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aosp12/system/chre/util/tests/dynamic_vector_test.cc

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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "gtest/gtest.h"
#ifdef GTEST
#include "chre/platform/linux/expect_assert.h"
#endif
#include "chre/platform/assert.h"
#include "chre/util/dynamic_vector.h"
#include "chre/util/macros.h"
#include <stdint.h>
using chre::DynamicVector;
namespace {
constexpr int kMaxTestCapacity = 10;
int gDestructorCount[kMaxTestCapacity];
class DestructorCounter {
public:
~DestructorCounter() {
if (mValue >= 0) {
gDestructorCount[mValue]++;
}
};
void setValue(int value) {
mValue = value;
}
int getValue() {
return mValue;
}
private:
int mValue = -1;
};
void resetDestructorCounts() {
for (size_t i = 0; i < ARRAY_SIZE(gDestructorCount); i++) {
gDestructorCount[i] = 0;
}
}
} // namespace
TEST(DynamicVector, EmptyByDefault) {
DynamicVector<int> vector;
EXPECT_EQ(vector.data(), nullptr);
EXPECT_TRUE(vector.empty());
EXPECT_EQ(vector.size(), 0);
EXPECT_EQ(vector.capacity(), 0);
vector.clear();
}
TEST(DynamicVector, PushBackAndRead) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.push_back(0x1337));
EXPECT_EQ(vector.size(), 1);
EXPECT_EQ(vector.capacity(), 1);
EXPECT_EQ(vector.data(), &vector[0]);
EXPECT_FALSE(vector.empty());
EXPECT_EQ(vector[0], 0x1337);
}
TEST(DynamicVector, PushBackReserveAndReadTrivialType) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.emplace_back(0x1337));
ASSERT_TRUE(vector.push_back(0xface));
int x = 0xcafe;
ASSERT_TRUE(vector.push_back(std::move(x)));
ASSERT_TRUE(vector.insert(vector.size(), 0xd00d));
EXPECT_EQ(vector.size(), 4);
EXPECT_EQ(vector.capacity(), 4);
EXPECT_EQ(vector[0], 0x1337);
EXPECT_EQ(vector[1], 0xface);
EXPECT_EQ(vector[2], 0xcafe);
EXPECT_EQ(vector[3], 0xd00d);
ASSERT_TRUE(vector.reserve(8));
EXPECT_EQ(vector.size(), 4);
EXPECT_EQ(vector.capacity(), 8);
EXPECT_EQ(vector[0], 0x1337);
EXPECT_EQ(vector[1], 0xface);
EXPECT_EQ(vector[2], 0xcafe);
EXPECT_EQ(vector[3], 0xd00d);
}
TEST(DynamicVector, CompareEqual) {
DynamicVector<int> lhs;
ASSERT_TRUE(lhs.push_back(0x1337));
ASSERT_TRUE(lhs.push_back(0xface));
DynamicVector<int> rhs;
ASSERT_TRUE(rhs.push_back(0x1337));
ASSERT_TRUE(rhs.push_back(0xface));
ASSERT_EQ(lhs, rhs); // equal vectors
ASSERT_TRUE(lhs.push_back(0xb00c));
ASSERT_FALSE(lhs == rhs); // different size
ASSERT_TRUE(rhs.push_back(0xc00b));
ASSERT_FALSE(lhs == rhs); // equal size different elements
}
constexpr int kConstructedMagic = 0xdeadbeef;
class MovableButNonCopyable : public chre::NonCopyable {
public:
MovableButNonCopyable(int value) : mValue(value) {}
MovableButNonCopyable(MovableButNonCopyable &&other) {
mValue = other.mValue;
other.mValue = -1;
}
MovableButNonCopyable &operator=(MovableButNonCopyable &&other) {
CHRE_ASSERT(mMagic == kConstructedMagic);
mValue = other.mValue;
other.mValue = -1;
return *this;
}
int getValue() const {
return mValue;
}
private:
int mMagic = kConstructedMagic;
int mValue;
};
TEST(DynamicVector, PushBackReserveAndReadMovableButNonCopyable) {
