void testTransactionManager() {
printf("%s\n", "testTransactionManager");
// Insert a document in wal
BaseTransaction* wal = new BaseTransaction(_controller);
wal->dropNamespace("db", "mtx");
TransactionManager* manager = new TransactionManager(wal);
BSONObj testA;
testA.add("cod", 1);
testA.add("name", "William");
wal->insert("db", "mtx", &testA);
std::string* t1 = uuid();
StdTransaction* transaction = manager->getTransaction(*t1);
std::auto_ptr<BSONArrayObj> array(transaction->find("db", "mtx", "*", "$'cod' == 1"));
BSONObj* obj1up = array->get(0);
obj1up->add("lastName", "Shakespeare");
transaction->update("db", "mtx", obj1up);
std::auto_ptr<BSONArrayObj> array0(wal->find("db", "mtx", "*", "$'cod' == 1"));
BSONObj* origin1 = array0->get(0);
TEST_ASSERT(!origin1->has("lastName"));
std::auto_ptr<BSONArrayObj> array1(transaction->find("db", "mtx", "*", "$'cod' == 1"));
BSONObj* objtx1 = array1->get(0);
TEST_ASSERT(objtx1->has("lastName"));
transaction->commit();
manager->dropTransaction(*t1);
std::auto_ptr<BSONArrayObj> array2(wal->find("db", "mtx", "*", "$'cod' == 1"));
BSONObj* origin2 = array2->get(0);
TEST_ASSERT(origin2->has("lastName"));
delete t1;
delete manager;
printf("%s\n", "~testTransactionManager");
}
void UnitTestDynamicArray::DoTest()
{
UNIT_TEST_BLOCK_START();
Dia::Core::Containers::DynamicArray<int> array(3);
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array.At(0) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_POSITIVE(array.Capacity() == 3, "DynamicArray()");
UNIT_TEST_POSITIVE(array.Size() == 0, "DynamicArray()");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
UNIT_TEST_ASSERT_EXPECTED_START();
int* ptr = NULL;
Dia::Core::Containers::DynamicArray<int> array0(ptr, 3);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> array1(&cArray1[0], 3);
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
int cArray2[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> array2(&cArray2[0], 3);
UNIT_TEST_POSITIVE(array2.Capacity() == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.IsFull(), "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.Size() == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.At(1) == 2, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.At(2) == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
int cArray3[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> array3(&cArray3[0], 2);
UNIT_TEST_POSITIVE(array3.Capacity() == 2, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.IsFull(), "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Size() == 2, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(0) == 1, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(1) == 2, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array3.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 3);
Dia::Core::Containers::DynamicArray<int> array1(tempArray1);
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray(ConstReference data, unsigned int _size)");
int cArray3[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> tempArray3(cArray3, 2);
Dia::Core::Containers::DynamicArray<int> array3(tempArray3);
UNIT_TEST_POSITIVE(array3.IsFull(), "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Capacity() == 2, "DynamicArray(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Size() == 2, "DynamicArray(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(0) == 1, "DynamicArray(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(1) == 2, "DynamicArray(ConstReference data, unsigned int _size)");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array3.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1(tempArray1);
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.Capacity() == 5, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.Size() == 5, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(3) == 4, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(4) == 5, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray(cArray, 5);
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(tempArray, 2, 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(tempArray, 5, 2);
UNIT_TEST_ASSERT_EXPECTED_END();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1(tempArray1, 1, 3);
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements");
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.At(0) == 2, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.At(1) == 3, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.At(2) == 4, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
