swift-mirror/validation-test/stdlib/Arrays.swift.gyb

// RUN: %empty-directory(%t)
//
// RUN: %gyb %s -o %t/main.swift
// RUN: %target-clang -fobjc-arc %S/Inputs/SlurpFastEnumeration/SlurpFastEnumeration.m -c -o %t/SlurpFastEnumeration.o
// RUN: %line-directive %t/main.swift -- %target-build-swift %t/main.swift %S/Inputs/DictionaryKeyValueTypes.swift -I %S/Inputs/SlurpFastEnumeration/ -Xlinker %t/SlurpFastEnumeration.o -o %t/Arrays -Xfrontend -disable-access-control
//
// RUN: %target-codesign %t/Arrays
// RUN: %enable-cow-checking %line-directive %t/main.swift -- %target-run %t/Arrays
// REQUIRES: executable_test

import Swift
import StdlibUnittest
import StdlibCollectionUnittest

let CopyToNativeArrayBufferTests = TestSuite("CopyToNativeArrayBufferTests")

extension Array {
  func _rawIdentifier() -> Int {
    return unsafeBitCast(self, to: Int.self)
  }
}

func getCOWFastArray() -> Array<Int> {
  var a = Array<Int>()
  a.reserveCapacity(10)
  a.append(1)
  a.append(2)
  a.append(3)
  return a
}

func getCOWSlowArray() -> Array<COWBox<Int>> {
  var a = Array<COWBox<Int>>()
  a.reserveCapacity(10)
  a.append(COWBox(1))
  a.append(COWBox(2))
  a.append(COWBox(3))
  return a
}

func getDerivedAPIsArray() -> Array<Int> {
  var a = Array<Int>()
  a.append(1010)
  a.append(1020)
  a.append(1030)
  return a
}


CopyToNativeArrayBufferTests.test("Sequence._copyToContiguousArray()") {
  do {
    // Call from a static context.
    let s =
      MinimalSequence(elements: LifetimeTracked(10)..<LifetimeTracked(27))

    expectEqual(0, s.timesMakeIteratorCalled.value)
    let copy = s._copyToContiguousArray()
    expectEqual(1, s.timesMakeIteratorCalled.value)
    expectEqualSequence(
      Array(10..<27),
      copy.map { $0.value })
  }
  do {
    // Call from a generic context.
    let wrapped = MinimalSequence(elements: LifetimeTracked(10)..<LifetimeTracked(27))
    let s = LoggingSequence(wrapping: wrapped)

    expectEqual(0, wrapped.timesMakeIteratorCalled.value)
    let copy = s._copyToContiguousArray()
    expectEqual(1, wrapped.timesMakeIteratorCalled.value)
    expectEqualSequence(
      Array(10..<27),
      copy.map { $0.value })
  }
}

CopyToNativeArrayBufferTests.test("Collection._copyToContiguousArray()") {
  // Check that collections are handled with the collection-specific API.  This
  // means that we are calling the right default implementation (one for
  // collections, not the one for sequences).

  do {
    // Call from a static context.
    let c =
      DefaultedCollection(elements: LifetimeTracked(10)..<LifetimeTracked(27))

    expectEqual(0, c.timesMakeIteratorCalled.value)
    expectEqual(0, c.timesStartIndexCalled.value)
    let copy = c._copyToContiguousArray()
    // _copyToContiguousArray calls Sequence._copyContents, which makes an iterator.
    expectEqual(1, c.timesMakeIteratorCalled.value)
    expectNotEqual(0, c.timesStartIndexCalled.value)
    expectEqualSequence(
      Array(10..<27),
      copy.map { $0.value })
  }
  do {
    // Call from a generic context.
    let wrapped =
      DefaultedCollection(elements: LifetimeTracked(10)..<LifetimeTracked(27))
    let s = LoggingSequence(wrapping: wrapped)
    expectEqual(0, wrapped.timesMakeIteratorCalled.value)
    expectEqual(0, wrapped.timesStartIndexCalled.value)
    let copy = s._copyToContiguousArray()
    // _copyToContiguousArray calls Sequence._copyContents, which makes an iterator.
    expectEqual(1, wrapped.timesMakeIteratorCalled.value)
    expectNotEqual(0, wrapped.timesStartIndexCalled.value)

    expectEqualSequence(
      Array(10..<27),
      copy.map { $0.value })
  }
}

func withInoutInt(_ x: inout Int, body: (_ x: inout Int) -> Void) {
  body(&x)
}

func withInoutT<T>(_ x: inout T, body: (_ x: inout T) -> Void) {
  body(&x)
}

%{
all_array_types = ['ContiguousArray', 'ArraySlice', 'Array']
}%

var ArrayTestSuite = TestSuite("Array")

% for array_type in all_array_types:

extension ${array_type} {
  typealias _BufferID = UnsafeRawPointer?
  var _bufferID: _BufferID {
    return unsafeBitCast(_owner, to: _BufferID.self)
  }
}

