void __TestcopyTuples()
{
int err = 0;
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_TUPLES_2, dims, "TestcopyTuples");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
err = array->copyTuple(0, 1);
DREAM3D_REQUIRE_EQUAL(0, err);
err = array->copyTuple(3, 2);
DREAM3D_REQUIRE_EQUAL(0, err);
err = array->copyTuple(4, 5);
DREAM3D_REQUIRE_EQUAL(0, err);
err = array->copyTuple(8, 9);
DREAM3D_REQUIRE_EQUAL(0, err);
err = array->copyTuple(18, 19);
DREAM3D_REQUIRE_EQUAL(-1, err);
DREAM3D_REQUIRE_EQUAL(array->getComponent(1, 0), 0);
DREAM3D_REQUIRE_EQUAL(array->getComponent(1, 1), 0);
DREAM3D_REQUIRE_EQUAL(array->getComponent(2, 0), 3);
DREAM3D_REQUIRE_EQUAL(array->getComponent(2, 1), 3);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 0), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 1), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(9, 0), 8);
DREAM3D_REQUIRE_EQUAL(array->getComponent(9, 1), 8);
}
void _TestDeepCopyDataArray()
{
size_t numTuples = 10;
QVector<size_t> cDims(1, 5);
QString name("Source Array");
// First lets try it without allocating any memory
typename DataArray<T>::Pointer src = DataArray<T>::CreateArray(numTuples, cDims, name, false);
typename DataArray<T>::Pointer copy = std::dynamic_pointer_cast<DataArray<T> >(src->deepCopy());
DREAM3D_REQUIRED(copy->getNumberOfTuples(), ==, src->getNumberOfTuples() );
DREAM3D_REQUIRED(copy->isAllocated(), ==, src->isAllocated() );
// Create the array again, this time allocating the data and putting in some known data
src = DataArray<T>::CreateArray(numTuples, cDims, name, true);
for(size_t i = 0; i < numTuples; i++)
{
for(size_t j = 0; j < cDims[0]; j++)
{
src->setComponent(i, j, static_cast<T>(i + j) );
}
}
copy = std::dynamic_pointer_cast<DataArray<T> >(src->deepCopy());
for(size_t i = 0; i < numTuples; i++)
{
for(size_t j = 0; j < cDims[0]; j++)
{
src->setComponent(i, j, static_cast<T>(i + j) );
T cpy = copy->getComponent(i, j);
T val = src->getComponent(i, j);
DREAM3D_REQUIRE_EQUAL(cpy, val)
}
}
}
void __TestReorderCopy()
{
size_t numTuples = 10;
QVector<size_t> cDims(1, 5);
QString name("Source Array");
//make sure that an incorrectly sized order returns a null pointer
typename DataArray<T>::Pointer src = DataArray<T>::CreateArray(numTuples, cDims, name, false);
QVector<size_t> wrongSize(numTuples + 1);
typename DataArray<T>::Pointer copy = boost::dynamic_pointer_cast<DataArray<T> >(src->reorderCopy(wrongSize));
DREAM3D_REQUIRE_EQUAL(copy.get(), 0);
// fill reorder vector with same index (using this would be the same result as deep copy)
QVector<size_t> newOrder(numTuples);
for(size_t i = 0; i < numTuples; i++)
{
newOrder[i] = i;
}
//shuffle order
std::random_shuffle(newOrder.begin(), newOrder.end());
// First lets try it without allocating any memory
copy = boost::dynamic_pointer_cast<DataArray<T> >(src->reorderCopy(newOrder));
//if newOrder is inporperly size a null pointer is returned
DREAM3D_REQUIRE_NE(copy.get(), 0);
//check sizes
DREAM3D_REQUIRED(copy->getNumberOfTuples(), ==, src->getNumberOfTuples() );
DREAM3D_REQUIRED(copy->isAllocated(), ==, src->isAllocated() );
// Create the array again, this time allocating the data and putting in some known data
src = DataArray<T>::CreateArray(numTuples, cDims, name, true);
for(size_t i = 0; i < src->getSize(); i++)
{
src->setValue(i, i);
}
for(size_t i = 0; i < numTuples; i++)
{
for(size_t j = 0; j < cDims[0]; j++)
{
src->setComponent(i, j, static_cast<T>(i * cDims[0] + j) );
}
}