int cArray2[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 5);
Dia::Core::Containers::DynamicArray<int> array2(tempArray2, 1, 2);
UNIT_TEST_POSITIVE(array2.IsFull(), "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements");
UNIT_TEST_POSITIVE(array2.Capacity() == 2, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array2.At(0) == 2, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array2.At(1) == 3, "DynamicArray(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 3);
Dia::Core::Containers::DynamicArray<int>::ConstIterator iter1(tempArray1.Begin());
Dia::Core::Containers::DynamicArray<int> array1(3, iter1);
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray(Iterator begin)");
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray(Iterator begin)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
int cArray2[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 2);
Dia::Core::Containers::DynamicArray<int> array2(3, tempArray2.BeginConst());
UNIT_TEST_POSITIVE(!array2.IsFull(), "DynamicArray(Iterator begin)");
UNIT_TEST_POSITIVE(array2.Capacity() == 3, "DynamicArray(Iterator begin)");
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
UNIT_TEST_POSITIVE(array2.At(1) == 2, "DynamicArray<T, size>::DynamicArray ( Iterator begin )");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 3);
Dia::Core::Containers::DynamicArray<int> array1(3, tempArray1.EndConst());
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray(ConstReverseIterator begin)");
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray(ConstReverseIterator begin)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array1.At(0) == 3, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array1.At(2) == 1, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
int cArray2[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 2);
Dia::Core::Containers::DynamicArray<int> array2(3, tempArray2.EndConst());
UNIT_TEST_POSITIVE(!array2.IsFull(), "DynamicArray(ConstReverseIterator begin)");
UNIT_TEST_POSITIVE(array2.Capacity() == 3, "DynamicArray(ConstReverseIterator begin)");
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array2.At(0) == 2, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array2.At(1) == 1, "DynamicArray<T, size>::DynamicArray ( ConstReverseIterator iter begin )");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
class AboveTwoFilter
{
public:
bool Evaluate(const int& currentIter)const
{
return (currentIter > 2);
};
};
AboveTwoFilter filter1;
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1(5, tempArray1.BeginConst(), filter1);
UNIT_TEST_POSITIVE(!array1.IsFull(), "DynamicArray(ConstIterator& iter, const EvaluateFunctor& filter)");
UNIT_TEST_POSITIVE(array1.Capacity() == 5, "DynamicArray(ConstIterator& iter, const EvaluateFunctor& filter)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray<T, size>::DynamicArray ( ConstIterator& iter, const EvaluateFunctor& filter )");
UNIT_TEST_POSITIVE(array1.At(0) == 3, "DynamicArray<T, size>::DynamicArray ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_POSITIVE(array1.At(1) == 4, "DynamicArray<T, size>::DynamicArray ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_POSITIVE(array1.At(2) == 5, "DynamicArray<T, size>::DynamicArray ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array1.At(3) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array1.At(4) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
UNIT_TEST_ASSERT_EXPECTED_START();
int* ptr = NULL;
Dia::Core::Containers::DynamicArray<int> array0(3);
array0.Assign(ptr, 3);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(&cArray1[0], 10);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(&cArray1[0], 3);
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
int cArray2[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.Assign(&cArray2[0], 3);
UNIT_TEST_POSITIVE(array2.IsFull(), "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.Capacity() == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.Size() == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.At(1) == 2, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array2.At(2) == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
int cArray3[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> array3(3);
array3.Assign(&cArray3[0], 2);