ArrayTestSuite.test("${array_type}<TestValueTy>/subscript(_: Int)/COW")
  .code {
  var a: ${array_type}<${array_type}<TestValueTy>> = [[
    TestValueTy(10), TestValueTy(20), TestValueTy(30),
    TestValueTy(40), TestValueTy(50), TestValueTy(60),
    TestValueTy(70)
  ]]
  let identityOuter = a._bufferID
  var identityInner = a[0]._bufferID

  func checkIdentity(_ stackTrace: SourceLocStack) {
    // Does not reallocate storage because we changed a property based on a
    // reference; array storage was not changed.  Writeback of the inner array
    // does not happen.
    expectEqual(identityOuter, a._bufferID, stackTrace: stackTrace)
    expectEqual(identityInner, a[0]._bufferID, stackTrace: stackTrace)
  }

  // Mutating through a subscript expression.
  a[0][0] = TestValueTy(1010)

  checkIdentity(SourceLocStack().withCurrentLoc())

  a[0][1].value = 1020

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutT(&a) {
    (x: inout ${array_type}<${array_type}<TestValueTy>>) in
    x[0][2].value += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutT(&a[0]) {
    (x: inout ${array_type}<TestValueTy>) in
    x[3].value += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  // This will reallocate storage unless Array uses addressors for subscript.
  //withInoutT(&a[0][4]) {
  //  (x: inout TestValueTy) in
  //  x.value += 1000
  //}

  // FIXME: both of these lines crash the compiler.
  // <rdar://problem/18439579> Passing an expression based on addressors as
  // 'inout' crashes SILGen
  //withInoutT(&a[0][5].value, { $0 += 1000 })
  //withInoutInt(&a[0][6].value, { $0 += 1000 })

  // Don't change the last element.

  expectEqual(1010, a[0][0].value)
  expectEqual(1020, a[0][1].value)
  expectEqual(1030, a[0][2].value)
  expectEqual(1040, a[0][3].value)
  expectEqual(50, a[0][4].value)
  expectEqual(60, a[0][5].value)
  expectEqual(70, a[0][6].value)
}

ArrayTestSuite.test("${array_type}<TestValueTy>/subscript(_: Range<Int>)/COW")
  .code {
  var a: ${array_type}<${array_type}<TestValueTy>> = [[
    TestValueTy(10), TestValueTy(20), TestValueTy(30),
    TestValueTy(40), TestValueTy(50), TestValueTy(60),
    TestValueTy(70), TestValueTy(80), TestValueTy(90),
  ]]
  let identityOuter = a._bufferID
  var identityInner = a[0]._bufferID

  func checkIdentity(_ stackTrace: SourceLocStack) {
    // Does not reallocate storage because we changed a property based on a
    // reference; array storage was not changed.
    expectEqual(identityOuter, a._bufferID, stackTrace: stackTrace)
    expectEqual(identityInner, a[0]._bufferID, stackTrace: stackTrace)
  }

  // Mutating through a subscript expression.
  a[0..<1][0][0] = TestValueTy(1010)

  // Reallocates storage because of the writeback in Array.subscript(Int).
  expectEqual(identityOuter, a._bufferID)
  expectNotEqual(identityInner, a[0]._bufferID)
  identityInner = a[0]._bufferID

  a[0..<1][0][1].value = 1020

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutT(&a) {
    (x: inout ${array_type}<${array_type}<TestValueTy>>) in
    x[0..<1][0][2].value += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutT(&a[0..<1]) {
    (x: inout ArraySlice<${array_type}<TestValueTy>>) in
    x[0][3].value += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutT(&a[0..<1][0]) {
    (x: inout ${array_type}<TestValueTy>) in
    x[4].value += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutT(&a[0..<1][0][5]) {
    (x: inout TestValueTy) in
    x.value += 1000
  }

  // Reallocates storage because of the writeback in Array.subscript(Int)
  // (writeback is being requested for the array element even though it is not
  // needed).
  expectEqual(identityOuter, a._bufferID)
  expectNotEqual(identityInner, a[0]._bufferID)
  identityInner = a[0]._bufferID

  withInoutT(&a[0..<1][0][6].value) {
    (x: inout Int) in
    x += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  withInoutInt(&a[0..<1][0][7].value) {
    (x: inout Int) in
    x += 1000
  }

  checkIdentity(SourceLocStack().withCurrentLoc())

  // Don't change the last element.

  expectEqual(1010, a[0][0].value)
  expectEqual(1020, a[0][1].value)
  expectEqual(1030, a[0][2].value)
  expectEqual(1040, a[0][3].value)
  expectEqual(1050, a[0][4].value)
  expectEqual(1060, a[0][5].value)
  expectEqual(1070, a[0][6].value)
  expectEqual(1080, a[0][7].value)
  expectEqual(90, a[0][8].value)
}

% end

ArrayTestSuite.test("sizeof") {
  var a = [ 10, 20, 30 ]
#if arch(i386) || arch(arm) || arch(arm64_32)
  expectEqual(4, MemoryLayout.size(ofValue: a))
#else
  expectEqual(8, MemoryLayout.size(ofValue: a))
#endif
}

ArrayTestSuite.test("valueDestruction") {
  var a = [LifetimeTracked]()
  for i in 100...110 {
    a.append(LifetimeTracked(i))
  }
}

ArrayTestSuite.test("capacity/reserveCapacity(_:)") {
  var a1 = [1010, 1020, 1030]
  expectGE(a1.capacity, 3)
  a1.append(1040)
  expectGT(a1.capacity, 3)

  // Reserving new capacity jumps up to next limit.
  a1.reserveCapacity(7)
  expectGE(a1.capacity, 7)

