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// RUN: not %target-swift-frontend %s -typecheck
protocol Resettable : AnyObject {
func reset()
}
internal var _allResettables: [Resettable] = []
public class TypeIndexed<Value> : Resettable {
public init(_ value: Value) {
self.defaultValue = value
_allResettables.append(self)
}
public subscript(t: Any.Type) -> Value {
get {
return byType[ObjectIdentifier(t)] ?? defaultValue
}
set {
byType[ObjectIdentifier(t)] = newValue
}
}
public func reset() { byType = [:] }
internal var byType: [ObjectIdentifier:Value] = [:]
internal var defaultValue: Value
}
public protocol Wrapper {
typealias Base
init(_: Base)
var base: Base {get set}
}
public protocol LoggingType : Wrapper {
typealias Log : AnyObject
}
extension LoggingType {
public var log: Log.Type {
return Log.self
}
public var selfType: Any.Type {
return self.dynamicType
}
}
public class IteratorLog {
public static func dispatchTester<G : IteratorProtocol>(
g: G
) -> LoggingIterator<LoggingIterator<G>> {
return LoggingIterator(LoggingIterator(g))
}
public static var next = TypeIndexed(0)
}
public struct LoggingIterator<Base : IteratorProtocol>
: IteratorProtocol, LoggingType {
typealias Log = IteratorLog
public init(_ base: Base) {
self.base = base
}
public mutating func next() -> Base.Element? {
++Log.next[selfType]
return base.next()
}
public var base: Base
}
public class SequenceLog {
public class func dispatchTester<S: Sequence>(
s: S
) -> LoggingSequence<LoggingSequence<S>> {
return LoggingSequence(LoggingSequence(s))
}
public static var iterator = TypeIndexed(0)
public static var underestimatedCount = TypeIndexed(0)
public static var map = TypeIndexed(0)
public static var filter = TypeIndexed(0)
public static var _customContainsEquatableElement = TypeIndexed(0)
public static var _preprocessingPass = TypeIndexed(0)
public static var _copyToNativeArrayBuffer = TypeIndexed(0)
public static var _copyContents = TypeIndexed(0)
}
public protocol LoggingSequenceType : Sequence, LoggingType {
typealias Base : Sequence
}
extension LoggingSequenceType {
public init(_ base: Base) {
self.base = base
}
public func makeIterator() -> LoggingIterator<Base.Iterator> {
++SequenceLog.iterator[selfType]
return LoggingIterator(base.makeIterator())
}
public func underestimatedCount() -> Int {
++SequenceLog.underestimatedCount[selfType]
return base.underestimatedCount()
}
public func map<T>(
transform: (Base.Iterator.Element) -> T
) -> [T] {
++SequenceLog.map[selfType]
return base.map(transform)
}
public func filter(
isIncluded: (Base.Iterator.Element) -> Bool
) -> [Base.Iterator.Element] {
++SequenceLog.filter[selfType]
return base.filter(isIncluded)
}
public func _customContainsEquatableElement(
element: Base.Iterator.Element
) -> Bool? {
++SequenceLog._customContainsEquatableElement[selfType]
return base._customContainsEquatableElement(element)
}
/// If `self` is multi-pass (i.e., a `Collection`), invoke
/// `preprocess` on `self` and return its result. Otherwise, return
/// `nil`.
public func _preprocessingPass<R>(
_ preprocess: (Self) -> R
) -> R? {
++SequenceLog._preprocessingPass[selfType]
return base._preprocessingPass { _ in preprocess(self) }
}
/// Create a native array buffer containing the elements of `self`,
/// in the same order.
public func _copyToNativeArrayBuffer()
-> _ContiguousArrayBuffer<Base.Iterator.Element> {
++SequenceLog._copyToNativeArrayBuffer[selfType]
return base._copyToNativeArrayBuffer()
}
/// Copy a Sequence into an array.
public func _copyContents(
initializing ptr: UnsafeMutablePointer<Base.Iterator.Element>
) {
++SequenceLog._copyContents[selfType]
return base._copyContents(initializing: ptr)
}
}
public struct LoggingSequence<Base_: Sequence> : LoggingSequenceType {
typealias Log = SequenceLog
typealias Base = Base_
public init(_ base: Base_) {
self.base = base
}
public var base: Base_
}
public class CollectionLog : SequenceLog {
public class func dispatchTester<C: Collection>(
c: C
) -> LoggingCollection<LoggingCollection<C>> {
return LoggingCollection(LoggingCollection(c))
}
static var subscriptIndex = TypeIndexed(0)
static var subscriptRange = TypeIndexed(0)
static var isEmpty = TypeIndexed(0)
static var count = TypeIndexed(0)
static var _customIndexOfEquatableElement = TypeIndexed(0)
static var first = TypeIndexed(0)
}
public protocol LoggingCollectionType : Collection, LoggingSequenceType {
typealias Base : Collection
}
extension LoggingCollectionType {
subscript(position: Base.Index) -> Base.Iterator.Element {
++CollectionLog.subscriptIndex[selfType]
return base[position]
}
subscript(_prext_bounds: Range<Base.Index>) -> Base._prext_SubSequence {
++CollectionLog.subscriptRange[selfType]
return base[_prext_bounds]
}
var isEmpty: Bool {
++CollectionLog.isEmpty[selfType]
return base.isEmpty
}
var count: Base.Index.Distance {
++CollectionLog.count[selfType]
return base.count
}
func _customIndexOfEquatableElement(element: Iterator.Element) -> Base.Index?? {
++CollectionLog._customIndexOfEquatableElement[selfType]
return base._customIndexOfEquatableElement(element)
}
var first: Iterator.Element? {
++CollectionLog.first[selfType]
return base.first
}
}
struct LoggingCollection<Base_: Collection> : LoggingCollectionType {}
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