UNIT_TEST_POSITIVE(!array3.IsFull(), "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Capacity() == 3, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Size() == 2, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(0) == 1, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(1) == 2, "DynamicArray.Assign(ConstPointer pData, unsigned int _size)");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array3.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(cArray1, 10);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> tempArray1;
tempArray1.Reserve(3);
tempArray1.Assign(cArray1, 3);
Dia::Core::Containers::DynamicArray<int> array1(tempArray1);
UNIT_TEST_POSITIVE(array1.IsFull(), "DynamicArray.Assign(ConstReference pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Capacity() == 3, "DynamicArray.Assign(ConstReference pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
int cArray3[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> tempArray3;
tempArray3.Reserve(3);
tempArray3.Assign(cArray3, 2);
Dia::Core::Containers::DynamicArray<int> array3(tempArray3);
UNIT_TEST_POSITIVE(!array3.IsFull(), "DynamicArray.Assign(ConstReference pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Capacity() == 3, "DynamicArray.Assign(ConstReference pData, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.Size() == 2, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(0) == 1, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
UNIT_TEST_POSITIVE(array3.At(1) == 2, "DynamicArray.Assign(ConstReference data, unsigned int _size)");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array3.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1;
array1.Reserve(5);
array1.Assign(tempArray1);
UNIT_TEST_POSITIVE(array1.Size() == 5, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(3) == 4, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array1.At(4) == 5, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
int cArray2[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 5);
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.Assign(tempArray2);
UNIT_TEST_POSITIVE(array2.Size() == 3, "DynamicArray(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array2.At(1) == 2, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_POSITIVE(array2.At(2) == 3, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs)");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray(cArray, 5);
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(tempArray, 2, 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(tempArray, 5, 2);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(tempArray, 2, 10);
UNIT_TEST_ASSERT_EXPECTED_END();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(tempArray1, 1, 3);
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.At(0) == 2, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.At(1) == 3, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array1.At(2) == 4, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
int cArray2[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 5);
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.Assign(tempArray2, 1, 2);
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array2.At(0) == 2, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_POSITIVE(array2.At(1) == 3, "DynamicArray.Assign(const DynamicArray<T,_size>& rhs, unsigned int startIndex, unsigned int numberElements)");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 3);
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(tempArray1.BeginConst());
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
int cArray2[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 2);
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.Assign(tempArray2.BeginConst());
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
UNIT_TEST_POSITIVE(array2.At(1) == 2, "DynamicArray<T, size>::DynamicArray.Assign ( Iterator begin )");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[3] = {1, 2, 3};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 3);
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Assign(tempArray1.EndConst());
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array1.At(0) == 3, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array1.At(2) == 1, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
int cArray2[2] = {1, 2};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 2);