DynamicVector<MovableButNonCopyable> vector;
ASSERT_TRUE(vector.emplace_back(0x1337));
ASSERT_TRUE(vector.emplace_back(0xface));
MovableButNonCopyable mbnc(0xcafe);
ASSERT_TRUE(vector.push_back(std::move(mbnc)));
EXPECT_EQ(mbnc.getValue(), -1);
MovableButNonCopyable mbnc2(0xd00d);
ASSERT_TRUE(vector.insert(vector.size(), std::move(mbnc2)));
EXPECT_EQ(mbnc2.getValue(), -1);
ASSERT_TRUE(vector.reserve(8));
EXPECT_EQ(vector[0].getValue(), 0x1337);
EXPECT_EQ(vector[1].getValue(), 0xface);
EXPECT_EQ(vector[2].getValue(), 0xcafe);
EXPECT_EQ(vector[3].getValue(), 0xd00d);
EXPECT_EQ(vector.size(), 4);
EXPECT_EQ(vector.capacity(), 8);
}
class CopyableButNonMovable {
public:
CopyableButNonMovable(int value) : mValue(value) {}
CopyableButNonMovable(const CopyableButNonMovable &other) {
mValue = other.mValue;
}
CopyableButNonMovable &operator=(const CopyableButNonMovable &other) {
CHRE_ASSERT(mMagic == kConstructedMagic);
mValue = other.mValue;
return *this;
}
CopyableButNonMovable(CopyableButNonMovable &&other) = delete;
CopyableButNonMovable &operator=(CopyableButNonMovable &&other) = delete;
int getValue() const {
return mValue;
}
private:
int mMagic = kConstructedMagic;
int mValue;
};
TEST(DynamicVector, PushBackReserveAndReadCopyableButNonMovable) {
DynamicVector<CopyableButNonMovable> vector;
ASSERT_TRUE(vector.emplace_back(0x1337));
ASSERT_TRUE(vector.emplace_back(0xface));
CopyableButNonMovable cbnm(0xcafe);
ASSERT_TRUE(vector.push_back(cbnm));
CopyableButNonMovable cbnm2(0xd00d);
ASSERT_TRUE(vector.insert(vector.size(), cbnm2));
ASSERT_TRUE(vector.reserve(8));
EXPECT_EQ(vector[0].getValue(), 0x1337);
EXPECT_EQ(vector[1].getValue(), 0xface);
EXPECT_EQ(vector[2].getValue(), 0xcafe);
EXPECT_EQ(vector[3].getValue(), 0xd00d);
EXPECT_EQ(vector.size(), 4);
EXPECT_EQ(vector.capacity(), 8);
}
class MovableAndCopyable {
public:
MovableAndCopyable(int value) : mValue(value) {}
MovableAndCopyable(const MovableAndCopyable &other) {
mValue = other.mValue;
}
MovableAndCopyable(MovableAndCopyable &&other) {
// The move constructor multiplies the value by 2 so that we can see that it
// was used
mValue = other.mValue * 2;
}
MovableAndCopyable &operator=(const MovableAndCopyable &other) {
CHRE_ASSERT(mMagic == kConstructedMagic);
mValue = other.mValue;
return *this;
}
MovableAndCopyable &operator=(MovableAndCopyable &&other) {
assert(mMagic == kConstructedMagic);
mValue = other.mValue * 2;
other.mValue = -1;
return *this;
}
int getValue() const {
return mValue;
}
private:
int mMagic = kConstructedMagic;
int mValue;
};
TEST(DynamicVector, ReservePrefersMove) {
// Ensure that preference is given to std::move in reserve()
DynamicVector<MovableAndCopyable> vector;
// Reserve enough space for the first two elements.
ASSERT_TRUE(vector.reserve(2));
ASSERT_TRUE(vector.emplace_back(1000));
ASSERT_TRUE(vector.emplace_back(2000));
// Reserve more than enough space causing a move to be required.
ASSERT_TRUE(vector.reserve(4));
// Move on this type results in a multiplication by 2. Verify that all
// elements have been multiplied by 2.
