Swiftui Performance Audit
When & Why to Use This Skill
The SwiftUI Performance Audit skill is a specialized diagnostic tool designed to optimize SwiftUI runtime performance. It provides a comprehensive workflow to identify and resolve common bottlenecks such as janky scrolling, high CPU usage, and excessive view updates. By combining static code analysis with guided profiling via Xcode Instruments, it helps developers implement best practices in state management, view identity, and layout efficiency to ensure a fluid user experience.
Use Cases
- Eliminating scroll lag and 'jank' in complex lists by identifying unstable view identities and optimizing ForEach loops.
- Reducing CPU overhead by detecting expensive operations—like data sorting or date formatting—performed directly within the view body and refactoring them into cached properties.
- Fixing 'view invalidation storms' by narrowing the scope of @State and @Observable dependencies to prevent unnecessary UI re-renders.
- Optimizing memory usage in media-heavy apps by identifying large image assets that lack proper downsampling or off-thread decoding.
- Guiding developers through professional-grade performance profiling using Xcode Instruments to capture and interpret SwiftUI timeline traces.
| name | swiftui-performance-audit |
|---|---|
| description | Audit and improve SwiftUI runtime performance from code review and architecture. Use for requests to diagnose slow rendering, janky scrolling, high CPU/memory usage, excessive view updates, or layout thrash in SwiftUI apps, and to provide guidance for user-run Instruments profiling when code review alone is insufficient. |
SwiftUI Performance Audit
Overview
Audit SwiftUI view performance end-to-end, from instrumentation and baselining to root-cause analysis and concrete remediation steps.
Workflow Decision Tree
- If the user provides code, start with "Code-First Review."
- If the user only describes symptoms, ask for minimal code/context, then do "Code-First Review."
- If code review is inconclusive, go to "Guide the User to Profile" and ask for a trace or screenshots.
1. Code-First Review
Collect:
- Target view/feature code.
- Data flow: state, environment, observable models.
- Symptoms and reproduction steps.
Focus on:
- View invalidation storms from broad state changes.
- Unstable identity in lists (
idchurn,UUID()per render). - Heavy work in
body(formatting, sorting, image decoding). - Layout thrash (deep stacks,
GeometryReader, preference chains). - Large images without downsampling or resizing.
- Over-animated hierarchies (implicit animations on large trees).
Provide:
- Likely root causes with code references.
- Suggested fixes and refactors.
- If needed, a minimal repro or instrumentation suggestion.
2. Guide the User to Profile
Explain how to collect data with Instruments:
- Use the SwiftUI template in Instruments (Release build).
- Reproduce the exact interaction (scroll, navigation, animation).
- Capture SwiftUI timeline and Time Profiler.
- Export or screenshot the relevant lanes and the call tree.
Ask for:
- Trace export or screenshots of SwiftUI lanes + Time Profiler call tree.
- Device/OS/build configuration.
3. Analyze and Diagnose
Prioritize likely SwiftUI culprits:
- View invalidation storms from broad state changes.
- Unstable identity in lists (
idchurn,UUID()per render). - Heavy work in
body(formatting, sorting, image decoding). - Layout thrash (deep stacks,
GeometryReader, preference chains). - Large images without downsampling or resizing.
- Over-animated hierarchies (implicit animations on large trees).
Summarize findings with evidence from traces/logs.
4. Remediate
Apply targeted fixes:
- Narrow state scope (
@State/@Observablecloser to leaf views). - Stabilize identities for
ForEachand lists. - Move heavy work out of
body(precompute, cache,@State). - Use
equatable()or value wrappers for expensive subtrees. - Downsample images before rendering.
- Reduce layout complexity or use fixed sizing where possible.
Common Code Smells (and Fixes)
Look for these patterns during code review.
Expensive formatters in body
var body: some View {
let number = NumberFormatter() // slow allocation
let measure = MeasurementFormatter() // slow allocation
Text(measure.string(from: .init(value: meters, unit: .meters)))
}
Prefer cached formatters in a model or a dedicated helper:
final class DistanceFormatter {
static let shared = DistanceFormatter()
let number = NumberFormatter()
let measure = MeasurementFormatter()
}
Computed properties that do heavy work
var filtered: [Item] {
items.filter { $0.isEnabled } // runs on every body eval
}
Prefer precompute or cache on change:
@State private var filtered: [Item] = []
// update filtered when inputs change
Sorting/filtering in body or ForEach
List {
ForEach(items.sorted(by: sortRule)) { item in
Row(item)
}
}
Prefer sort once before view updates:
let sortedItems = items.sorted(by: sortRule)
Inline filtering in ForEach
ForEach(items.filter { $0.isEnabled }) { item in
Row(item)
}
Prefer a prefiltered collection with stable identity.
Unstable identity
ForEach(items, id: \.self) { item in
Row(item)
}
Avoid id: \.self for non-stable values; use a stable ID.
Image decoding on the main thread
Image(uiImage: UIImage(data: data)!)
Prefer decode/downsample off the main thread and store the result.
Broad dependencies in observable models
@Observable class Model {
var items: [Item] = []
}
var body: some View {
Row(isFavorite: model.items.contains(item))
}
Prefer granular view models or per-item state to reduce update fan-out.
5. Verify
Ask the user to re-run the same capture and compare with baseline metrics. Summarize the delta (CPU, frame drops, memory peak) if provided.
Outputs
Provide:
- A short metrics table (before/after if available).
- Top issues (ordered by impact).
- Proposed fixes with estimated effort.
References
Add Apple documentation and WWDC resources under references/ as they are supplied by the user.
- Optimizing SwiftUI performance with Instruments:
references/optimizing-swiftui-performance-instruments.md - Understanding and improving SwiftUI performance:
references/understanding-improving-swiftui-performance.md - Understanding hangs in your app:
references/understanding-hangs-in-your-app.md - Demystify SwiftUI performance (WWDC23):
references/demystify-swiftui-performance-wwdc23.md