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.Assign(tempArray2.EndConst());
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array2.At(0) == 2, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
UNIT_TEST_POSITIVE(array2.At(1) == 1, "DynamicArray<T, size>::DynamicArray.Assign ( ConstReverseIterator iter begin )");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
class AboveTwoFilter
{
public:
bool Evaluate(const int& currentIter)const
{
return (currentIter > 2);
};
};
AboveTwoFilter filter1;
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1(5);
array1.Assign(tempArray1.BeginConst(), filter1);
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray<T, size>::DynamicArray.Assign ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_POSITIVE(array1.At(0) == 3, "DynamicArray<T, size>::DynamicArray.Assign ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_POSITIVE(array1.At(1) == 4, "DynamicArray<T, size>::DynamicArray.Assign ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_POSITIVE(array1.At(2) == 5, "DynamicArray<T, size>::DynamicArray.Assign ( ConstIterator& iter, const EvaluateFunctor<T, bool>* filter )");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array1.At(3) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array1.At(4) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array1(5);
array1 = tempArray1;
UNIT_TEST_POSITIVE(array1.Size() == 5, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array1.At(1) == 2, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array1.At(2) == 3, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array1.At(3) == 4, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array1.At(4) == 5, "DynamicArray opertor=");
int cArray2[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> tempArray2(cArray2, 5);
Dia::Core::Containers::DynamicArray<int> array2(3);
array2 = tempArray2;
UNIT_TEST_POSITIVE(array2.Size() == 3, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array2.At(1) == 2, "DynamicArray opertor=");
UNIT_TEST_POSITIVE(array2.At(2) == 3, "DynamicArray opertor=");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array2(array1);
Dia::Core::Containers::DynamicArray<int> array3(array1, 1, 3);
UNIT_TEST_POSITIVE(array1 == array2, "DynamicArray opertor==");
UNIT_TEST_NEGATIVE(array1 == array3, "DynamicArray opertor==");
UNIT_TEST_POSITIVE(array1 != array3, "DynamicArray opertor!=");
UNIT_TEST_NEGATIVE(array1 != array2, "DynamicArray opertor!=");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 5);
UNIT_TEST_ASSERT_EXPECTED_START();
int temp = array1[-1];
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
int temp = array1[6];
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
int temp = array1.At(-1);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
int temp = array1.At(6);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_POSITIVE(array1[0] == array1.At(0), "DynamicArray opertor[]");
UNIT_TEST_POSITIVE(array1[1] == array1.At(1), "DynamicArray opertor[]");
UNIT_TEST_POSITIVE(array1[2] == array1.At(2), "DynamicArray opertor[]");
UNIT_TEST_POSITIVE(array1[3] == array1.At(3), "DynamicArray opertor[]");
UNIT_TEST_POSITIVE(array1[4] == array1.At(4), "DynamicArray opertor[]");
UNIT_TEST_POSITIVE(array1.Front() == array1.At(0), "DynamicArray Front");
UNIT_TEST_POSITIVE(array1.Back() == array1.At(4), "DynamicArray Back");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 5);
UNIT_TEST_POSITIVE(&array1[0] == array1.IteratorAt(0).Current(), "DynamicArray IteratorAt");
UNIT_TEST_POSITIVE(&array1[1] == array1.IteratorAt(1).Current(), "DynamicArray IteratorAt");
UNIT_TEST_POSITIVE(&array1[2] == array1.IteratorAt(2).Current(), "DynamicArray IteratorAt");
UNIT_TEST_POSITIVE(&array1[3] == array1.IteratorAt(3).Current(), "DynamicArray IteratorAt");
UNIT_TEST_POSITIVE(&array1[4] == array1.IteratorAt(4).Current(), "DynamicArray IteratorAt");
UNIT_TEST_POSITIVE(array1.Begin() == array1.IteratorAt(0), "DynamicArray Begin");
UNIT_TEST_POSITIVE(array1.BeginConst() == array1.IteratorAtConst(0), "DynamicArray BeginConst");
UNIT_TEST_POSITIVE(&array1[0] == array1.ReverseIteratorAt(0).Current(), "DynamicArray ReverseIteratorAt");
UNIT_TEST_POSITIVE(&array1[1] == array1.ReverseIteratorAt(1).Current(), "DynamicArray ReverseIteratorAt");
UNIT_TEST_POSITIVE(&array1[2] == array1.ReverseIteratorAt(2).Current(), "DynamicArray ReverseIteratorAt");
UNIT_TEST_POSITIVE(&array1[3] == array1.ReverseIteratorAt(3).Current(), "DynamicArray ReverseIteratorAt");
