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path: root/xpcom/tests/gtest/TestTArray2.cpp
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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "mozilla/ArrayUtils.h"
#include "mozilla/Unused.h"

#include <stdlib.h>
#include <stdio.h>
#include <iostream>
#include "nsTArray.h"
#include "nsAutoPtr.h"
#include "nsString.h"
#include "nsDirectoryServiceDefs.h"
#include "nsDirectoryServiceUtils.h"
#include "nsComponentManagerUtils.h"
#include "nsXPCOM.h"
#include "nsIFile.h"

#include "gtest/gtest.h"

using namespace mozilla;

namespace TestTArray {

// Define this so we can use test_basic_array in test_comptr_array
template <class T>
inline bool operator<(const nsCOMPtr<T>& lhs, const nsCOMPtr<T>& rhs) {
  return lhs.get() < rhs.get();
}

//----

template <class ElementType>
static bool test_basic_array(ElementType *data,
                             size_t dataLen,
                             const ElementType& extra) {
  nsTArray<ElementType> ary;
  ary.AppendElements(data, dataLen);
  if (ary.Length() != dataLen) {
    return false;
  }
  if (!(ary == ary)) {
    return false;
  }
  size_t i;
  for (i = 0; i < ary.Length(); ++i) {
    if (ary[i] != data[i])
      return false;
  }
  for (i = 0; i < ary.Length(); ++i) {
    if (ary.SafeElementAt(i, extra) != data[i])
      return false;
  }
  if (ary.SafeElementAt(ary.Length(), extra) != extra ||
      ary.SafeElementAt(ary.Length() * 10, extra) != extra)
    return false;
  // ensure sort results in ascending order
  ary.Sort();
  size_t j = 0, k = ary.IndexOfFirstElementGt(extra);
  if (k != 0 && ary[k-1] == extra)
    return false;
  for (i = 0; i < ary.Length(); ++i) {
    k = ary.IndexOfFirstElementGt(ary[i]);
    if (k == 0 || ary[k-1] != ary[i])
      return false;
    if (k < j)
      return false;
    j = k;
  }
  for (i = ary.Length(); --i; ) {
    if (ary[i] < ary[i - 1])
      return false;
    if (ary[i] == ary[i - 1])
      ary.RemoveElementAt(i);
  }
  if (!(ary == ary)) {
    return false;
  }
  for (i = 0; i < ary.Length(); ++i) {
    if (ary.BinaryIndexOf(ary[i]) != i)
      return false;
  }
  if (ary.BinaryIndexOf(extra) != ary.NoIndex)
    return false;
  size_t oldLen = ary.Length();
  ary.RemoveElement(data[dataLen / 2]);
  if (ary.Length() != (oldLen - 1))
    return false;
  if (!(ary == ary))
    return false;

  size_t index = ary.Length() / 2;
  if (!ary.InsertElementAt(index, extra))
    return false;
  if (!(ary == ary))
    return false;
  if (ary[index] != extra)
    return false;
  if (ary.IndexOf(extra) == ary.NoIndex)
    return false;
  if (ary.LastIndexOf(extra) == ary.NoIndex)
    return false;
  // ensure proper searching
  if (ary.IndexOf(extra) > ary.LastIndexOf(extra))
    return false;
  if (ary.IndexOf(extra, index) != ary.LastIndexOf(extra, index))
    return false;

  nsTArray<ElementType> copy(ary);
  if (!(ary == copy))
    return false;
  for (i = 0; i < copy.Length(); ++i) {
    if (ary[i] != copy[i])
      return false;
  }
  if (!ary.AppendElements(copy))
    return false;
  size_t cap = ary.Capacity();
  ary.RemoveElementsAt(copy.Length(), copy.Length());
  ary.Compact();
  if (ary.Capacity() == cap)
    return false;

  ary.Clear();
  if (ary.IndexOf(extra) != ary.NoIndex)
    return false;
  if (ary.LastIndexOf(extra) != ary.NoIndex)
    return false;

  ary.Clear();
  if (!ary.IsEmpty() || ary.Elements() == nullptr)
    return false;
  if (!(ary == nsTArray<ElementType>()))
    return false;
  if (ary == copy)
    return false;
  if (ary.SafeElementAt(0, extra) != extra ||
      ary.SafeElementAt(10, extra) != extra)
    return false;

  ary = copy;
  if (!(ary == copy))
    return false;
  for (i = 0; i < copy.Length(); ++i) {
    if (ary[i] != copy[i])
      return false;
  }

  if (!ary.InsertElementsAt(0, copy))
    return false;
  if (ary == copy)
    return false;
  ary.RemoveElementsAt(0, copy.Length());
  for (i = 0; i < copy.Length(); ++i) {
    if (ary[i] != copy[i])
      return false;
  }