copy = boost::dynamic_pointer_cast<DataArray<T> >(src->reorderCopy(newOrder));
for(size_t i = 0; i < numTuples; i++)
{
for(size_t j = 0; j < cDims[0]; j++)
{
T cpy = copy->getComponent(newOrder[i], j);
T val = src->getComponent(i, j);
DREAM3D_REQUIRE_EQUAL(cpy, val)
}
}
}
int __ValidateArray(typename DataArray<T>::Pointer array, size_t numTuples, int numComp)
{
int err = 0;
DREAM3D_REQUIRED(true, ==, array->isAllocated() );
size_t nt = array->getNumberOfTuples();
DREAM3D_REQUIRED(nt, ==, numTuples);
int nc = array->getNumberOfComponents();
DREAM3D_REQUIRED(nc, ==, numComp );
size_t typeSize = array->getTypeSize();
DREAM3D_REQUIRE_EQUAL(sizeof(T), typeSize);
size_t numElements = array->getSize();
DREAM3D_REQUIRED(numElements, ==, (nt * nc) );
// initialize the array with zeros to get a baseline
array->initializeWithZeros();
// Get a pointer to the data and loop through the array making sure all values are Zero
T* ptr = array->getPointer(0);
for(size_t i = 0; i < numElements; i++)
{
DREAM3D_REQUIRE_EQUAL(0, ptr[i]);
}
//Splat another value across the array starting at an offset into the array
//and test those values made it into the array correctly
array->initializeWithValue(static_cast<T>(1), numComp);
for(size_t i = numComp; i < numElements; i++)
{
DREAM3D_REQUIRE_EQUAL(static_cast<T>(1), ptr[i]);
}
// Initialize the entire array with a value (offset = 0);
array->initializeWithValue(static_cast<T>(2), 0);
for(size_t i = 0; i < numElements; i++)
{
DREAM3D_REQUIRE_EQUAL(static_cast<T>(2), ptr[i]);
}
// Initialize the entire array with a value (offset = 0), this time using the default value for the offset
array->initializeWithValue(static_cast<T>(3));
ptr = array->getPointer(0);
for(size_t i = 0; i < numElements; i++)
{
DREAM3D_REQUIRE_EQUAL(static_cast<T>(3), ptr[i]);
array->setValue(i, static_cast<T>(4));
T val = array->getValue(i);
DREAM3D_REQUIRE_EQUAL(val, static_cast<T>(4))
}
// Test setting of a Tuple with a value, which means all components of that tuple will have the same value
size_t index = 0;
array->initializeWithZeros();
for(size_t t = 0; t < numTuples; t++)
{
array->initializeTuple(t, 6.0);
for(int j = 0; j < numComp; j++)
{
T val = array->getComponent(t, j);
DREAM3D_REQUIRE_EQUAL(val, (static_cast<T>(6)) )
}
}
// Test setting individual components to a specific value
index = 0;
array->initializeWithZeros();
for(size_t t = 0; t < numTuples; t++)
{
for(int j = 0; j < numComp; j++)
{
index = t * numComp + j;
array->setComponent(t, j, static_cast<T>(t + j) );
T val = array->getComponent(t, j);
DREAM3D_REQUIRE_EQUAL(val, (static_cast<T>(t + j)))
val = array->getValue(index);
DREAM3D_REQUIRE_EQUAL(val, (static_cast<T>(t + j)))
}
}
/// virtual QVector<size_t> getComponentDimensions()
// Test resizing the array based on a give number of tuples. The number of Components will stay the same at each tuple
array->resize(numTuples * 2);
array->initializeWithZeros(); // Init the grown array to all Zeros
nt = array->getNumberOfTuples();
DREAM3D_REQUIRED(nt, ==, (numTuples * 2) );
nc = array->getNumberOfComponents();
DREAM3D_REQUIRED(nc, ==, numComp );
// Test resizing the array to a smaller size
array->resize(numTuples);
array->initializeWithZeros(); // Init the grown array to all Zeros
nt = array->getNumberOfTuples();
DREAM3D_REQUIRED(nt, ==, (numTuples) );
nc = array->getNumberOfComponents();
DREAM3D_REQUIRED(nc, ==, numComp );
////clear()
// This resizes the array to Zero destroying all the data in the process.