  // Can reserve right up to a limit.
  a1.reserveCapacity(24)
  expectGE(a1.capacity, 24)

  // Fill up to the limit, no reallocation.
  for v in stride(from: 50, through: 240, by: 10).lazy.map({ 1000 + $0 }) {
    a1.append(v)
  }
  expectEqual(24, a1.count)
  expectGE(a1.capacity, 24)
  a1.append(1250)
  expectGT(a1.capacity, 24)
}

ArrayTestSuite.test("init(arrayLiteral:)") {
  do {
    let empty = Array<Int>()
    expectEqual(0, empty.count)
  }
  do {
    let a = Array(arrayLiteral: 1010)
    expectEqual(1, a.count)
    expectEqual(1010, a[0])
  }
  do {
    let a = Array(arrayLiteral: 1010, 1020)
    expectEqual(2, a.count)
    expectEqual(1010, a[0])
    expectEqual(1020, a[1])
  }
  do {
    let a = Array(arrayLiteral: 1010, 1020, 1030)
    expectEqual(3, a.count)
    expectEqual(1010, a[0])
    expectEqual(1020, a[1])
    expectEqual(1030, a[2])
  }
  do {
    let a = Array(arrayLiteral: 1010, 1020, 1030, 1040)
    expectEqual(4, a.count)
    expectEqual(1010, a[0])
    expectEqual(1020, a[1])
    expectEqual(1030, a[2])
    expectEqual(1040, a[3])
  }
  do {
    let a: Array<Int> = [ 1010, 1020, 1030 ]
    expectEqual(3, a.count)
    expectEqual(1010, a[0])
    expectEqual(1020, a[1])
    expectEqual(1030, a[2])
  }
}

ArrayTestSuite.test("init(repeating:count:)") {
  do {
    let a = Array(repeating: 1010, count: 5)
    expectEqual(a.count, 5)
    expectEqual(1010, a[0])
    expectEqual(1010, a[1])
    expectEqual(1010, a[2])
    expectEqual(1010, a[3])
    expectEqual(1010, a[4])
  }
}

ArrayTestSuite.test("Hashable") {
  let a1: [Array<Int>] = [
    [1, 2, 3],
    [1, 3, 2],
    [3, 1, 2],
    [1, 2],
    [1],
    [],
    [1, 1, 1]
  ]
  checkHashable(a1, equalityOracle: { $0 == $1 })

  let a2: [Array<Array<Int>>] = [
    [[], [1], [1, 2], [2, 1]],
    [[], [1], [2, 1], [2, 1]],
    [[1], [], [2, 1], [2, 1]],
    [[1], [], [2, 1], [2]],
    [[1], [], [2, 1]]
  ]
  checkHashable(a2, equalityOracle: { $0 == $1 })

  // These arrays share the same sequence of leaf integers, but they must
  // still all hash differently.
  let a3: [Array<Array<Int>>] = [
    // Grouping changes must perturb the hash.
    [[1], [2], [3], [4], [5]],
    [[1, 2], [3], [4], [5]],

    [[1], [2, 3], [4], [5]],
    [[1], [2], [3, 4], [5]],
    [[1], [2], [3], [4, 5]],

    [[1, 2, 3], [4], [5]],
    [[1], [2, 3, 4], [5]],
    [[1], [2], [3, 4, 5]],

    [[1, 2, 3, 4], [5]],
    [[1], [2, 3, 4, 5]],

    [[1, 2], [3, 4], [5]],
    [[1], [2, 3], [4, 5]],
    [[1, 2, 3, 4, 5]],

    // Empty arrays must perturb the hash.
    [[], [1], [2], [3], [4], [5]],
    [[1], [], [2], [3], [4], [5]],
    [[1], [2], [3], [4], [5], []],
    [[1], [], [], [2], [3], [], [4], [], [5]],
  ]
  checkHashable(a3, equalityOracle: { $0 == $1 })
}


//===---
// Check that iterators traverse a snapshot of the collection.
//===---

ArrayTestSuite.test("mutationDoesNotAffectIterator/subscript/store") {
  var array = getDerivedAPIsArray()
  let iter = array.makeIterator()
  array[0] = 1011

  expectEqual([1010 ,1020, 1030], Array(IteratorSequence(iter)))
}

ArrayTestSuite.test("mutationDoesNotAffectIterator/removeAt,1") {
  var array = getDerivedAPIsArray()
  let iter = array.makeIterator()
  expectEqual(1010, array.remove(at: 0))

  expectEqual([1010 ,1020, 1030], Array(IteratorSequence(iter)))
}

ArrayTestSuite.test("mutationDoesNotAffectIterator/removeAt,all") {
  var array = getDerivedAPIsArray()
  let iter = array.makeIterator()
  expectEqual(1010, array.remove(at: 0))
  expectEqual(1020, array.remove(at: 0))
  expectEqual(1030, array.remove(at: 0))

  expectEqual([1010 ,1020, 1030], Array(IteratorSequence(iter)))
}

ArrayTestSuite.test(
  "mutationDoesNotAffectIterator/removeAll,keepingCapacity=false") {
  var array = getDerivedAPIsArray()
  let iter = array.makeIterator()
  array.removeAll(keepingCapacity: false)

  expectEqual([1010 ,1020, 1030], Array(IteratorSequence(iter)))
}

ArrayTestSuite.test(
  "mutationDoesNotAffectIterator/removeAll,keepingCapacity=true") {
  var array = getDerivedAPIsArray()
  let iter = array.makeIterator()
  array.removeAll(keepingCapacity: true)

  expectEqual([1010 ,1020, 1030], Array(IteratorSequence(iter)))
}

//===----------------------------------------------------------------------===//
// Native array tests
// FIXME: incomplete.
//===----------------------------------------------------------------------===//

