swiftui-ui-patterns

Apply proven SwiftUI UI patterns for navigation, sheets, async state, and reusable screens.

5 stars

Best use case

swiftui-ui-patterns is best used when you need a repeatable AI agent workflow instead of a one-off prompt.

Apply proven SwiftUI UI patterns for navigation, sheets, async state, and reusable screens.

Teams using swiftui-ui-patterns should expect a more consistent output, faster repeated execution, less prompt rewriting.

When to use this skill

  • You want a reusable workflow that can be run more than once with consistent structure.

When not to use this skill

  • You only need a quick one-off answer and do not need a reusable workflow.
  • You cannot install or maintain the underlying files, dependencies, or repository context.

Installation

Claude Code / Cursor / Codex

$curl -o ~/.claude/skills/swiftui-ui-patterns/SKILL.md --create-dirs "https://raw.githubusercontent.com/FrancoStino/opencode-skills-collection/main/bundled-skills/swiftui-ui-patterns/SKILL.md"

Manual Installation

  1. Download SKILL.md from GitHub
  2. Place it in .claude/skills/swiftui-ui-patterns/SKILL.md inside your project
  3. Restart your AI agent — it will auto-discover the skill

How swiftui-ui-patterns Compares

Feature / Agentswiftui-ui-patternsStandard Approach
Platform SupportNot specifiedLimited / Varies
Context Awareness High Baseline
Installation ComplexityUnknownN/A

Frequently Asked Questions

What does this skill do?

Apply proven SwiftUI UI patterns for navigation, sheets, async state, and reusable screens.

Where can I find the source code?

You can find the source code on GitHub using the link provided at the top of the page.

SKILL.md Source

# SwiftUI UI Patterns

## Quick start

## When to Use
- When creating or refactoring SwiftUI screens, flows, or reusable UI components.
- When you need guidance on navigation, sheets, async state, previews, or component patterns.

Choose a track based on your goal:

### Existing project

- Identify the feature or screen and the primary interaction model (list, detail, editor, settings, tabbed).
- Find a nearby example in the repo with `rg "TabView\("` or similar, then read the closest SwiftUI view.
- Apply local conventions: prefer SwiftUI-native state, keep state local when possible, and use environment injection for shared dependencies.
- Choose the relevant component reference from `references/components-index.md` and follow its guidance.
- If the interaction reveals secondary content by dragging or scrolling the primary content away, read `references/scroll-reveal.md` before implementing gestures manually.
- Build the view with small, focused subviews and SwiftUI-native data flow.

### New project scaffolding

- Start with `references/app-wiring.md` to wire TabView + NavigationStack + sheets.
- Add a minimal `AppTab` and `RouterPath` based on the provided skeletons.
- Choose the next component reference based on the UI you need first (TabView, NavigationStack, Sheets).
- Expand the route and sheet enums as new screens are added.

## General rules to follow

- Use modern SwiftUI state (`@State`, `@Binding`, `@Observable`, `@Environment`) and avoid unnecessary view models.
- If the deployment target includes iOS 16 or earlier and cannot use the Observation API introduced in iOS 17, fall back to `ObservableObject` with `@StateObject` for root ownership, `@ObservedObject` for injected observation, and `@EnvironmentObject` only for truly shared app-level state.
- Prefer composition; keep views small and focused.
- Use async/await with `.task` and explicit loading/error states. For restart, cancellation, and debouncing guidance, read `references/async-state.md`.
- Keep shared app services in `@Environment`, but prefer explicit initializer injection for feature-local dependencies and models. For root wiring patterns, read `references/app-wiring.md`.
- Prefer the newest SwiftUI API that fits the deployment target and call out the minimum OS whenever a pattern depends on it.
- Maintain existing legacy patterns only when editing legacy files.
- Follow the project's formatter and style guide.
- **Sheets**: Prefer `.sheet(item:)` over `.sheet(isPresented:)` when state represents a selected model. Avoid `if let` inside a sheet body. Sheets should own their actions and call `dismiss()` internally instead of forwarding `onCancel`/`onConfirm` closures.
- **Scroll-driven reveals**: Prefer deriving a normalized progress value from scroll offset and driving the visual state from that single source of truth. Avoid parallel gesture state machines unless scroll alone cannot express the interaction.