array->clear();
DREAM3D_REQUIRED(false, ==, array->isAllocated() );
nt = array->getNumberOfTuples();
DREAM3D_REQUIRED(nt, ==, 0);
nc = array->getNumberOfComponents();
DREAM3D_REQUIRED(nc, ==, numComp);
nt = array->getSize();
DREAM3D_REQUIRED(nt, ==, 0);
ptr = array->getPointer(0);
DREAM3D_REQUIRED_PTR(ptr, ==, NULL);
// Test resizing the array to a any larger size
array->resize(numTuples);
array->initializeWithZeros(); // Init the grown array to all Zeros
nt = array->getNumberOfTuples();
DREAM3D_REQUIRED(nt, ==, (numTuples) );
nc = array->getNumberOfComponents();
DREAM3D_REQUIRED(nc, ==, numComp );
ptr = array->getPointer(0);
DREAM3D_REQUIRED_PTR(ptr, !=, NULL);
return err;
}
void __TestEraseElements()
{
// Test dropping of front elements only
{
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_ELEMENTS, "Test1");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_ELEMENTS; ++i)
{
array->setComponent(i, 0, static_cast<T>(i) );
}
QVector<size_t> eraseElements;
eraseElements.push_back(0);
eraseElements.push_back(1);
array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(array->getValue(0), 2);
DREAM3D_REQUIRE_EQUAL(array->getValue(1), 3);
DREAM3D_REQUIRE_EQUAL(array->getValue(2), 4);
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
}
// Test Dropping of internal elements
{
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_ELEMENTS_2, dims, "Test2");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
QVector<size_t> eraseElements;
eraseElements.push_back(3);
eraseElements.push_back(6);
eraseElements.push_back(8);
array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(array->getComponent(3, 0), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(3, 1), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 0), 7);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 1), 7);
DREAM3D_REQUIRE_EQUAL(array->getComponent(6, 0), 9);
DREAM3D_REQUIRE_EQUAL(array->getComponent(6, 1), 9);
}
// Test Dropping of internal elements
{
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_ELEMENTS_2, dims, "Test3");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
QVector<size_t> eraseElements;
eraseElements.push_back(3);
eraseElements.push_back(6);
eraseElements.push_back(9);
array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(array->getComponent(3, 0), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(3, 1), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 0), 7);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 1), 7);
DREAM3D_REQUIRE_EQUAL(array->getComponent(6, 0), 8);
DREAM3D_REQUIRE_EQUAL(array->getComponent(6, 1), 8);
}
// Test Dropping of internal continuous elements
{
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_ELEMENTS_2, dims, "Test4");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
QVector<size_t> eraseElements;
eraseElements.push_back(3);
eraseElements.push_back(4);
eraseElements.push_back(5);
array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(array->getComponent(3, 0), 6);
DREAM3D_REQUIRE_EQUAL(array->getComponent(3, 1), 6);
DREAM3D_REQUIRE_EQUAL(array->getComponent(4, 0), 7);
DREAM3D_REQUIRE_EQUAL(array->getComponent(4, 1), 7);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 0), 8);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 1), 8);
}
// Test Dropping of Front and Back Elements
{
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_ELEMENTS_2, dims, "Test5");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
QVector<size_t> eraseElements;
eraseElements.push_back(0);
eraseElements.push_back(9);
array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(array->getComponent(0, 0), 1);
DREAM3D_REQUIRE_EQUAL(array->getComponent(0, 1), 1);
DREAM3D_REQUIRE_EQUAL(array->getComponent(7, 0), 8);
DREAM3D_REQUIRE_EQUAL(array->getComponent(7, 1), 8);
}
// Test Dropping of Back Elements
{
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_ELEMENTS_2, dims, "Test6");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
QVector<size_t> eraseElements;
eraseElements.push_back(7);
eraseElements.push_back(8);
eraseElements.push_back(9);
array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(array->getComponent(4, 0), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(4, 1), 4);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 0), 5);
DREAM3D_REQUIRE_EQUAL(array->getComponent(5, 1), 5);
}
// Test Dropping of indices larger than the number of tuples
{
QVector<size_t> dims(1, NUM_COMPONENTS_2);
typename DataArray<T>::Pointer array = DataArray<T>::CreateArray(NUM_TUPLES_2, dims, "Test6");
DREAM3D_REQUIRE_EQUAL(array->isAllocated(), true);
for(size_t i = 0; i < NUM_TUPLES_2; ++i)
{
array->setComponent(i, 0, static_cast<T>(i));
array->setComponent(i, 1, static_cast<T>(i));
}
QVector<size_t> eraseElements;
eraseElements.push_back(10);
int err = array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(err , -100)
eraseElements.clear();
err = array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(err , 0)
eraseElements.resize(20);
err = array->eraseTuples(eraseElements);
DREAM3D_REQUIRE_EQUAL(err , 0)
size_t nTuples = array->getNumberOfTuples();
DREAM3D_REQUIRE_EQUAL(nTuples, 0)
}
}