UNIT_TEST_POSITIVE(&array1[4] == array1.ReverseIteratorAt(4).Current(), "DynamicArray ReverseIteratorAt");
UNIT_TEST_POSITIVE(array1.End() == array1.ReverseIteratorAt(4), "DynamicArray End");
UNIT_TEST_POSITIVE(array1.EndConst() == array1.ReverseIteratorAtConst(4), "DynamicArray EndConst");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[10] = {1, 2, 3, 4, 5, 1, 3, 3, 3, 4};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 10);
UNIT_TEST_POSITIVE(array1.FrequencyOfElement(1) == 2, "DynamicArray FrequencyOfElement");
UNIT_TEST_POSITIVE(array1.FrequencyOfElement(2) == 1, "DynamicArray FrequencyOfElement");
UNIT_TEST_POSITIVE(array1.FrequencyOfElement(3) == 4, "DynamicArray FrequencyOfElement");
UNIT_TEST_POSITIVE(array1.FrequencyOfElement(4) == 2, "DynamicArray FrequencyOfElement");
UNIT_TEST_POSITIVE(array1.FrequencyOfElement(5) == 1, "DynamicArray FrequencyOfElement");
UNIT_TEST_POSITIVE(array1.FrequencyOfElement(6) == 0, "DynamicArray FrequencyOfElement");
Dia::Core::Containers::DynamicArray<int> arrayUnique(10);
array1.UniqueElements(arrayUnique);
UNIT_TEST_POSITIVE(arrayUnique.Size() == 5, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayUnique[0] == 1, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayUnique[1] == 2, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayUnique[2] == 3, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayUnique[3] == 4, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayUnique[4] == 5, "DynamicArray numberOfUniqueElements");
Dia::Core::Containers::DynamicArray<int> arrayFreqUnique(10);
Dia::Core::Containers::DynamicArray<int> arrayFreq(10);
array1.FrequencyUniqueElements(arrayFreqUnique, arrayFreq);
UNIT_TEST_POSITIVE(arrayFreqUnique.Size() == 5, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreqUnique[0] == 1, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreqUnique[1] == 2, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreqUnique[2] == 3, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreqUnique[3] == 4, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreqUnique[4] == 5, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreq[0] == 2, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreq[1] == 1, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreq[2] == 4, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreq[3] == 2, "DynamicArray numberOfUniqueElements");
UNIT_TEST_POSITIVE(arrayFreq[4] == 1, "DynamicArray numberOfUniqueElements");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
class IncreasingOrder
{
public:
bool GreaterThen(const int& object1, const int& object2)const
{
return (object1 > object2);
}
bool LessThen(const int& object1, const int& object2)const
{
return (object1 < object2);
}
bool Equal(const int& object1, const int& object2)const
{
return (object1 == object2);
}
};
IncreasingOrder order;
int cArray1[10] = {1, 2, 3, 4, 5, 1, 3, 3, 3, 4};
int cArray2[5] = {4, 2, 5, 1, 3};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 10);
Dia::Core::Containers::DynamicArray<int> array2(cArray2, 5);
Dia::Core::Containers::DynamicArray<int> array3(cArray1, 10);
Dia::Core::Containers::DynamicArray<int> array4(cArray2, 5);
array1.Sort(order);
UNIT_TEST_POSITIVE(array1[0] == 1, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[1] == 1, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[2] == 2, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[3] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[4] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[5] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[6] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[7] == 4, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[8] == 4, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1[9] == 5, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array1.IsSorted(order), "DynamicArray Sort");
array2.Sort(order);
UNIT_TEST_POSITIVE(array2[0] == 1, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array2[1] == 2, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array2[2] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array2[3] == 4, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array2[4] == 5, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array2.IsSorted(order), "DynamicArray Sort");
array3.Sort();