EXPECT_EQ(vector[0].getValue(), 2000);
EXPECT_EQ(vector[1].getValue(), 4000);
}
/**
* A simple test helper object to count number of construction and destructions.
*/
class Foo {
public:
/**
* Construct an object storing a simple integer. Increment the number of
* objects that have been constructed of this type.
*/
Foo(int value) : value(value) {
sConstructedCounter++;
}
Foo(const Foo &other) {
value = other.value;
sConstructedCounter++;
}
Foo(Foo &&other) = delete;
/**
* Tear down the object, decrementing the number of objects that have been
* constructed of this type.
*/
~Foo() {
sConstructedCounter--;
}
//! The number of objects of this type that have been constructed.
static ssize_t sConstructedCounter;
//! The value stored in the object to verify the contents of this object after
//! construction.
int value;
};
//! Storage for the Foo reference counter.
ssize_t Foo::sConstructedCounter = 0;
TEST(DynamicVector, EmplaceBackAndDestruct) {
Foo::sConstructedCounter = 0;
{
DynamicVector<Foo> vector;
ASSERT_TRUE(vector.emplace_back(1000));
ASSERT_TRUE(vector.emplace_back(2000));
ASSERT_TRUE(vector.emplace_back(3000));
ASSERT_TRUE(vector.emplace_back(4000));
ASSERT_EQ(vector[0].value, 1000);
ASSERT_EQ(vector[1].value, 2000);
ASSERT_EQ(vector[2].value, 3000);
ASSERT_EQ(vector[3].value, 4000);
EXPECT_EQ(Foo::sConstructedCounter, 4);
}
EXPECT_EQ(Foo::sConstructedCounter, 0);
}
TEST(DynamicVector, InsertEmpty) {
DynamicVector<int> vector;
EXPECT_CHRE_ASSERT(EXPECT_FALSE(vector.insert(1, 0x1337)));
// Insert to empty vector
ASSERT_TRUE(vector.insert(0, 0x1337));
EXPECT_EQ(vector[0], 0x1337);
// Insert at end triggering grow
ASSERT_EQ(vector.capacity(), 1);
EXPECT_TRUE(vector.insert(1, 0xface));
EXPECT_EQ(vector[0], 0x1337);
EXPECT_EQ(vector[1], 0xface);
// Insert at beginning triggering grow
ASSERT_EQ(vector.capacity(), 2);
EXPECT_TRUE(vector.insert(0, 0xcafe));
EXPECT_EQ(vector[0], 0xcafe);
EXPECT_EQ(vector[1], 0x1337);
EXPECT_EQ(vector[2], 0xface);
// Insert at middle with spare capacity
ASSERT_EQ(vector.capacity(), 4);
EXPECT_TRUE(vector.insert(1, 0xdead));
EXPECT_EQ(vector[0], 0xcafe);
EXPECT_EQ(vector[1], 0xdead);
EXPECT_EQ(vector[2], 0x1337);
EXPECT_EQ(vector[3], 0xface);
// Insert at middle triggering grow
ASSERT_EQ(vector.capacity(), 4);
EXPECT_TRUE(vector.insert(2, 0xbeef));
EXPECT_EQ(vector[0], 0xcafe);
EXPECT_EQ(vector[1], 0xdead);
EXPECT_EQ(vector[2], 0xbeef);
EXPECT_EQ(vector[3], 0x1337);
EXPECT_EQ(vector[4], 0xface);
// Insert at beginning with spare capacity
ASSERT_EQ(vector.capacity(), 8);
ASSERT_EQ(vector.size(), 5);
EXPECT_TRUE(vector.insert(0, 0xabad));
EXPECT_EQ(vector[0], 0xabad);
EXPECT_EQ(vector[1], 0xcafe);
EXPECT_EQ(vector[2], 0xdead);
EXPECT_EQ(vector[3], 0xbeef);
EXPECT_EQ(vector[4], 0x1337);
EXPECT_EQ(vector[5], 0xface);
// Insert at end with spare capacity
ASSERT_EQ(vector.size(), 6);
EXPECT_TRUE(vector.insert(vector.size(), 0xc0de));
EXPECT_EQ(vector[0], 0xabad);
EXPECT_EQ(vector[1], 0xcafe);
EXPECT_EQ(vector[2], 0xdead);
