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swift-mirror/stdlib/public/core/Result.swift
Doug Gregor 1a1f79c0de Introduce safety checkin for ConcurrentValue conformance. 
Introduce checking of ConcurrentValue conformances:
- For structs, check that each stored property conforms to ConcurrentValue
- For enums, check that each associated value conforms to ConcurrentValue
- For classes, check that each stored property is immutable and conforms
  to ConcurrentValue

Because all of the stored properties / associated values need to be
visible for this check to work, limit ConcurrentValue conformances to
be in the same source file as the type definition.

This checking can be disabled by conforming to a new marker protocol,
UnsafeConcurrentValue, that refines ConcurrentValue.
UnsafeConcurrentValue otherwise his no specific meaning. This allows
both "I know what I'm doing" for types that manage concurrent access
themselves as well as enabling retroactive conformance, both of which
are fundamentally unsafe but also quite necessary.

The bulk of this change ended up being to the standard library, because
all conformances of standard library types to the ConcurrentValue
protocol needed to be sunk down into the standard library so they
would benefit from the checking above. There were numerous little
mistakes in the initial pass through the stsandard library types that
have now been corrected.
2021-02-04 03:45:09 -08:00

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//===----------------------------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2018 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
/// A value that represents either a success or a failure, including an
/// associated value in each case.
@frozen
public enum Result<Success, Failure: Error> {
/// A success, storing a `Success` value.
case success(Success)
/// A failure, storing a `Failure` value.
case failure(Failure)
/// Returns a new result, mapping any success value using the given
/// transformation.
///
/// Use this method when you need to transform the value of a `Result`
/// instance when it represents a success. The following example transforms
/// the integer success value of a result into a string:
///
/// func getNextInteger() -> Result<Int, Error> { /* ... */ }
///
/// let integerResult = getNextInteger()
/// // integerResult == .success(5)
/// let stringResult = integerResult.map({ String($0) })
/// // stringResult == .success("5")
///
/// - Parameter transform: A closure that takes the success value of this
/// instance.
/// - Returns: A `Result` instance with the result of evaluating `transform`
/// as the new success value if this instance represents a success.
@inlinable
public func map<NewSuccess>(
_ transform: (Success) -> NewSuccess
) -> Result<NewSuccess, Failure> {
switch self {
case let .success(success):
return .success(transform(success))
case let .failure(failure):
return .failure(failure)
}
}
/// Returns a new result, mapping any failure value using the given
/// transformation.
///
/// Use this method when you need to transform the value of a `Result`
/// instance when it represents a failure. The following example transforms
/// the error value of a result by wrapping it in a custom `Error` type:
///
/// struct DatedError: Error {
/// var error: Error
/// var date: Date
///
/// init(_ error: Error) {
/// self.error = error
/// self.date = Date()
/// }
/// }
///
/// let result: Result<Int, Error> = // ...
/// // result == .failure(<error value>)
/// let resultWithDatedError = result.mapError({ e in DatedError(e) })
/// // result == .failure(DatedError(error: <error value>, date: <date>))
///
/// - Parameter transform: A closure that takes the failure value of the
/// instance.
/// - Returns: A `Result` instance with the result of evaluating `transform`
/// as the new failure value if this instance represents a failure.
@inlinable
public func mapError<NewFailure>(
_ transform: (Failure) -> NewFailure
) -> Result<Success, NewFailure> {
switch self {
case let .success(success):
return .success(success)
case let .failure(failure):
return .failure(transform(failure))
}
}
/// Returns a new result, mapping any success value using the given
/// transformation and unwrapping the produced result.
///
/// Use this method to avoid a nested result when your transformation
/// produces another `Result` type.
///
/// In this example, note the difference in the result of using `map` and
/// `flatMap` with a transformation that returns an result type.
///
/// func getNextInteger() -> Result<Int, Error> {
/// .success(4)
/// }
/// func getNextAfterInteger(_ n: Int) -> Result<Int, Error> {
/// .success(n + 1)
/// }
///
/// let result = getNextInteger().map({ getNextAfterInteger($0) })
/// // result == .success(.success(5))
///
/// let result = getNextInteger().flatMap({ getNextAfterInteger($0) })
/// // result == .success(5)
///
/// - Parameter transform: A closure that takes the success value of the
/// instance.
/// - Returns: A `Result` instance with the result of evaluating `transform`
/// as the new failure value if this instance represents a failure.
@inlinable
public func flatMap<NewSuccess>(
_ transform: (Success) -> Result<NewSuccess, Failure>
) -> Result<NewSuccess, Failure> {
switch self {
case let .success(success):
return transform(success)
case let .failure(failure):
return .failure(failure)
}
}
/// Returns a new result, mapping any failure value using the given
/// transformation and unwrapping the produced result.
///
/// - Parameter transform: A closure that takes the failure value of the
/// instance.
/// - Returns: A `Result` instance, either from the closure or the previous
/// `.success`.
@inlinable
public func flatMapError<NewFailure>(
_ transform: (Failure) -> Result<Success, NewFailure>
) -> Result<Success, NewFailure> {
switch self {
case let .success(success):
return .success(success)
case let .failure(failure):
return transform(failure)
}
}
/// Returns the success value as a throwing expression.
///
/// Use this method to retrieve the value of this result if it represents a
/// success, or to catch the value if it represents a failure.
///
/// let integerResult: Result<Int, Error> = .success(5)
/// do {
/// let value = try integerResult.get()
/// print("The value is \(value).")
/// } catch {
/// print("Error retrieving the value: \(error)")
/// }
/// // Prints "The value is 5."
///
/// - Returns: The success value, if the instance represents a success.
/// - Throws: The failure value, if the instance represents a failure.
@inlinable
public func get() throws -> Success {
switch self {
case let .success(success):
return success
case let .failure(failure):
throw failure
}
}
}
extension Result where Failure == Swift.Error {
/// Creates a new result by evaluating a throwing closure, capturing the
/// returned value as a success, or any thrown error as a failure.
///
/// - Parameter body: A throwing closure to evaluate.
@_transparent
public init(catching body: () throws -> Success) {
do {
self = .success(try body())
} catch {
self = .failure(error)
}
}
}
extension Result: Equatable where Success: Equatable, Failure: Equatable { }
extension Result: Hashable where Success: Hashable, Failure: Hashable { }
extension Result: ConcurrentValue where Success: ConcurrentValue, Failure: ConcurrentValue { }
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