DoorKeeper/include/doorkeeper/implem/tileiterator.inl

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namespace dk {
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namespace implem {
template <uint32_t D>
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inline size_t get_index_from_pos (const Vector<CoordinateScalarType, D>& parPos, const Vector<CoordinateScalarType, D>& parSize) {
size_t index = 0;
for (size_t d = 0; d < D; ++d) {
size_t pos = static_cast<size_t>(parPos[D - 1 - d]);
for (size_t p = 0; p < D - 1 - d; ++p) {
pos *= static_cast<size_t>(parSize[p]);
}
index += pos;
}
return index;
}
#if defined(NDEBUG)
template <>
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inline size_t get_index_from_pos<2> (const Vector<CoordinateScalarType, 2>& parPos, const Vector<CoordinateScalarType, 2>& parSize) {
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return parPos.y() * parSize.x() + parPos.x();
}
#endif
template <uint32_t D>
inline Vector<CoordinateScalarType, D> buildPastEndCoordinate (const Vector<CoordinateScalarType, D>& parFrom, const Vector<CoordinateScalarType, D>& parTo) {
Vector<CoordinateScalarType, D> retval;
for (size_t d = 0; d < D - 1; ++d) {
retval[d] = parFrom[d];
}
retval[D - 1] = parTo[D - 1];
return retval;
}
template <typename T, uint32_t D, typename T1>
inline const Vector<CoordinateScalarType, D>& get_from_from_iterator (const TileIterator<T, D, T1>& parIterator) {
return parIterator.m_from;
}
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} //namespace implem
template <typename T, uint32_t D, typename T1>
TileIterator<T, D, T1>::TileIterator() :
m_pos(CoordinateScalarType()),
m_from(CoordinateScalarType()),
m_to(CoordinateScalarType()),
m_subdivareasize(CoordinateScalarType()),
m_data(nullptr),
m_subindex(0),
m_maxsubindex(0)
{
}
template <typename T, uint32_t D, typename T1>
TileIterator<T, D, T1>::TileIterator (qualif_vector_type* parData, const coords& parFrom, const coords& parTo) :
m_pos(parFrom),
m_from(parFrom),
m_to(parTo),
m_subdivareasize(parTo - parFrom),
m_data(parData),
m_subindex(0),
m_maxsubindex(0)
{
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DK_ASSERT(parData);
}
template <typename T, uint32_t D, typename T1>
TileIterator<T, D, T1>::TileIterator (qualif_vector_type* parData, const coords& parFrom, const coords& parTo, const coords& parAreaFrom, const coords& parAreaTo) :
m_pos(parFrom),
m_from(parFrom),
m_to(parTo),
m_subdivareasize(parAreaTo - parAreaFrom),
m_data(parData),
m_subindex(0),
m_maxsubindex(0)
{
DK_ASSERT(parData);
}
template <typename T, uint32_t D, typename T1>
TileIterator<T, D, T1>::TileIterator (qualif_vector_type* parData, const coords& parFrom, const coords& parTo, const coords& parAreaFrom, const coords& parAreaTo, const coords& parSubdiv) :
m_pos(parFrom),
m_from(parFrom),
m_to(parTo),
m_subdivareasize((parAreaTo - parAreaFrom) * parSubdiv),
m_data(parData),
m_subindex(0),
m_maxsubindex(implem::area(parSubdiv) - 1)
{
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DK_ASSERT(parData);
}
template <typename T, uint32_t D, typename T1>
void TileIterator<T, D, T1>::increment() {
if (m_subindex < m_maxsubindex) {
++m_subindex;
return;
}
m_subindex = 0;
for (size_t d = 0; d < D - 1; ++d) {
++m_pos[d];
if (m_pos[d] >= m_to[d])
m_pos[d] = m_from[d];
else
return;
}
++m_pos[D - 1];
}
template <typename T, uint32_t D, typename T1>
void TileIterator<T, D, T1>::decrement() {
if (m_maxsubindex > 0 and m_subindex == 0) {
--m_subindex;
}
m_subindex = m_maxsubindex;
for (size_t d = 0; d < D; ++d) {
if (m_pos[d] > m_from[d]) {
--m_pos[d];
return;
}
else {
m_pos[d] = m_to[d];
}
}
++m_pos[D - 1];
}
template <typename T, uint32_t D, typename T1>
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void TileIterator<T, D, T1>::advance (size_t /*parAdvance*/) {
//TODO: implement
}
template <typename T, uint32_t D, typename T1>
ptrdiff_t TileIterator<T, D, T1>::distance_to (const TileIterator& parOther) {
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return std::distance(this->get_current_index(), parOther.get_current_index());
}
template <typename T, uint32_t D, typename T1>
bool TileIterator<T, D, T1>::equal (const TileIterator& parOther) const {
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return m_data == parOther.m_data and m_pos == parOther.m_pos;
}
template <typename T, uint32_t D, typename T1>
T& TileIterator<T, D, T1>::dereference() const {
const auto index = this->get_current_index();
assert(m_data);
assert(index < m_data->size());
return (*m_data)[index];
}
} //namespace dk