  // These shouldn't crash!
  nsTArray<ElementType> empty;
  ary.AppendElements(reinterpret_cast<ElementType *>(0), 0);
  ary.AppendElements(empty);

  // See bug 324981
  ary.RemoveElement(extra);
  ary.RemoveElement(extra);

  return true;
}

TEST(TArray, test_int_array) {
  int data[] = {4,6,8,2,4,1,5,7,3};
  ASSERT_TRUE(test_basic_array(data, ArrayLength(data), int(14)));
}

TEST(TArray, test_int64_array) {
  int64_t data[] = {4,6,8,2,4,1,5,7,3};
  ASSERT_TRUE(test_basic_array(data, ArrayLength(data), int64_t(14)));
}

TEST(TArray, test_char_array) {
  char data[] = {4,6,8,2,4,1,5,7,3};
  ASSERT_TRUE(test_basic_array(data, ArrayLength(data), char(14)));
}

TEST(TArray, test_uint32_array) {
  uint32_t data[] = {4,6,8,2,4,1,5,7,3};
  ASSERT_TRUE(test_basic_array(data, ArrayLength(data), uint32_t(14)));
}

//----

class Object {
  public:
    Object() : mNum(0) {
    }
    Object(const char *str, uint32_t num) : mStr(str), mNum(num) {
    }
    Object(const Object& other) : mStr(other.mStr), mNum(other.mNum) {
    }
    ~Object() {}

    Object& operator=(const Object& other) {
      mStr = other.mStr;
      mNum = other.mNum;
      return *this;
    }

    bool operator==(const Object& other) const {
      return mStr == other.mStr && mNum == other.mNum;
    }

    bool operator<(const Object& other) const {
      // sort based on mStr only
      return mStr.Compare(other.mStr.get()) < 0;
    }

    const char *Str() const { return mStr.get(); }
    uint32_t Num() const { return mNum; }

  private:
    nsCString mStr;
    uint32_t  mNum;
};

TEST(TArray, test_object_array) {
  nsTArray<Object> objArray;
  const char kdata[] = "hello world";
  size_t i;
  for (i = 0; i < ArrayLength(kdata); ++i) {
    char x[] = {kdata[i],'\0'};
    ASSERT_TRUE(objArray.AppendElement(Object(x, i)));
  }
  for (i = 0; i < ArrayLength(kdata); ++i) {
    ASSERT_EQ(objArray[i].Str()[0], kdata[i]);
    ASSERT_EQ(objArray[i].Num(), i);
  }
  objArray.Sort();
  const char ksorted[] = "\0 dehllloorw";
  for (i = 0; i < ArrayLength(kdata)-1; ++i) {
    ASSERT_EQ(objArray[i].Str()[0], ksorted[i]);
  }
}

class Countable {
  static int sCount;

  public:
    Countable()
    {
      sCount++;
    }

    Countable(const Countable& aOther)
    {
      sCount++;
    }

    static int Count() { return sCount; }
};

class Moveable {
  static int sCount;

  public:
    Moveable()
    {
      sCount++;
    }

    Moveable(const Moveable& aOther)
    {
      sCount++;
    }

    Moveable(Moveable&& aOther)
    {
      // Do not increment sCount
    }

    static int Count() { return sCount; }
};

/* static */ int Countable::sCount = 0;
/* static */ int Moveable::sCount = 0;

static nsTArray<int> returns_by_value() {
  nsTArray<int> result;
  return result;
}

TEST(TArray, test_return_by_value) {
  nsTArray<int> result = returns_by_value();
  ASSERT_TRUE(true); // This is just a compilation test.
}

TEST(TArray, test_move_array) {
  nsTArray<Countable> countableArray;
  uint32_t i;
  for (i = 0; i < 4; ++i) {
    ASSERT_TRUE(countableArray.AppendElement(Countable()));
  }

  ASSERT_EQ(Countable::Count(), 8);

  const nsTArray<Countable>& constRefCountableArray = countableArray;

  ASSERT_EQ(Countable::Count(), 8);

  nsTArray<Countable> copyCountableArray(constRefCountableArray);

  ASSERT_EQ(Countable::Count(), 12);

  nsTArray<Countable>&& moveRefCountableArray = Move(countableArray);
  moveRefCountableArray.Length(); // Make compilers happy.