ArrayTestSuite.test("Native/count/empty") {
  let a = [LifetimeTracked]()
  expectEqual(0, a.count)
}

ArrayTestSuite.test("Native/count") {
  let a = [ LifetimeTracked(10), LifetimeTracked(20), LifetimeTracked(30) ]
  expectEqual(3, a.count)
}

ArrayTestSuite.test("Native/isEmpty/empty") {
  let a = [LifetimeTracked]()
  expectTrue(a.isEmpty)
}

ArrayTestSuite.test("Native/isEmpty") {
  let a = [ LifetimeTracked(10), LifetimeTracked(20), LifetimeTracked(30) ]
  expectFalse(a.isEmpty)
}

% for Kind in ['Array', 'ContiguousArray', 'ArraySlice']:
ArrayTestSuite.test("${Kind}/popLast") {
  // Empty
  do {
    var a = ${Kind}<Int>()
    let popped = a.popLast()
    expectNil(popped)
    expectTrue(a.isEmpty)
  }

  do {
    var popped = [LifetimeTracked]()
    var a: ${Kind} = [LifetimeTracked(1010), LifetimeTracked(2020), LifetimeTracked(3030)]
    while let element = a.popLast() {
      popped.append(element)
    }
    expectEqualSequence([1010, 2020, 3030], popped.reversed().lazy.map({ $0.value }))
    expectTrue(a.isEmpty)
  }
}
% end

//===----------------------------------------------------------------------===//
// COW(🐄) tests
//===----------------------------------------------------------------------===//

class COWBox<
  T: Equatable & CustomStringConvertible>
  : Equatable, CustomStringConvertible {
  var value: T
  
  init(_ value: T) {
    self.value = value
  }
  
  var description: String {
    return "Boxed: \(value.description)"
  }
  
  static func ==(lhs: COWBox, rhs: COWBox) -> Bool {
    return lhs.value == rhs.value
  }
}

ArrayTestSuite.test("COW.Smoke") {
  var a1 = Array<COWBox<Int>>(repeating: COWBox(0), count: 10)
  let identity1 = a1._rawIdentifier()
  
  a1[0] = COWBox(1)
  a1[1] = COWBox(2)
  a1[2] = COWBox(3)
  
  var a2 = a1
  expectEqual(identity1, a2._rawIdentifier())
  
  a2[3] = COWBox(4)
  expectNotEqual(identity1, a2._rawIdentifier())
  
  a1[4] = COWBox(5)
  expectEqual(identity1, a1._rawIdentifier())
  
  _blackHole(a1)
  _blackHole(a2)  
}

ArrayTestSuite.test("COW.Fast.SubscriptWithIndexDoesNotReallocate") {
  var a = getCOWFastArray()
  let identity1 = a._rawIdentifier()
  let startIndex = a.startIndex

  expectNotEqual(0, a[startIndex])
  expectEqual(identity1, a._rawIdentifier())
}

ArrayTestSuite.test("COW.Slow.SubscriptWithIndexDoesNotReallocate") {
  var a = getCOWSlowArray()
  let identity1 = a._rawIdentifier()
  let startIndex = a.startIndex

  expectNotEqual(0, a[startIndex].value)
  expectEqual(identity1, a._rawIdentifier())
}

ArrayTestSuite.test("COW.Fast.RemoveAtDoesNotReallocate") {
  do {
    var a = getCOWFastArray()
    let identity1 = a._rawIdentifier()

    let index1 = 1
    expectEqual(identity1, a._rawIdentifier())

    expectEqual(2, a[index1])

    let removed = a.remove(at: index1)
    expectEqual(2, removed)

    expectEqual(identity1, a._rawIdentifier())
  }

  do {
    let a1 = getCOWFastArray()
    let identity1 = a1._rawIdentifier()

    var a2 = a1
    expectEqual(identity1, a1._rawIdentifier())
    expectEqual(identity1, a2._rawIdentifier())

    let index1 = 1
    expectEqual(2, a2[index1])
    expectEqual(identity1, a1._rawIdentifier())
    expectEqual(identity1, a2._rawIdentifier())

    let removed = a2.remove(at: index1)
    expectEqual(2, removed)

    expectEqual(identity1, a1._rawIdentifier())
    expectNotEqual(identity1, a2._rawIdentifier())
  }
}

