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Review and fix Swift concurrency issues such as actor isolation and Sendable violations.
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| name | swift-concurrency-expert |
| description | Review and fix Swift concurrency issues such as actor isolation and Sendable violations. |
| risk | safe |
| source | Dimillian/Skills (MIT) |
| date_added | 2026-03-25 |
Review and fix Swift Concurrency issues in Swift 6.2+ codebases by applying actor isolation, Sendable safety, and modern concurrency patterns with minimal behavior changes.
Sendable, @MainActor, or async migration.@MainActor, actor, nonisolated) and whether a default actor isolation mode is enabled.Prefer edits that preserve existing behavior while satisfying data-race safety.
Common fixes:
@MainActor.extension Foo: @MainActor SomeProtocol).@MainActor or move into an actor.@concurrent async function on a nonisolated type or use an actor to guard mutable state.Sendable conformance only when correct; avoid @unchecked Sendable unless you can prove thread safety.UI-bound type — adding @MainActor
// Before: data-race warning because ViewModel is accessed from the main thread
// but has no actor isolation
class ViewModel: ObservableObject {
@Published var title: String = ""
func load() { title = "Loaded" }
}
// After: annotate the whole type so all stored state and methods are
// automatically isolated to the main actor
@MainActor
class ViewModel: ObservableObject {
@Published var title: String = ""
func load() { title = "Loaded" }
}
Protocol conformance isolation
// Before: compiler error — SomeProtocol method is nonisolated but the
// conforming type is @MainActor
@MainActor
class Foo: SomeProtocol {
func protocolMethod() { /* accesses main-actor state */ }
}
// After: scope the conformance to @MainActor so the requirement is
// satisfied inside the correct isolation context
@MainActor
extension Foo: SomeProtocol {
func protocolMethod() { /* safely accesses main-actor state */ }
}
Background work with @concurrent
// Before: expensive computation blocks the main actor
@MainActor
func processData(_ input: [Int]) -> [Int] {
input.map { heavyTransform($0) } // runs on main thread
}
// After: hop off the main actor for the heavy work, then return the result
// The caller awaits the result and stays on its own actor
nonisolated func processData(_ input: [Int]) async -> [Int] {
await Task.detached(priority: .userInitiated) {
input.map { heavyTransform($0) }
}.value
}
// Or, using a @concurrent async function (Swift 6.2+):
@concurrent
func processData(_ input: [Int]) async -> [Int] {
input.map { heavyTransform($0) }
}
references/swift-6-2-concurrency.md for Swift 6.2 changes, patterns, and examples.references/approachable-concurrency.md when the project is opted into approachable concurrency mode.references/swiftui-concurrency-tour-wwdc.md for SwiftUI-specific concurrency guidance.