  ASSERT_EQ(Countable::Count(), 12);

  nsTArray<Countable> movedCountableArray(Move(countableArray));

  ASSERT_EQ(Countable::Count(), 12);

  // Test ctor
  FallibleTArray<Countable> differentAllocatorCountableArray(Move(copyCountableArray));
  // operator=
  copyCountableArray = Move(differentAllocatorCountableArray);
  differentAllocatorCountableArray = Move(copyCountableArray);
  // And the other ctor
  nsTArray<Countable> copyCountableArray2(Move(differentAllocatorCountableArray));
  // with auto
  AutoTArray<Countable, 3> autoCountableArray(Move(copyCountableArray2));
  // operator=
  copyCountableArray2 = Move(autoCountableArray);
  // Mix with FallibleTArray
  FallibleTArray<Countable> differentAllocatorCountableArray2(Move(copyCountableArray2));
  AutoTArray<Countable, 4> autoCountableArray2(Move(differentAllocatorCountableArray2));
  differentAllocatorCountableArray2 = Move(autoCountableArray2);

  ASSERT_EQ(Countable::Count(), 12);

  nsTArray<Moveable> moveableArray;
  for (i = 0; i < 4; ++i) {
    ASSERT_TRUE(moveableArray.AppendElement(Moveable()));
  }

  ASSERT_EQ(Moveable::Count(), 4);

  const nsTArray<Moveable>& constRefMoveableArray = moveableArray;

  ASSERT_EQ(Moveable::Count(), 4);

  nsTArray<Moveable> copyMoveableArray(constRefMoveableArray);

  ASSERT_EQ(Moveable::Count(), 8);

  nsTArray<Moveable>&& moveRefMoveableArray = Move(moveableArray);
  moveRefMoveableArray.Length(); // Make compilers happy.

  ASSERT_EQ(Moveable::Count(), 8);

  nsTArray<Moveable> movedMoveableArray(Move(moveableArray));

  ASSERT_EQ(Moveable::Count(), 8);

  // Test ctor
  FallibleTArray<Moveable> differentAllocatorMoveableArray(Move(copyMoveableArray));
  // operator=
  copyMoveableArray = Move(differentAllocatorMoveableArray);
  differentAllocatorMoveableArray = Move(copyMoveableArray);
  // And the other ctor
  nsTArray<Moveable> copyMoveableArray2(Move(differentAllocatorMoveableArray));
  // with auto
  AutoTArray<Moveable, 3> autoMoveableArray(Move(copyMoveableArray2));
  // operator=
  copyMoveableArray2 = Move(autoMoveableArray);
  // Mix with FallibleTArray
  FallibleTArray<Moveable> differentAllocatorMoveableArray2(Move(copyMoveableArray2));
  AutoTArray<Moveable, 4> autoMoveableArray2(Move(differentAllocatorMoveableArray2));
  differentAllocatorMoveableArray2 = Move(autoMoveableArray2);

  ASSERT_EQ(Moveable::Count(), 8);
}

//----

TEST(TArray, test_string_array) {
  nsTArray<nsCString> strArray;
  const char kdata[] = "hello world";
  size_t i;
  for (i = 0; i < ArrayLength(kdata); ++i) {
    nsCString str;
    str.Assign(kdata[i]);
    ASSERT_TRUE(strArray.AppendElement(str));
  }
  for (i = 0; i < ArrayLength(kdata); ++i) {
    ASSERT_EQ(strArray[i].CharAt(0), kdata[i]);
  }

  const char kextra[] = "foo bar";
  size_t oldLen = strArray.Length();
  ASSERT_TRUE(strArray.AppendElement(kextra));
  strArray.RemoveElement(kextra);
  ASSERT_EQ(oldLen, strArray.Length());