ArrayTestSuite.test("COW.Slow.RemoveAtDoesNotReallocate") {
  do {
    var a = getCOWSlowArray()
    let identity1 = a._rawIdentifier()

    let index1 = 1
    expectEqual(identity1, a._rawIdentifier())

    expectEqual(2, a[index1].value)

    let removed = a.remove(at: index1)
    expectEqual(2, removed.value)

    expectEqual(identity1, a._rawIdentifier())
  }

  do {
    let a1 = getCOWSlowArray()
    let identity1 = a1._rawIdentifier()

    var a2 = a1
    expectEqual(identity1, a1._rawIdentifier())
    expectEqual(identity1, a2._rawIdentifier())

    let index1 = 1
    expectEqual(2, a2[index1].value)
    expectEqual(identity1, a1._rawIdentifier())
    expectEqual(identity1, a2._rawIdentifier())

    let removed = a2.remove(at: index1)
    expectEqual(2, removed.value)

    expectEqual(identity1, a1._rawIdentifier())
    expectNotEqual(identity1, a2._rawIdentifier())
  }
}

ArrayTestSuite.test("COW.Fast.RemoveAllDoesNotReallocate")
  .skip(.linuxAny(reason: "rdar://problem/34268868")).code {
  do {
    var a = getCOWFastArray()
    let originalCapacity = a.capacity
    expectEqual(3, a.count)
    expectEqual(2, a[1])

    a.removeAll()
    let identity1 = a._rawIdentifier()
    expectLT(a.capacity, originalCapacity)
    expectEqual(0, a.count)
    expectEqual(identity1, a._rawIdentifier())
  }

  do {
    var a = getCOWFastArray()
    let identity1 = a._rawIdentifier()
    let originalCapacity = a.capacity
    expectEqual(3, a.count)
    expectEqual(2, a[1])

    a.removeAll(keepingCapacity: true)
    expectEqual(identity1, a._rawIdentifier())
    expectEqual(originalCapacity, a.capacity)
    expectEqual(0, a.count)
  }

  do {
    var a1 = getCOWFastArray()
    let identity1 = a1._rawIdentifier()
    expectEqual(3, a1.count)
    expectEqual(2, a1[1])

    var a2 = a1
    a2.removeAll()
    let identity2 = a2._rawIdentifier()
    expectEqual(identity1, a1._rawIdentifier())
    expectNotEqual(identity2, identity1)
    expectEqual(3, a1.count)
    expectEqual(2, a1[1])
    expectEqual(0, a2.count)

    // Keep variables alive.
    _blackHole(a1)
    _blackHole(a2)
  }

  do {
    var a1 = getCOWFastArray()
    let identity1 = a1._rawIdentifier()
    let originalCapacity = a1.capacity
    expectEqual(3, a1.count)
    expectEqual(2, a1[1])

    var a2 = a1
    a2.removeAll(keepingCapacity: true)
    let identity2 = a2._rawIdentifier()
    expectEqual(identity1, a1._rawIdentifier())
    expectNotEqual(identity2, identity1)
    expectEqual(3, a1.count)
    expectEqual(2, a1[1])
    expectEqual(originalCapacity, a2.capacity)
    expectEqual(0, a2.count)

    // Keep variables alive.
    _blackHole(a1)
    _blackHole(a2)
  }
}

ArrayTestSuite.test("COW.Slow.RemoveAllDoesNotReallocate")
  .skip(.linuxAny(reason: "rdar://problem/34268868")).code {
  do {
    var a = getCOWSlowArray()
    let originalCapacity = a.capacity
    expectEqual(3, a.count)
    expectEqual(2, a[1].value)

    a.removeAll()
    let identity1 = a._rawIdentifier()
    expectLT(a.capacity, originalCapacity)
    expectEqual(0, a.count)
    expectEqual(identity1, a._rawIdentifier())
  }

  do {
    var a = getCOWSlowArray()
    let identity1 = a._rawIdentifier()
    let originalCapacity = a.capacity
    expectEqual(3, a.count)
    expectEqual(2, a[1].value)

    a.removeAll(keepingCapacity: true)
    expectEqual(identity1, a._rawIdentifier())
    expectEqual(originalCapacity, a.capacity)
    expectEqual(0, a.count)
  }

  do {
    var a1 = getCOWSlowArray()
    let identity1 = a1._rawIdentifier()
    expectEqual(3, a1.count)
    expectEqual(2, a1[1].value)

    var a2 = a1
    a2.removeAll()
    let identity2 = a2._rawIdentifier()
    expectEqual(identity1, a1._rawIdentifier())
    expectNotEqual(identity2, identity1)
    expectEqual(3, a1.count)
    expectEqual(2, a1[1].value)
    expectEqual(0, a2.count)

    // Keep variables alive.
    _blackHole(a1)
    _blackHole(a2)
  }

  do {
    var a1 = getCOWSlowArray()
    let identity1 = a1._rawIdentifier()
    let originalCapacity = a1.capacity
    expectEqual(3, a1.count)
    expectEqual(2, a1[1].value)

    var a2 = a1
    a2.removeAll(keepingCapacity: true)
    let identity2 = a2._rawIdentifier()
    expectEqual(identity1, a1._rawIdentifier())
    expectNotEqual(identity2, identity1)
    expectEqual(3, a1.count)
    expectEqual(2, a1[1].value)
    expectEqual(originalCapacity, a2.capacity)
    expectEqual(0, a2.count)