UNIT_TEST_POSITIVE(array3[0] == 1, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[1] == 1, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[2] == 2, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[3] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[4] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[5] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[6] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[7] == 4, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[8] == 4, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3[9] == 5, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array3.IsSorted(), "DynamicArray Sort");
array4.Sort();
UNIT_TEST_POSITIVE(array4[0] == 1, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array4[1] == 2, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array4[2] == 3, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array4[3] == 4, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array4[4] == 5, "DynamicArray Sort");
UNIT_TEST_POSITIVE(array4.IsSorted(), "DynamicArray Sort");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[5] = {1, 2, 3, 4, 5};
int cArray2[5] = {4, 2, 5, 1, 3};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 5);
Dia::Core::Containers::DynamicArray<int> array2(cArray2, 5);
array1.Swap(array2);
UNIT_TEST_POSITIVE(array1[0] == 4, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array1[1] == 2, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array1[2] == 5, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array1[3] == 1, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array1[4] == 3, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array2[0] == 1, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array2[1] == 2, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array2[2] == 3, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array2[3] == 4, "DynamicArray Swap");
UNIT_TEST_POSITIVE(array2[4] == 5, "DynamicArray Swap");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[10] = {1, 2, 3, 4, 5, 6, 3, 4, 5, 7};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 10);
class OneLess
{
public:
bool Equal(const int& object1, const int& object2)const
{
return (object1 == (object2 - 1));
}
};
OneLess oneLess;
UNIT_TEST_ASSERT_EXPECTED_START();
array1.FindBetweenIndex(5, -2, 3);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
array1.FindBetweenIndex(5, 3, 1);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
array1.FindBetweenIndex(5, 0, 17);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_POSITIVE(array1.FindIndex(5) == 4 , "DynamicArray FindIndex");
UNIT_TEST_POSITIVE(array1.FindIndex(7) == 9, "DynamicArray FindIndex");
UNIT_TEST_POSITIVE(array1.FindIndex(10) == -1, "DynamicArray FindIndex");
UNIT_TEST_POSITIVE(array1.FindBetweenIndex(5, 0, 7) == 4 , "DynamicArray FindBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindBetweenIndex(5, 6, 9) == 8, "DynamicArray FindBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindBetweenIndex(1, 6, 9) == -1, "DynamicArray FindBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindIndex(5, oneLess) == 3 , "DynamicArray FindIndex");
UNIT_TEST_POSITIVE(array1.FindIndex(7, oneLess) == 5, "DynamicArray FindIndex");
UNIT_TEST_POSITIVE(array1.FindIndex(10, oneLess) == -1, "DynamicArray FindIndex");
UNIT_TEST_POSITIVE(array1.FindBetweenIndex(5, oneLess, 0, 7) == 3 , "DynamicArray FindBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindBetweenIndex(5, oneLess, 6, 9) == 7, "DynamicArray FindBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindBetweenIndex(1, oneLess, 6, 9) == -1, "DynamicArray FindBetweenIndex");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[10] = {1, 2, 3, 4, 5, 6, 3, 4, 5, 7};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 10);
class OneLess
{
public:
bool Equal(const int& object1, const int& object2)const
{
return (object1 == (object2 - 1));
}
};
OneLess oneLess;
UNIT_TEST_ASSERT_EXPECTED_START();
array1.FindLastBetweenIndex(5, -2, 3);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
array1.FindLastBetweenIndex(5, 3, 1);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_ASSERT_EXPECTED_START();
array1.FindLastBetweenIndex(5, 0, 17);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_POSITIVE(array1.FindLastIndex(5) == 8 , "DynamicArray FindLastIndex");
UNIT_TEST_POSITIVE(array1.FindLastIndex(3) == 6, "DynamicArray FindLastIndex");
UNIT_TEST_POSITIVE(array1.FindLastIndex(10) == -1, "DynamicArray FindLastIndex");