  ASSERT_EQ(strArray.IndexOf("e"), size_t(1));

  strArray.Sort();
  const char ksorted[] = "\0 dehllloorw";
  for (i = ArrayLength(kdata); i--; ) {
    ASSERT_EQ(strArray[i].CharAt(0), ksorted[i]);
    if (i > 0 && strArray[i] == strArray[i - 1])
      strArray.RemoveElementAt(i);
  }
  for (i = 0; i < strArray.Length(); ++i) {
    ASSERT_EQ(strArray.BinaryIndexOf(strArray[i]), i);
  }
  auto no_index = strArray.NoIndex; // Fixes gtest compilation error
  ASSERT_EQ(strArray.BinaryIndexOf(EmptyCString()), no_index);

  nsCString rawArray[MOZ_ARRAY_LENGTH(kdata) - 1];
  for (i = 0; i < ArrayLength(rawArray); ++i)
    rawArray[i].Assign(kdata + i);  // substrings of kdata

  ASSERT_TRUE(test_basic_array(rawArray, ArrayLength(rawArray),
                               nsCString("foopy")));
}

//----

typedef nsCOMPtr<nsIFile> FilePointer;

class nsFileNameComparator {
  public:
    bool Equals(const FilePointer &a, const char *b) const {
      nsAutoCString name;
      a->GetNativeLeafName(name);
      return name.Equals(b);
    }
};

TEST(TArray, test_comptr_array) {
  FilePointer tmpDir;
  NS_GetSpecialDirectory(NS_OS_TEMP_DIR, getter_AddRefs(tmpDir));
  ASSERT_TRUE(tmpDir);
  const char *kNames[] = {
    "foo.txt", "bar.html", "baz.gif"
  };
  nsTArray<FilePointer> fileArray;
  size_t i;
  for (i = 0; i < ArrayLength(kNames); ++i) {
    FilePointer f;
    tmpDir->Clone(getter_AddRefs(f));
    ASSERT_TRUE(f);
    ASSERT_FALSE(NS_FAILED(f->AppendNative(nsDependentCString(kNames[i]))));
    fileArray.AppendElement(f);
  }

  ASSERT_EQ(fileArray.IndexOf(kNames[1], 0, nsFileNameComparator()), size_t(1));

  // It's unclear what 'operator<' means for nsCOMPtr, but whatever...
  ASSERT_TRUE(test_basic_array(fileArray.Elements(), fileArray.Length(),
                               tmpDir));
}

//----

class RefcountedObject {
  public:
    RefcountedObject() : rc(0) {}
    void AddRef() {
      ++rc;
    }
    void Release() {
      if (--rc == 0)
        delete this;
    }
    ~RefcountedObject() {}
  private:
    int32_t rc;
};

TEST(TArray, test_refptr_array) {
  nsTArray< RefPtr<RefcountedObject> > objArray;

  RefcountedObject *a = new RefcountedObject(); a->AddRef();
  RefcountedObject *b = new RefcountedObject(); b->AddRef();
  RefcountedObject *c = new RefcountedObject(); c->AddRef();

  objArray.AppendElement(a);
  objArray.AppendElement(b);
  objArray.AppendElement(c);

  ASSERT_EQ(objArray.IndexOf(b), size_t(1));

  a->Release();
  b->Release();
  c->Release();
}

//----

TEST(TArray, test_ptrarray) {
  nsTArray<uint32_t*> ary;
  ASSERT_EQ(ary.SafeElementAt(0), nullptr);
  ASSERT_EQ(ary.SafeElementAt(1000), nullptr);

  uint32_t a = 10;
  ary.AppendElement(&a);
  ASSERT_EQ(*ary[0], a);
  ASSERT_EQ(*ary.SafeElementAt(0), a);

  nsTArray<const uint32_t*> cary;
  ASSERT_EQ(cary.SafeElementAt(0), nullptr);
  ASSERT_EQ(cary.SafeElementAt(1000), nullptr);

  const uint32_t b = 14;
  cary.AppendElement(&a);
  cary.AppendElement(&b);
  ASSERT_EQ(*cary[0], a);
  ASSERT_EQ(*cary[1], b);
  ASSERT_EQ(*cary.SafeElementAt(0), a);
  ASSERT_EQ(*cary.SafeElementAt(1), b);
}