    // Keep variables alive.
    _blackHole(a1)
    _blackHole(a2)
  }
}

ArrayTestSuite.test("COW.Fast.CountDoesNotReallocate") {
  let a = getCOWFastArray()
  let identity1 = a._rawIdentifier()

  expectEqual(3, a.count)
  expectEqual(identity1, a._rawIdentifier())
}

ArrayTestSuite.test("COW.Slow.CountDoesNotReallocate") {
  let a = getCOWSlowArray()
  let identity1 = a._rawIdentifier()

  expectEqual(3, a.count)
  expectEqual(identity1, a._rawIdentifier())
}

ArrayTestSuite.test("COW.Fast.GenerateDoesNotReallocate") {
  let a = getCOWFastArray()
  let identity1 = a._rawIdentifier()

  var iter = a.makeIterator()
  var copy = Array<Int>()
  while let value = iter.next() {
    copy.append(value)
  }
  expectEqual(copy, [ 1, 2, 3 ])
  expectEqual(identity1, a._rawIdentifier())
}

ArrayTestSuite.test("COW.Slow.GenerateDoesNotReallocate") {
  let a = getCOWSlowArray()
  let identity1 = a._rawIdentifier()

  var iter = a.makeIterator()
  var copy = Array<Int>()
  while let value = iter.next() {
    copy.append(value.value)
  }
  expectEqual(copy, [ 1, 2, 3 ])
  expectEqual(identity1, a._rawIdentifier())
}

ArrayTestSuite.test("COW.Fast.EqualityTestDoesNotReallocate") {
  let a1 = getCOWFastArray()
  let identity1 = a1._rawIdentifier()

  var a2 = getCOWFastArray()
  let identity2 = a2._rawIdentifier()

  expectEqual(a1, a2)
  expectEqual(identity1, a1._rawIdentifier())
  expectEqual(identity2, a2._rawIdentifier())

  a2[1] = 5
  expectTrue(a1 != a2)
  expectEqual(identity1, a1._rawIdentifier())
  expectEqual(identity2, a2._rawIdentifier())
}

ArrayTestSuite.test("COW.Slow.EqualityTestDoesNotReallocate") {
  let a1 = getCOWSlowArray()
  let identity1 = a1._rawIdentifier()

  var a2 = getCOWSlowArray()
  let identity2 = a2._rawIdentifier()

  expectEqual(a1, a2)
  expectEqual(identity1, a1._rawIdentifier())
  expectEqual(identity2, a2._rawIdentifier())

  a2[2] = COWBox(5)
  expectTrue(a1 != a2)
  expectEqual(identity1, a1._rawIdentifier())
  expectEqual(identity2, a2._rawIdentifier())
}

//===----------------------------------------------------------------------===//
// Index tests
//===----------------------------------------------------------------------===//
public struct ArrayIndexTest<T: Collection> {  
  public enum Operation {
    case append(Int)
    case insert(Int, at: Int)
    case partition(by: (OpaqueValue<Int>) throws -> Bool)
    case removeFirst
    case removeFirstN(Int)
    case removeLast
    case removeLastN(Int)
    case removeAt(Int)
    case removeAll(Bool)
    case removeClosedSubrange(ClosedRange<Int>)
    case removeHalfClosedSubrange(Range<Int>)
  }
  
  public let data: T
  public let expectedStart: Int
  public let expectedEnd: Int
  public let range: Range<Int>?
  public let operation: Operation
  public let loc: SourceLoc

  public init(data: T, expectedStart: Int, expectedEnd: Int, 
        operation: Operation, range: Range<Int>? = nil,
        file: String = #file, line: UInt = #line) {
    self.data = data
    self.expectedStart = expectedStart
    self.expectedEnd = expectedEnd
    self.operation = operation
    self.range = range
    self.loc = SourceLoc(file, line, comment: "Array index test data")
  }
}