EXPECT_EQ(vector[3], 0xbeef);
EXPECT_EQ(vector[4], 0x1337);
EXPECT_EQ(vector[5], 0xface);
EXPECT_EQ(vector[6], 0xc0de);
}
TEST(DynamicVector, PushBackInsertInMiddleAndRead) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.push_back(0x1337));
ASSERT_TRUE(vector.push_back(0xface));
ASSERT_TRUE(vector.push_back(0xcafe));
ASSERT_TRUE(vector.insert(1, 0xbeef));
ASSERT_EQ(vector[0], 0x1337);
ASSERT_EQ(vector[1], 0xbeef);
ASSERT_EQ(vector[2], 0xface);
ASSERT_EQ(vector[3], 0xcafe);
}
TEST(DynamicVector, PushBackAndErase) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.push_back(0x1337));
ASSERT_TRUE(vector.push_back(0xcafe));
ASSERT_TRUE(vector.push_back(0xbeef));
ASSERT_TRUE(vector.push_back(0xface));
vector.erase(1);
ASSERT_EQ(vector[0], 0x1337);
ASSERT_EQ(vector[1], 0xbeef);
ASSERT_EQ(vector[2], 0xface);
ASSERT_EQ(vector.size(), 3);
}
TEST(DynamicVector, FindEmpty) {
DynamicVector<int> vector;
ASSERT_EQ(vector.find(0), 0);
}
TEST(DynamicVector, FindWithElements) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.push_back(0x1337));
ASSERT_TRUE(vector.push_back(0xcafe));
ASSERT_TRUE(vector.push_back(0xbeef));
ASSERT_EQ(vector.find(0x1337), 0);
ASSERT_EQ(vector.find(0xcafe), 1);
ASSERT_EQ(vector.find(0xbeef), 2);
ASSERT_EQ(vector.find(1000), 3);
}
TEST(DynamicVector, EraseDestructorCalled) {
resetDestructorCounts();
DynamicVector<DestructorCounter> vector;
vector.reserve(4);
for (size_t i = 0; i < 4; ++i) {
vector.emplace_back();
vector[i].setValue(i);
}
// last item before erase is '3'.
vector.erase(1);
EXPECT_EQ(0, gDestructorCount[0]);
EXPECT_EQ(0, gDestructorCount[1]);
EXPECT_EQ(0, gDestructorCount[2]);
EXPECT_EQ(1, gDestructorCount[3]);
// last item before erase is still '3'.
vector.erase(2);
EXPECT_EQ(0, gDestructorCount[0]);
EXPECT_EQ(0, gDestructorCount[1]);
EXPECT_EQ(0, gDestructorCount[2]);
EXPECT_EQ(2, gDestructorCount[3]);
// last item before erase is now '2'.
vector.erase(0);
EXPECT_EQ(0, gDestructorCount[0]);
EXPECT_EQ(0, gDestructorCount[1]);
EXPECT_EQ(1, gDestructorCount[2]);
EXPECT_EQ(2, gDestructorCount[3]);
}
TEST(DynamicVector, Clear) {
resetDestructorCounts();
DynamicVector<DestructorCounter> vector;
vector.reserve(4);
for (size_t i = 0; i < 4; ++i) {
vector.emplace_back();
vector[i].setValue(i);
}
vector.clear();
EXPECT_EQ(vector.size(), 0);
EXPECT_EQ(vector.capacity(), 4);
for (size_t i = 0; i < 4; ++i) {
EXPECT_EQ(gDestructorCount[i], 1);
}
}
TEST(DynamicVectorDeathTest, SwapWithInvalidIndex) {
DynamicVector<int> vector;
vector.push_back(0x1337);
vector.push_back(0xcafe);
EXPECT_DEATH(vector.swap(0, 2), "");
}
TEST(DynamicVectorDeathTest, SwapWithInvalidIndices) {
DynamicVector<int> vector;
vector.push_back(0x1337);
vector.push_back(0xcafe);
EXPECT_DEATH(vector.swap(2, 3), "");
}
TEST(DynamicVector, Swap) {
DynamicVector<int> vector;
vector.push_back(0x1337);
vector.push_back(0xcafe);
vector.swap(0, 1);
EXPECT_EQ(vector[0], 0xcafe);
EXPECT_EQ(vector[1], 0x1337);
}
TEST(DynamicVector, BackFront) {
DynamicVector<int> vector;
vector.push_back(0x1337);