//----

// This test relies too heavily on the existence of DebugGetHeader to be
// useful in non-debug builds.
#ifdef DEBUG
TEST(TArray, test_autoarray) {
  uint32_t data[] = {4,6,8,2,4,1,5,7,3};
  AutoTArray<uint32_t, MOZ_ARRAY_LENGTH(data)> array;

  void* hdr = array.DebugGetHeader();
  ASSERT_NE(hdr, nsTArray<uint32_t>().DebugGetHeader());
  ASSERT_NE(hdr, (AutoTArray<uint32_t, MOZ_ARRAY_LENGTH(data)>().DebugGetHeader()));

  array.AppendElement(1u);
  ASSERT_EQ(hdr, array.DebugGetHeader());

  array.RemoveElement(1u);
  array.AppendElements(data, ArrayLength(data));
  ASSERT_EQ(hdr, array.DebugGetHeader());

  array.AppendElement(2u);
  ASSERT_NE(hdr, array.DebugGetHeader());

  array.Clear();
  array.Compact();
  ASSERT_EQ(hdr, array.DebugGetHeader());
  array.AppendElements(data, ArrayLength(data));
  ASSERT_EQ(hdr, array.DebugGetHeader());

  nsTArray<uint32_t> array2;
  void* emptyHdr = array2.DebugGetHeader();
  array.SwapElements(array2);
  ASSERT_NE(emptyHdr, array.DebugGetHeader());
  ASSERT_NE(hdr, array2.DebugGetHeader());
  size_t i;
  for (i = 0; i < ArrayLength(data); ++i) {
    ASSERT_EQ(array2[i], data[i]);
  }
  ASSERT_TRUE(array.IsEmpty());

  array.Compact();
  array.AppendElements(data, ArrayLength(data));
  uint32_t data3[] = {5, 7, 11};
  AutoTArray<uint32_t, MOZ_ARRAY_LENGTH(data3)> array3;
  array3.AppendElements(data3, ArrayLength(data3));
  array.SwapElements(array3);
  for (i = 0; i < ArrayLength(data); ++i) {
    ASSERT_EQ(array3[i], data[i]);
  }
  for (i = 0; i < ArrayLength(data3); ++i) {
    ASSERT_EQ(array[i], data3[i]);
  }
}
#endif

//----

// IndexOf used to potentially scan beyond the end of the array.  Test for
// this incorrect behavior by adding a value (5), removing it, then seeing
// if IndexOf finds it.
TEST(TArray, test_indexof) {
  nsTArray<int> array;
  array.AppendElement(0);
  // add and remove the 5
  array.AppendElement(5);
  array.RemoveElementAt(1);
  // we should not find the 5!
  auto no_index = array.NoIndex; // Fixes gtest compilation error.
  ASSERT_EQ(array.IndexOf(5, 1), no_index);
}

//----

template <class Array>
static bool is_heap(const Array& ary, size_t len) {
  size_t index = 1;
  while (index < len) {
    if (ary[index] > ary[(index - 1) >> 1])
      return false;
    index++;
  }
  return true;
} 

//----

// An array |arr| is using its auto buffer if |&arr < arr.Elements()| and
// |arr.Elements() - &arr| is small.

#define IS_USING_AUTO(arr) \
  ((uintptr_t) &(arr) < (uintptr_t) arr.Elements() && \
   ((ptrdiff_t)arr.Elements() - (ptrdiff_t)&arr) <= 16)

#define CHECK_IS_USING_AUTO(arr) \
  do {                                                    \
    ASSERT_TRUE(IS_USING_AUTO(arr));                      \
  } while(0)

#define CHECK_NOT_USING_AUTO(arr) \
  do {                                                    \
    ASSERT_FALSE(IS_USING_AUTO(arr));                     \
  } while(0)

#define CHECK_USES_SHARED_EMPTY_HDR(arr) \
  do {                                                    \
    nsTArray<int> _empty;                                 \
    ASSERT_EQ(_empty.Elements(), arr.Elements());         \
  } while(0)

#define CHECK_EQ_INT(actual, expected) \
  do {                                                                       \
    ASSERT_EQ((actual), (expected));                                         \
  } while(0)

#define CHECK_ARRAY(arr, data) \
  do {                                                          \
    CHECK_EQ_INT((arr).Length(), (size_t)ArrayLength(data));  \
    for (size_t _i = 0; _i < ArrayLength(data); _i++) {       \
      CHECK_EQ_INT((arr)[_i], (data)[_i]);                      \
    }                                                           \
  } while(0)

TEST(TArray, test_swap) {
  // Test nsTArray::SwapElements.  Unfortunately there are many cases.
  int data1[] = {8, 6, 7, 5};
  int data2[] = {3, 0, 9};