UNIT_TEST_POSITIVE(array1.FindLastBetweenIndex(4, 0, 7) == 7 , "DynamicArray FindLastBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindLastBetweenIndex(5, 6, 9) == 8, "DynamicArray FindLastBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindLastBetweenIndex(1, 6, 9) == -1, "DynamicArray FindLastBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindLastIndex(5, oneLess) == 7 , "DynamicArray FindLastIndex");
UNIT_TEST_POSITIVE(array1.FindLastIndex(7, oneLess) == 5, "DynamicArray FindLastIndex");
UNIT_TEST_POSITIVE(array1.FindLastIndex(10, oneLess) == -1, "DynamicArray FindLastIndex");
UNIT_TEST_POSITIVE(array1.FindLastBetweenIndex(5, oneLess, 0, 7) == 7 , "DynamicArray FindLastBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindLastBetweenIndex(5, oneLess, 6, 9) == 7, "DynamicArray FindLastBetweenIndex");
UNIT_TEST_POSITIVE(array1.FindLastBetweenIndex(1, oneLess, 6, 9) == -1, "DynamicArray FindLastBetweenIndex");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
int cArray1[10] = {1, 2, 3, 4, 5, 6, 3, 4, 5, 7};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 10);
array1.Sort();
class Equality
{
public:
bool GreaterThen(const int& object1, const int& object2)const
{
return (object1 > object2);
}
bool LessThen(const int& object1, const int& object2)const
{
return (object1 < object2);
}
bool Equal(const int& object1, const int& object2)const
{
return (object1 == object2);
}
};
Equality equality;
UNIT_TEST_POSITIVE(array1.IsSorted(), "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindSortedIndex(5) == 6 , "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindSortedIndex(3) == 2, "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindSortedIndex(10) == -1, "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindLastSortedIndex(4) == 5 , "DynamicArray FindLastSortedIndex");
UNIT_TEST_POSITIVE(array1.FindLastSortedIndex(5) == 7, "DynamicArray FindLastSortedIndex");
UNIT_TEST_POSITIVE(array1.FindLastSortedIndex(10) == -1, "DynamicArray FindLastSortedIndex");
UNIT_TEST_POSITIVE(array1.FindSortedIndex(5, equality) == 6 , "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindSortedIndex(3, equality) == 2, "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindSortedIndex(10, equality) == -1, "DynamicArray FindSortedIndex");
UNIT_TEST_POSITIVE(array1.FindLastSortedIndex(4, equality) == 5 , "DynamicArray FindLastSortedIndex");
UNIT_TEST_POSITIVE(array1.FindLastSortedIndex(5, equality) == 7, "DynamicArray FindLastSortedIndex");
UNIT_TEST_POSITIVE(array1.FindLastSortedIndex(10, equality) == -1, "DynamicArray FindLastSortedIndex");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
class Eval
{
public:
float Evaluate(const int& object1)const
{
return static_cast<float>(object1);
};
};
Eval eval;
int cArray1[10] = {1, 2, 3, 9, 5, 6, 3, 4, 5, 7};
Dia::Core::Containers::DynamicArray<int> array1(cArray1, 10);
UNIT_TEST_POSITIVE(array1.HighestEvalutionIndex(eval) == 3, "DynamicArray HighestEvalutionIndex");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
class Foo
{
public:
Foo(): mSomeData(true), mMoreData(21.0f){}
bool SomeData(){return mSomeData;}
float MoreData(){return mMoreData;}
bool mSomeData;
float mMoreData;
};
Foo cArray1[3];
Dia::Core::Containers::DynamicArray<Foo> array1(cArray1, 3);
cArray1[0].mSomeData = false;
cArray1[0].mMoreData = 11.0f;
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray Test Non primitive");
UNIT_TEST_POSITIVE(array1.At(0).SomeData(), "DynamicArray Test Non primitive");
UNIT_TEST_POSITIVE(array1.At(1).SomeData(), "DynamicArray Test Non primitive");
UNIT_TEST_POSITIVE(array1.At(2).SomeData(), "DynamicArray Test Non primitive");
UNIT_TEST_POSITIVE(array1.At(0).MoreData() == 21.0f, "DynamicArray Test Non primitive");
UNIT_TEST_POSITIVE(array1.At(1).MoreData() == 21.0f, "DynamicArray Test Non primitive");
UNIT_TEST_POSITIVE(array1.At(2).MoreData() == 21.0f, "DynamicArray Test Non primitive");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Add(1);
array1.AddDefault();
array1.Add(2);
UNIT_TEST_POSITIVE(array1.Size() == 3, "DynamicArray Add");
UNIT_TEST_POSITIVE(array1.At(0) == 1, "DynamicArray Add");
UNIT_TEST_POSITIVE(array1.At(1) == 0, "DynamicArray AddDefault");
UNIT_TEST_POSITIVE(array1.At(2) == 2, "DynamicArray Add");
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.FillDefault();
UNIT_TEST_POSITIVE(array2.Size() == 3, "DynamicArray Add");