let indexTests: [ArrayIndexTest<[Int]>] = [
  // Check how partition() affects indices.
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .partition(by: { $0.value > 100 } ),
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 3,
    operation: .partition(by: { $0.value > 0} ),
    range: 1..<3
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 3,
    operation: .partition(by: { $0.value > 3000 }),
    range: 1..<3
  ),
  // Check how partition(by:) affects indices. 
  ArrayIndexTest(
    data: [ 10, 2, -33, 44, -5 ],
    expectedStart: 0,
    expectedEnd: 5,
    operation: .partition(by: { $0.value > 0 })
  ),
  ArrayIndexTest(
    data: [ 10, 2, -33, 44, -5 ],
    expectedStart: 0,
    expectedEnd: 5,
    operation: .partition(by: { $0.value > 100 })
  ),
  // Check how append affects indices.
  ArrayIndexTest(
    data: [ 2 ],
    expectedStart: 0,
    expectedEnd: 2,
    operation: .append(1)
  ),
  ArrayIndexTest(
    data: [],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .append(1)
  ),
  // FIXME: re-enable when rdar://problem/33358110 is addressed
  // ArrayIndexTest(
  //   data: [ 42, 2525, 3535, 42 ],
  //   expectedStart: 1,
  //   expectedEnd: 3,
  //   operation: .append(1),
  //   range: 1..<2
  // ),
  // Check how insert(_:at:) affects indices.
  ArrayIndexTest(
    data: [ 2 ],
    expectedStart: 0,
    expectedEnd: 2,
    operation: .insert(2, at: 0)
  ),
  ArrayIndexTest(
    data: [ 2 ],
    expectedStart: 0,
    expectedEnd: 2,
    operation: .insert(2, at: 1)
  ),
  ArrayIndexTest(
    data: [ 42, 2525, 3535, 42 ],
    expectedStart: 1,
    expectedEnd: 3,
    operation: .insert(2, at: 1),
    range: 1..<2
  ),
  // Check how removeLast() affects indices.
  ArrayIndexTest(
    data: [ 1 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeLast
  ),
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeLast
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeLast,
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .removeLast,
    range: 1..<3
  ),
  // Check how remove(at:) affects indices.
  ArrayIndexTest(
    data: [ 1 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeAt(0)
  ),
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeAt(1)
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeAt(1),
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .removeAt(1),
    range: 1..<3
  ),
  // Check how removeAll(keepingCapacity:) affects indices.
  ArrayIndexTest(
    data: [ 1, 2, 3 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeAll(true)
  ),
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeAll(false)
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeAll(true),
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeAll(false),
    range: 1..<2
  ),
  // Check how removeFirst() affects indices.
  ArrayIndexTest(
    data: [ 1 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeFirst
  ),
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeFirst
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 2,
    expectedEnd: 2,
    operation: .removeFirst,
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 2,
    expectedEnd: 3,
    operation: .removeFirst,
    range: 1..<3
  ),
  // Check how removeFirst(_:) affects indices.
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeFirstN(2)
  ),
  ArrayIndexTest(
    data: [ 1, 2, 3, 4 ],
    expectedStart: 0,
    expectedEnd: 2,
    operation: .removeFirstN(2)
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 3,
    expectedEnd: 3,
    operation: .removeFirstN(2),
    range: 1..<3
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 3,
    expectedEnd: 4,
    operation: .removeFirstN(2),
    range: 1..<4
  ),
  // Check how removeLast() affects indices.
  ArrayIndexTest(
    data: [ 1 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeLast
  ),
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeLast
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeLast,
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeLast,
    range: 1..<2
  ),
  // Check how removeSubrange(_:ClosedRange) affects indices.
  ArrayIndexTest(
    data: [ 1 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeHalfClosedSubrange(0..<1)
  ),
  ArrayIndexTest(
    data: [ 1, 2, 3 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeHalfClosedSubrange(0..<2)
  ),
  ArrayIndexTest(
    data: [ 1, 2, 3 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeHalfClosedSubrange(0..<3)
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeHalfClosedSubrange(1..<2),
    range: 1..<2
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .removeHalfClosedSubrange(1..<2),
    range: 1..<3
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .removeHalfClosedSubrange(2..<4),
    range: 1..<4
  ),
  // Check how removeSubrange(_:Range) affects indices.
  ArrayIndexTest(
    data: [ 1, 2 ],
    expectedStart: 0,
    expectedEnd: 0,
    operation: .removeClosedSubrange(0...1)
  ),
  ArrayIndexTest(
    data: [ 1, 2, 3 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeClosedSubrange(0...1)
  ),
  ArrayIndexTest(
    data: [ 1, 2, 3 ],
    expectedStart: 0,
    expectedEnd: 1,
    operation: .removeClosedSubrange(0...2)
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 99 ],
    expectedStart: 1,
    expectedEnd: 1,
    operation: .removeClosedSubrange(1...2),
    range: 1..<3
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99, 44 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .removeClosedSubrange(2...3),
    range: 1..<4
  ),
  ArrayIndexTest(
    data: [ 99, 1010, 2020, 99, 44 ],
    expectedStart: 1,
    expectedEnd: 2,
    operation: .removeClosedSubrange(1...2),
    range: 1..<4
  )
]

% for Kind in ['Array', 'ContiguousArray', 'ArraySlice']:
ArrayTestSuite.test("ArrayIndexTests") {
  for test in indexTests {
    let testData = test.data.map(OpaqueValue.init)
% if Kind == 'ArraySlice':
    guard let range = test.range else { continue }
    var a = testData[range]
% else:
    if test.range != nil { continue }
    var a = ${Kind}(testData)
% end

    switch test.operation {
    case let .append(v):
      a.append(OpaqueValue(v))
    case let .insert(v, index):
      a.insert(OpaqueValue(v), at: index)
    case let .partition(c):
      expectDoesNotThrow({ 
        _ = try a.partition(by: c) 
      })
    case .removeFirst:
      a.removeFirst()
    case let .removeFirstN(n):
      a.removeFirst(n)
    case .removeLast:
      a.removeLast()
    case let .removeLastN(n):
      a.removeLast(n)
    case let .removeAt(index):
      a.remove(at: index)
    case let .removeAll(keepCapacity):
      a.removeAll(keepingCapacity: keepCapacity)
    case let .removeHalfClosedSubrange(range):
        a.removeSubrange(range)
    case let .removeClosedSubrange(range):
        a.removeSubrange(range)
    }
    
    expectEqual(test.expectedStart, a.startIndex, stackTrace: SourceLocStack().with(test.loc))
    expectEqual(test.expectedEnd, a.endIndex, stackTrace: SourceLocStack().with(test.loc))
  }
}
% end