  // Swap two auto arrays.
  {
    AutoTArray<int, 8> a;
    AutoTArray<int, 6> b;

    a.AppendElements(data1, ArrayLength(data1));
    b.AppendElements(data2, ArrayLength(data2));
    CHECK_IS_USING_AUTO(a);
    CHECK_IS_USING_AUTO(b);

    a.SwapElements(b);

    CHECK_IS_USING_AUTO(a);
    CHECK_IS_USING_AUTO(b);
    CHECK_ARRAY(a, data2);
    CHECK_ARRAY(b, data1);
  }

  // Swap two auto arrays -- one whose data lives on the heap, the other whose
  // data lives on the stack -- which each fits into the other's auto storage.
  {
    AutoTArray<int, 3> a;
    AutoTArray<int, 3> b;

    a.AppendElements(data1, ArrayLength(data1));
    a.RemoveElementAt(3);
    b.AppendElements(data2, ArrayLength(data2));

    // Here and elsewhere, we assert that if we start with an auto array
    // capable of storing N elements, we store N+1 elements into the array, and
    // then we remove one element, that array is still not using its auto
    // buffer.
    //
    // This isn't at all required by the TArray API. It would be fine if, when
    // we shrink back to N elements, the TArray frees its heap storage and goes
    // back to using its stack storage.  But we assert here as a check that the
    // test does what we expect.  If the TArray implementation changes, just
    // change the failing assertions.
    CHECK_NOT_USING_AUTO(a);

    // This check had better not change, though.
    CHECK_IS_USING_AUTO(b);

    a.SwapElements(b);

    CHECK_IS_USING_AUTO(b);
    CHECK_ARRAY(a, data2);
    int expectedB[] = {8, 6, 7};
    CHECK_ARRAY(b, expectedB);
  }

  // Swap two auto arrays which are using heap storage such that one fits into
  // the other's auto storage, but the other needs to stay on the heap.
  {
    AutoTArray<int, 3> a;
    AutoTArray<int, 2> b;
    a.AppendElements(data1, ArrayLength(data1));
    a.RemoveElementAt(3);

    b.AppendElements(data2, ArrayLength(data2));
    b.RemoveElementAt(2);

    CHECK_NOT_USING_AUTO(a);
    CHECK_NOT_USING_AUTO(b);

    a.SwapElements(b);

    CHECK_NOT_USING_AUTO(b);

    int expected1[] = {3, 0};
    int expected2[] = {8, 6, 7};

    CHECK_ARRAY(a, expected1);
    CHECK_ARRAY(b, expected2);
  }

  // Swap two arrays, neither of which fits into the other's auto-storage.
  {
    AutoTArray<int, 1> a;
    AutoTArray<int, 3> b;

    a.AppendElements(data1, ArrayLength(data1));
    b.AppendElements(data2, ArrayLength(data2));

    a.SwapElements(b);

    CHECK_ARRAY(a, data2);
    CHECK_ARRAY(b, data1);
  }

  // Swap an empty nsTArray with a non-empty AutoTArray.
  {
    nsTArray<int> a;
    AutoTArray<int, 3> b;

    b.AppendElements(data2, ArrayLength(data2));
    CHECK_IS_USING_AUTO(b);

    a.SwapElements(b);

    CHECK_ARRAY(a, data2);
    CHECK_EQ_INT(b.Length(), size_t(0));
    CHECK_IS_USING_AUTO(b);
  }

  // Swap two big auto arrays.
  {
    const unsigned size = 8192;
    AutoTArray<unsigned, size> a;
    AutoTArray<unsigned, size> b;

    for (unsigned i = 0; i < size; i++) {
      a.AppendElement(i);
      b.AppendElement(i + 1);
    }

    CHECK_IS_USING_AUTO(a);
    CHECK_IS_USING_AUTO(b);

    a.SwapElements(b);

    CHECK_IS_USING_AUTO(a);
    CHECK_IS_USING_AUTO(b);

    CHECK_EQ_INT(a.Length(), size_t(size));
    CHECK_EQ_INT(b.Length(), size_t(size));

    for (unsigned i = 0; i < size; i++) {
      CHECK_EQ_INT(a[i], i + 1);
      CHECK_EQ_INT(b[i], i);
    }
  }

  // Swap two arrays and make sure that their capacities don't increase
  // unnecessarily.
  {
    nsTArray<int> a;
    nsTArray<int> b;
    b.AppendElements(data2, ArrayLength(data2));