EXPECT_EQ(vector.front(), 0x1337);
EXPECT_EQ(vector.back(), 0x1337);
vector.push_back(0xcafe);
EXPECT_EQ(vector.front(), 0x1337);
EXPECT_EQ(vector.back(), 0xcafe);
vector.erase(0);
EXPECT_EQ(vector.front(), 0xcafe);
EXPECT_EQ(vector.back(), 0xcafe);
}
TEST(DynamicVector, Iterator) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
size_t index = 0;
for (DynamicVector<int>::iterator it = vector.begin(); it != vector.end();
++it) {
EXPECT_EQ(vector[index++], *it);
}
DynamicVector<int>::iterator it = vector.begin() + vector.size() - 1;
EXPECT_EQ(vector[vector.size() - 1], *it);
it = vector.begin() + vector.size();
EXPECT_TRUE(it == vector.end());
}
TEST(DynamicVector, ConstIterator) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
size_t index = 0;
for (DynamicVector<int>::const_iterator cit = vector.cbegin();
cit != vector.cend(); ++cit) {
EXPECT_EQ(vector[index++], *cit);
}
DynamicVector<int>::const_iterator cit = vector.cbegin() + vector.size() - 1;
EXPECT_EQ(vector[vector.size() - 1], *cit);
cit = vector.cbegin() + vector.size();
EXPECT_TRUE(cit == vector.cend());
}
TEST(DynamicVector, IteratorAndPushBack) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
size_t oldCapacity = vector.capacity();
DynamicVector<int>::iterator it_b = vector.begin();
DynamicVector<int>::iterator it_e = vector.end();
vector.push_back(3);
ASSERT_TRUE(oldCapacity == vector.capacity());
size_t index = 0;
for (; it_b != it_e; ++it_b) {
EXPECT_EQ(vector[index++], *it_b);
}
}
TEST(DynamicVector, IteratorAndEmplaceBack) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
size_t oldCapacity = vector.capacity();
DynamicVector<int>::iterator it_b = vector.begin();
DynamicVector<int>::iterator it_e = vector.end();
vector.emplace_back(3);
ASSERT_TRUE(oldCapacity == vector.capacity());
size_t index = 0;
for (; it_b != it_e; ++it_b) {
EXPECT_EQ(vector[index++], *it_b);
}
}
TEST(DynamicVector, IteratorAndReserve) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
size_t oldCapacity = vector.capacity();
DynamicVector<int>::iterator it_b = vector.begin();
DynamicVector<int>::iterator it_e = vector.end();
vector.reserve(oldCapacity);
ASSERT_TRUE(oldCapacity == vector.capacity());
size_t index = 0;
for (; it_b != it_e; ++it_b) {
EXPECT_EQ(vector[index++], *it_b);
}
}
TEST(DynamicVector, IteratorAndInsert) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
size_t oldCapacity = vector.capacity();
DynamicVector<int>::iterator it_b = vector.begin();
vector.insert(2, 3);
ASSERT_TRUE(oldCapacity == vector.capacity());
size_t index = 0;
while (index < 2) {
EXPECT_EQ(vector[index++], *it_b++);
}
}
TEST(DynamicVector, IteratorAndErase) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
DynamicVector<int>::iterator it_b = vector.begin();
vector.erase(2);
size_t index = 0;
while (index < 2) {
EXPECT_EQ(vector[index++], *it_b++);
}
}
TEST(DynamicVector, IteratorAndSwap) {
DynamicVector<int> vector;
vector.push_back(0);
vector.push_back(1);
vector.push_back(2);
vector.push_back(3);