//===----------------------------------------------------------------------===//
// Array and EvilCollection that changes its size while we are not looking
//===----------------------------------------------------------------------===//

let evilBoundsError = "EvilCollection: index out of range"

final class EvilSequence : Sequence {
  init(_ growth: Int) {
    self.growth = growth
  }

  var growth: Int
  var _count: Int = 20

  var underestimatedCount: Int {
    defer { _count += growth }
    return _count
  }

  func makeIterator() -> AnyIterator<LifetimeTracked> {
    var i = 0
    return AnyIterator {
      if i >= self._count { return nil }
      let result = LifetimeTracked(i)
      i += 1
      return result
    }
  }
}

final class EvilCollection : Collection {
  func index(after i: Int) -> Int {
    return i + 1
  }

  init(_ growth: Int, boundsChecked: Bool) {
    self.growth = growth
    self.boundsChecked = boundsChecked
  }

  var growth: Int
  var _count: Int = 20
  var boundsChecked: Bool

  var startIndex : Int {
    _count += growth
    return 0
  }

  var endIndex : Int {
    return _count
  }

  subscript(i: Int) -> LifetimeTracked {
    if boundsChecked {
      precondition(i >= 0 && i < _count, evilBoundsError)
    }
    return LifetimeTracked(i)
  }

  // Default implementation will call _failEarlyRangeCheck,
  // passing in a startIndex that will grow _count faster than
  // necessary.
  func formIndex(after i: inout Int) {
    i += 1
  }
}

for (step, evilBoundsCheck) in [ (1, true), (-1, false), (-1, true) ] {

  let message = step < 0 && evilBoundsCheck
    ? evilBoundsError
    : "invalid Collection: count differed in successive traversals"

  let constructionMessage = step < 0
    ? "invalid Collection: less than 'count' elements in collection"
    : "invalid Collection: more than 'count' elements in collection"

  // The invalid Collection error is a _debugPrecondition that will only fire
  // in a Debug assert configuration.
  let expectedToFail = (step < 0 && evilBoundsCheck) ||
                       _isDebugAssertConfiguration()

  let natureOfEvil = step > 0 ? "Growth" : "Shrinkage"
  let boundsChecked = evilBoundsCheck ? "BoundsChecked" : "NoBoundsCheck"
  let testPrefix = "MemorySafety/\(boundsChecked)/Evil\(natureOfEvil)"

  ArrayTestSuite.test("\(testPrefix)/Infrastructure/EvilSequence") {
    let evil = EvilSequence(step)
    let count0 = evil.underestimatedCount
    let count1 = evil.underestimatedCount
    expectNotEqual(count0, count1)
   if step > 0 {
      expectLE(count0, count1)
    }
    else {
      expectGE(count0, count1)
    }
  }

  let t1 = ArrayTestSuite.test("\(testPrefix)/Infrastructure/EvilCollection")
  (evilBoundsCheck && _isDebugAssertConfiguration()
    ? t1.crashOutputMatches(evilBoundsError) : t1)
  .code {
    let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)
    let count0 = evil.count
    let count1 = evil.count
    expectNotEqual(count0, count1)
   if step > 0 {
      expectLE(count0, count1)
    }
    else {
      expectGE(count0, count1)
    }
    if evilBoundsCheck {
      expectCrashLater()
    }
    let x = evil[-1]
    _blackHole(x)
  }

  let t2 = ArrayTestSuite.test("\(testPrefix)/Construction")
  (_isDebugAssertConfiguration() && expectedToFail
    ? t2.crashOutputMatches(constructionMessage) : t2)
  .code {
    let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)

    if step < 0 || _isDebugAssertConfiguration() {
      expectCrashLater()
    }

    let a = Array(evil)
    _blackHole(a)
  }

  for (op, rangeMax) in ["Grow":0, "Shrink":200] {
    let t3 =  ArrayTestSuite.test("\(testPrefix)/replaceSubrange/\(op)Unique")
    (_isDebugAssertConfiguration() ? t3.crashOutputMatches(message) : t3)
    .code {
      let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)
      var a = Array((0..<200).lazy.map { LifetimeTracked($0) })
      if expectedToFail {
        expectCrashLater()
      }
      a.replaceSubrange(0..<rangeMax, with: evil)
    }

    let t4 = ArrayTestSuite.test("\(testPrefix)/replaceSubrange/\(op)NonUnique")
    (_isDebugAssertConfiguration() ? t4.crashOutputMatches(message) : t4)
    .code {
      let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)
      var a = Array((0..<200).lazy.map { LifetimeTracked($0) })
      let b = a
      if expectedToFail {
        expectCrashLater()
      }
      a.replaceSubrange(0..<rangeMax, with: evil)
      _blackHole(b)
    }
  }

  ArrayTestSuite.test("\(testPrefix)/SequenceMap")
  .skip(.custom(
    { _isFastAssertConfiguration() },
    reason: "this trap is not guaranteed to happen in -Ounchecked"))
  .code {
    let evil = EvilSequence(step)

    if step < 0 {
      expectCrashLater()
    }
    let a = evil.map { $0 }
    _blackHole(a)
  }

  ArrayTestSuite.test("\(testPrefix)/CollectionMap")
  .code {
    let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)

    if expectedToFail {
      expectCrashLater()
    }

    let a = evil.map { $0 }
    _blackHole(a)
  }

  ArrayTestSuite.test("\(testPrefix)/FilterAll")
  .code {
    let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)

    let a = evil.filter { _ in true }
    _blackHole(a)
  }

  ArrayTestSuite.test("\(testPrefix)/FilterNone")
  .code {
    let evil = EvilCollection(step, boundsChecked: evilBoundsCheck)

    let a = evil.filter { _ in false }
    _blackHole(a)
  }
}

runAllTests()