    CHECK_EQ_INT(a.Capacity(), size_t(0));
    size_t bCapacity = b.Capacity();

    a.SwapElements(b);

    // Make sure that we didn't increase the capacity of either array.
    CHECK_ARRAY(a, data2);
    CHECK_EQ_INT(b.Length(), size_t(0));
    CHECK_EQ_INT(b.Capacity(), size_t(0));
    CHECK_EQ_INT(a.Capacity(), bCapacity);
  }

  // Swap an auto array with a TArray, then clear the auto array and make sure
  // it doesn't forget the fact that it has an auto buffer.
  {
    nsTArray<int> a;
    AutoTArray<int, 3> b;

    a.AppendElements(data1, ArrayLength(data1));

    a.SwapElements(b);

    CHECK_EQ_INT(a.Length(), size_t(0));
    CHECK_ARRAY(b, data1);

    b.Clear();

    CHECK_USES_SHARED_EMPTY_HDR(a);
    CHECK_IS_USING_AUTO(b);
  }

  // Same thing as the previous test, but with more auto arrays.
  {
    AutoTArray<int, 16> a;
    AutoTArray<int, 3> b;

    a.AppendElements(data1, ArrayLength(data1));

    a.SwapElements(b);

    CHECK_EQ_INT(a.Length(), size_t(0));
    CHECK_ARRAY(b, data1);

    b.Clear();

    CHECK_IS_USING_AUTO(a);
    CHECK_IS_USING_AUTO(b);
  }

  // Swap an empty nsTArray and an empty AutoTArray.
  {
    AutoTArray<int, 8> a;
    nsTArray<int> b;

    a.SwapElements(b);

    CHECK_IS_USING_AUTO(a);
    CHECK_NOT_USING_AUTO(b);
    CHECK_EQ_INT(a.Length(), size_t(0));
    CHECK_EQ_INT(b.Length(), size_t(0));
  }

  // Swap empty auto array with non-empty AutoTArray using malloc'ed storage.
  // I promise, all these tests have a point.
  {
    AutoTArray<int, 2> a;
    AutoTArray<int, 1> b;

    a.AppendElements(data1, ArrayLength(data1));

    a.SwapElements(b);

    CHECK_IS_USING_AUTO(a);
    CHECK_NOT_USING_AUTO(b);
    CHECK_ARRAY(b, data1);
    CHECK_EQ_INT(a.Length(), size_t(0));
  }
}

// Bug 1171296: Disabled on andoid due to crashes.
#if !defined(ANDROID)
TEST(TArray, test_fallible)
{
  // Test that FallibleTArray works properly; that is, it never OOMs, but
  // instead eventually returns false.
  //
  // This test is only meaningful on 32-bit systems.  On a 64-bit system, we
  // might never OOM.
  if (sizeof(void*) > 4) {
    ASSERT_TRUE(true);
    return;
  }

  // Allocate a bunch of 128MB arrays.  Larger allocations will fail on some
  // platforms without actually hitting OOM.
  //
  // 36 * 128MB > 4GB, so we should definitely OOM by the 36th array.
  const unsigned numArrays = 36;
  FallibleTArray<char> arrays[numArrays];
  bool oomed = false;
  for (size_t i = 0; i < numArrays; i++) {
    // SetCapacity allocates the requested capacity + a header, and we want to
    // avoid allocating more than 128MB overall because of the size padding it
    // will cause, which depends on allocator behavior, so use 128MB - an
    // arbitrary size larger than the array header, so that chances are good
    // that allocations will always be 128MB.
    bool success = arrays[i].SetCapacity(128 * 1024 * 1024 - 1024, fallible);
    if (!success) {
      // We got our OOM.  Check that it didn't come too early.
      oomed = true;
      ASSERT_GE(i, size_t(8)) << "Got OOM on iteration " << i << ". Too early!";
    }
  }

  ASSERT_TRUE(oomed) << "Didn't OOM or crash?  nsTArray::SetCapacity"
                        "must be lying.";
}
#endif

TEST(TArray, test_conversion_operator) {
  FallibleTArray<int> f;
  const FallibleTArray<int> fconst;

  InfallibleTArray<int> i;
  const InfallibleTArray<int> iconst;

  nsTArray<int> t;
  const nsTArray<int> tconst;
  AutoTArray<int, 8> tauto;
  const AutoTArray<int, 8> tautoconst;