UNIT_TEST_POSITIVE(array2.At(0) == 0, "DynamicArray FillDefault");
UNIT_TEST_POSITIVE(array2.At(1) == 0, "DynamicArray FillDefault");
UNIT_TEST_POSITIVE(array2.At(2) == 0, "DynamicArray FillDefault");
Dia::Core::Containers::DynamicArray<int> array3(3);
array3.Fill(11);
UNIT_TEST_POSITIVE(array3.Size() == 3, "DynamicArray Add");
UNIT_TEST_POSITIVE(array3.At(0) == 11, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array3.At(1) == 11, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array3.At(2) == 11, "DynamicArray Fill");
Dia::Core::Containers::DynamicArray<int> array4(3);
array4.FillDefault();
UNIT_TEST_POSITIVE(array4.Size() == 3, "DynamicArray Add");
UNIT_TEST_POSITIVE(array4.At(0) == 0, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array4.At(1) == 0, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array4.At(2) == 0, "DynamicArray Fill");
Dia::Core::Containers::DynamicArray<int> array5(5);
array5.AddDefault();
array5.AddAt(1, 0);
array5.AddAt(2, 1);
array5.AddAt(3, 1);
array5.AddAt(4, 3);
UNIT_TEST_POSITIVE(array5.Size() == 5, "DynamicArray Add");
UNIT_TEST_POSITIVE(array5.At(0) == 1, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array5.At(1) == 3, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array5.At(2) == 2, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array5.At(3) == 4, "DynamicArray Fill");
UNIT_TEST_POSITIVE(array5.At(4) == 0, "DynamicArray Fill");
UNIT_TEST_BLOCK_END();
UNIT_TEST_BLOCK_START();
Dia::Core::Containers::DynamicArray<int> array1(3);
array1.Fill(11);
array1.Remove();
UNIT_TEST_POSITIVE(array1.Size() == 2, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array1.At(0) == 11, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array1.At(1) == 11, "DynamicArray Remove");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array1.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> array2(3);
array2.Add(1);
array2.Add(2);
array2.Add(3);
array2.RemoveAt(1);
UNIT_TEST_POSITIVE(array2.Size() == 2, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array2.At(0) == 1, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array2.At(1) == 3, "DynamicArray Remove");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array2.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> array3(3);
array3.Add(1);
array3.Add(2);
array3.Add(3);
array3.RemoveFirst(2);
UNIT_TEST_POSITIVE(array3.Size() == 2, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array3.At(0) == 1, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array3.At(1) == 3, "DynamicArray Remove");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array3.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> array4(3);
array4.Add(1);
array4.Add(2);
array4.Add(3);
array4.RemoveLast(2);
UNIT_TEST_POSITIVE(array4.Size() == 2, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array4.At(0) == 1, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array4.At(1) == 3, "DynamicArray Remove");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array4.At(2) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
Dia::Core::Containers::DynamicArray<int> array5(3);
array5.Add(1);
array5.Add(2);
array5.Add(3);
array5.RemoveAll();
UNIT_TEST_POSITIVE(array5.Size() == 0, "DynamicArray Remove");
Dia::Core::Containers::DynamicArray<int> array6(5);
array6.Add(1);
array6.Add(2);
array6.Add(3);
array6.Add(2);
array6.Add(3);
array6.RemoveAll(2);
UNIT_TEST_POSITIVE(array6.Size() == 3, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array6.At(0) == 1, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array6.At(1) == 3, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array6.At(2) == 3, "DynamicArray Remove");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array6.At(3) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
class Comparisson
{
public:
bool Evaluate(const int&a)const
{
return (a == 2);
};
};
Comparisson compare;
Dia::Core::Containers::DynamicArray<int> array7(5);
array7.Add(1);
array7.Add(2);
array7.Add(3);
array7.Add(2);
array7.Add(3);
array7.RemoveAll(compare);
UNIT_TEST_POSITIVE(array7.Size() == 3, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array7.At(0) == 1, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array7.At(1) == 3, "DynamicArray Remove");
UNIT_TEST_POSITIVE(array7.At(2) == 3, "DynamicArray Remove");
UNIT_TEST_ASSERT_EXPECTED_START();
bool test = (array7.At(3) == 0);
UNIT_TEST_ASSERT_EXPECTED_END();
UNIT_TEST_BLOCK_END();
mState = kFinished;
}