## State ownership summary

Use the narrowest state tool that matches the ownership model:

| Scenario | Preferred pattern |
| --- | --- |
| Local UI state owned by one view | `@State` |
| Child mutates parent-owned value state | `@Binding` |
| Root-owned reference model on iOS 17+ | `@State` with an `@Observable` type |
| Child reads or mutates an injected `@Observable` model on iOS 17+ | Pass it explicitly as a stored property |
| Shared app service or configuration | `@Environment(Type.self)` |
| Legacy reference model on iOS 16 and earlier | `@StateObject` at the root, `@ObservedObject` when injected |

Choose the ownership location first, then pick the wrapper. Do not introduce a reference model when plain value state is enough.

## Cross-cutting references

- `references/navigationstack.md`: navigation ownership, per-tab history, and enum routing.
- `references/sheets.md`: centralized modal presentation and enum-driven sheets.
- `references/deeplinks.md`: URL handling and routing external links into app destinations.
- `references/app-wiring.md`: root dependency graph, environment usage, and app shell wiring.
- `references/async-state.md`: `.task`, `.task(id:)`, cancellation, debouncing, and async UI state.
- `references/previews.md`: `#Preview`, fixtures, mock environments, and isolated preview setup.
- `references/performance.md`: stable identity, observation scope, lazy containers, and render-cost guardrails.

## Anti-patterns

- Giant views that mix layout, business logic, networking, routing, and formatting in one file.
- Multiple boolean flags for mutually exclusive sheets, alerts, or navigation destinations.
- Live service calls directly inside `body`-driven code paths instead of view lifecycle hooks or injected models/services.
- Reaching for `AnyView` to work around type mismatches that should be solved with better composition.
- Defaulting every shared dependency to `@EnvironmentObject` or a global router without a clear ownership reason.

## Workflow for a new SwiftUI view

1. Define the view's state, ownership location, and minimum OS assumptions before writing UI code.
2. Identify which dependencies belong in `@Environment` and which should stay as explicit initializer inputs.
3. Sketch the view hierarchy, routing model, and presentation points; extract repeated parts into subviews. For complex navigation, read `references/navigationstack.md`, `references/sheets.md`, or `references/deeplinks.md`. **Build and verify no compiler errors before proceeding.**
4. Implement async loading with `.task` or `.task(id:)`, plus explicit loading and error states when needed. Read `references/async-state.md` when the work depends on changing inputs or cancellation.
5. Add previews for the primary and secondary states, then add accessibility labels or identifiers when the UI is interactive. Read `references/previews.md` when the view needs fixtures or injected mock dependencies.
6. Validate with a build: confirm no compiler errors, check that previews render without crashing, ensure state changes propagate correctly, and sanity-check that list identity and observation scope will not cause avoidable re-renders. Read `references/performance.md` if the screen is large, scroll-heavy, or frequently updated. For common SwiftUI compilation errors — missing `@State` annotations, ambiguous `ViewBuilder` closures, or mismatched generic types — resolve them before updating callsites. **If the build fails:** read the error message carefully, fix the identified issue, then rebuild before proceeding to the next step. If a preview crashes, isolate the offending subview, confirm its state initialisation is valid, and re-run the preview before continuing.

## Component references

Use `references/components-index.md` as the entry point. Each component reference should include:
- Intent and best-fit scenarios.
- Minimal usage pattern with local conventions.
- Pitfalls and performance notes.
- Paths to existing examples in the current repo.

## Adding a new component reference

- Create `references/<component>.md`.
- Keep it short and actionable; link to concrete files in the current repo.
- Update `references/components-index.md` with the new entry.

## Limitations
- Use this skill only when the task clearly matches the scope described above.
- Do not treat the output as a substitute for environment-specific validation, testing, or expert review.
- Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.

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