#define CHECK_ARRAY_CAST(type)                        \
  do {                                                \
    const type<int>& z1 = f;                          \
    ASSERT_EQ((void*)&z1, (void*)&f);                 \
    const type<int>& z2 = fconst;                     \
    ASSERT_EQ((void*)&z2, (void*)&fconst);            \
    const type<int>& z5 = i;                          \
    ASSERT_EQ((void*)&z5, (void*)&i);                 \
    const type<int>& z6 = iconst;                     \
    ASSERT_EQ((void*)&z6, (void*)&iconst);            \
    const type<int>& z9 = t;                          \
    ASSERT_EQ((void*)&z9, (void*)&t);                 \
    const type<int>& z10 = tconst;                    \
    ASSERT_EQ((void*)&z10, (void*)&tconst);           \
    const type<int>& z11 = tauto;                     \
    ASSERT_EQ((void*)&z11, (void*)&tauto);            \
    const type<int>& z12 = tautoconst;                \
    ASSERT_EQ((void*)&z12, (void*)&tautoconst);       \
  } while (0)

  CHECK_ARRAY_CAST(FallibleTArray);
  CHECK_ARRAY_CAST(InfallibleTArray);
  CHECK_ARRAY_CAST(nsTArray);

#undef CHECK_ARRAY_CAST
}

template<class T>
struct BufAccessor : public T
{
  void* GetHdr() { return T::mHdr; }
};

TEST(TArray, test_SetLengthAndRetainStorage_no_ctor) {
  // 1050 because sizeof(int)*1050 is more than a page typically.
  const int N = 1050;
  FallibleTArray<int> f;

  InfallibleTArray<int> i;

  nsTArray<int> t;
  AutoTArray<int, N> tauto;

#define LPAREN (
#define RPAREN )
#define FOR_EACH(pre, post)                                    \
  do {                                                         \
    pre f post;                                                \
    pre i post;                                                \
    pre t post;                                                \
    pre tauto post;                                            \
  } while (0)

  // Setup test arrays.
  FOR_EACH(; Unused << , .SetLength(N, fallible));
  for (int n = 0; n < N; ++n) {
    FOR_EACH(;, [n] = n);
  }

  void* initial_Hdrs[] = {
    static_cast<BufAccessor<FallibleTArray<int> >&>(f).GetHdr(),
    static_cast<BufAccessor<InfallibleTArray<int> >&>(i).GetHdr(),
    static_cast<BufAccessor<nsTArray<int> >&>(t).GetHdr(),
    static_cast<BufAccessor<AutoTArray<int, N> >&>(tauto).GetHdr(),
    nullptr
  };

  // SetLengthAndRetainStorage(n), should NOT overwrite memory when T hasn't
  // a default constructor.
  FOR_EACH(;, .SetLengthAndRetainStorage(8));
  FOR_EACH(;, .SetLengthAndRetainStorage(12));
  for (int n = 0; n < 12; ++n) {
    ASSERT_EQ(f[n], n);
    ASSERT_EQ(i[n], n);
    ASSERT_EQ(t[n], n);
    ASSERT_EQ(tauto[n], n);
  }
  FOR_EACH(;, .SetLengthAndRetainStorage(0));
  FOR_EACH(;, .SetLengthAndRetainStorage(N));
  for (int n = 0; n < N; ++n) {
    ASSERT_EQ(f[n], n);
    ASSERT_EQ(i[n], n);
    ASSERT_EQ(t[n], n);
    ASSERT_EQ(tauto[n], n);
  }

  void* current_Hdrs[] = {
    static_cast<BufAccessor<FallibleTArray<int> >&>(f).GetHdr(),
    static_cast<BufAccessor<InfallibleTArray<int> >&>(i).GetHdr(),
    static_cast<BufAccessor<nsTArray<int> >&>(t).GetHdr(),
    static_cast<BufAccessor<AutoTArray<int, N> >&>(tauto).GetHdr(),
    nullptr
  };

  // SetLengthAndRetainStorage(n) should NOT have reallocated the internal
  // memory.
  ASSERT_EQ(sizeof(initial_Hdrs), sizeof(current_Hdrs));
  for (size_t n = 0; n < sizeof(current_Hdrs) / sizeof(current_Hdrs[0]); ++n) {
    ASSERT_EQ(current_Hdrs[n], initial_Hdrs[n]);
  }


#undef FOR_EACH
#undef LPAREN
#undef RPAREN
}

} // namespace TestTArray