { scaleX: 2, scaleY: 1 })

13. Pre-Implementation Checklist

Phase 1: Before Writing Code

Write failing tests for animation behavior
Define animation timing and easing requirements
Identify elements that need will-change hints
Plan cleanup strategy for all animations
Check if reduced motion support is needed

Phase 2: During Implementation

Use transforms/opacity only (no layout properties)
Store animation references for cleanup
Apply will-change before, remove after animation
Use timelines for sequences
Batch ScrollTrigger animations
Implement lazy initialization for complex animations

Phase 3: Before Committing

All tests pass (npm test -- --grep "Animation")
All animations cleaned up on unmount
Reduced motion preference respected
No memory leaks (check with DevTools)
60fps maintained (test with performance monitor)
ScrollTrigger instances properly killed

14. Summary

GSAP provides professional animations for JARVIS HUD:

Cleanup: Always kill animations on unmount
Performance: Use transforms and opacity only
Accessibility: Respect reduced motion preference
Organization: Use timelines for sequences

Remember: Every animation must be cleaned up to prevent memory leaks.

References:

references/advanced-patterns.md - Complex animation patterns

gsap

Before / After Comparison

description SKILL.md