DynamicVector<int>::iterator it_b = vector.begin();
vector.swap(1, 3);
size_t index = 0;
while (index < 4) {
if (index != 1 && index != 3) {
EXPECT_EQ(vector[index], *it_b);
}
index++;
it_b++;
}
}
TEST(DynamicVector, MoveConstruct) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.push_back(0));
ASSERT_TRUE(vector.push_back(1));
ASSERT_TRUE(vector.push_back(2));
DynamicVector<int> movedVector(std::move(vector));
EXPECT_EQ(vector.data(), nullptr);
EXPECT_NE(movedVector.data(), nullptr);
EXPECT_EQ(vector.size(), 0);
EXPECT_EQ(movedVector.size(), 3);
EXPECT_EQ(vector.capacity(), 0);
EXPECT_EQ(movedVector.capacity(), 4);
}
TEST(DynamicVector, MoveAssignmentConstruct) {
DynamicVector<int> vector;
ASSERT_TRUE(vector.push_back(0));
ASSERT_TRUE(vector.push_back(1));
ASSERT_TRUE(vector.push_back(2));
DynamicVector<int> movedVector;
movedVector = std::move(vector);
EXPECT_EQ(vector.data(), nullptr);
EXPECT_NE(movedVector.data(), nullptr);
EXPECT_EQ(vector.size(), 0);
EXPECT_EQ(movedVector.size(), 3);
EXPECT_EQ(vector.capacity(), 0);
EXPECT_EQ(movedVector.capacity(), 4);
}
TEST(DynamicVector, PrepareForPush) {
DynamicVector<int> vector;
EXPECT_EQ(vector.size(), 0);
EXPECT_EQ(vector.capacity(), 0);
// Perform an initial prepareForPush operation which causes a size of one.
ASSERT_TRUE(vector.prepareForPush());
EXPECT_EQ(vector.size(), 0);
EXPECT_EQ(vector.capacity(), 1);
ASSERT_TRUE(vector.push_back(0xcafe));
EXPECT_EQ(vector.size(), 1);
EXPECT_EQ(vector.capacity(), 1);
// Verify that it becomes larger
ASSERT_TRUE(vector.prepareForPush());
EXPECT_EQ(vector[0], 0xcafe);
EXPECT_EQ(vector.size(), 1);
EXPECT_EQ(vector.capacity(), 2);
// The vector should not become any larger than necessary.
ASSERT_TRUE(vector.prepareForPush());
EXPECT_EQ(vector[0], 0xcafe);
EXPECT_EQ(vector.size(), 1);
EXPECT_EQ(vector.capacity(), 2);
}
// TODO: Add a test for when memory allocation returns nullptr.
TEST(DynamicVector, PopBack) {
DynamicVector<int> vector;
constexpr size_t kSize = 4;
for (int i = 0; i < kSize; i++) {
vector.push_back(i);
}
for (int i = kSize - 1; i >= 0; i--) {
EXPECT_EQ(vector.back(), i);
vector.pop_back();
}
EXPECT_TRUE(vector.empty());
}
/**
* A test class to default construct an integer with an incrementing value.
*/
struct FancyInt {
static int index;
int value;
FancyInt() : value(index++) {}
};
int FancyInt::index = 0;
TEST(DynamicVector, Resize) {
DynamicVector<FancyInt> vector;
ASSERT_TRUE(vector.resize(4));
ASSERT_EQ(vector.size(), 4);
EXPECT_EQ(vector[0].value, 0);
EXPECT_EQ(vector[1].value, 1);
EXPECT_EQ(vector[2].value, 2);
EXPECT_EQ(vector[3].value, 3);
ASSERT_TRUE(vector.resize(2));
ASSERT_EQ(vector.size(), 2);
EXPECT_EQ(vector[0].value, 0);
EXPECT_EQ(vector[1].value, 1);
ASSERT_TRUE(vector.resize(4));
ASSERT_EQ(vector.size(), 4);
EXPECT_EQ(vector[0].value, 0);
EXPECT_EQ(vector[1].value, 1);
EXPECT_EQ(vector[2].value, 4);
EXPECT_EQ(vector[3].value, 5);
// Reset index for future tests
FancyInt::index = 0;
}
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