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/*=========================================================================
*
* Copyright NumFOCUS
*
* 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
*
* https://www.apache.org/licenses/LICENSE-2.0.txt
*
* 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.
*
*=========================================================================*/
#ifndef itkPointBasedSpatialObject_hxx
#define itkPointBasedSpatialObject_hxx
namespace itk
{
template <unsigned int TDimension, class TSpatialObjectPointType>
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::PointBasedSpatialObject()
: SpatialObject<TDimension>()
{
this->SetTypeName("PointBasedSpatialObject");
this->Clear();
this->Update();
}
template <unsigned int TDimension, class TSpatialObjectPointType>
void
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::Clear()
{
Superclass::Clear();
m_Points.clear();
this->Modified();
}
template <unsigned int TDimension, class TSpatialObjectPointType>
void
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::AddPoint(const SpatialObjectPointType & newPoint)
{
m_Points.push_back(newPoint);
m_Points.back().SetSpatialObject(this);
this->Modified();
}
template <unsigned int TDimension, class TSpatialObjectPointType>
void
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::RemovePoint(IdentifierType id)
{
if (id < m_Points.size())
{
auto it = m_Points.begin();
advance(it, id);
m_Points.erase(it);
}
this->Modified();
}
template <unsigned int TDimension, class TSpatialObjectPointType>
void
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::SetPoints(const SpatialObjectPointListType & newPoints)
{
m_Points.clear();
auto it = newPoints.begin();
while (it != newPoints.end())
{
m_Points.push_back(*it);
m_Points.back().SetSpatialObject(this);
++it;
}
this->Modified();
}
template <unsigned int TDimension, class TSpatialObjectPointType>
TSpatialObjectPointType
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::ClosestPointInObjectSpace(const PointType & point) const
{
auto it = m_Points.begin();
auto itend = m_Points.end();
if (it == itend)
{
itkExceptionMacro("SpatialObject: ClosestPoint called using an empty point list");
}
SpatialObjectPointType closestPoint;
double closestPointDistance = NumericTraits<double>::max();
while (it != itend)
{
typename SpatialObjectPoint<TDimension>::PointType curpos = it->GetPositionInObjectSpace();
double curdistance = curpos.EuclideanDistanceTo(point);
if (curdistance < closestPointDistance)
{
closestPoint = (*it);
closestPointDistance = curdistance;
}
++it;
}
return closestPoint;
}
template <unsigned int TDimension, class TSpatialObjectPointType>
TSpatialObjectPointType
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::ClosestPointInWorldSpace(const PointType & point) const
{
auto it = m_Points.begin();
auto itend = m_Points.end();
if (it == itend)
{
itkExceptionMacro("SpatialObject: ClosestPoint called using an empty point list");
}
SpatialObjectPointType closestPoint;
double closestPointDistance = NumericTraits<double>::max();
while (it != itend)
{
typename SpatialObjectPoint<TDimension>::PointType curpos = it->GetPositionInWorldSpace();
double curdistance = curpos.EuclideanDistanceTo(point);
if (curdistance < closestPointDistance)
{
closestPoint = (*it);
closestPointDistance = curdistance;
}
++it;
}
return closestPoint;
}
template <unsigned int TDimension, class TSpatialObjectPointType>
void
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::ComputeMyBoundingBox()
{
itkDebugMacro("Computing blob bounding box");
auto it = m_Points.begin();
auto end = m_Points.end();
if (it == end)
{
typename BoundingBoxType::PointType pnt;
pnt.Fill(typename BoundingBoxType::PointType::ValueType{});
this->GetModifiableMyBoundingBoxInObjectSpace()->SetMinimum(pnt);
this->GetModifiableMyBoundingBoxInObjectSpace()->SetMaximum(pnt);
return;
}
PointType pt = it->GetPositionInObjectSpace();
this->GetModifiableMyBoundingBoxInObjectSpace()->SetMinimum(pt);
this->GetModifiableMyBoundingBoxInObjectSpace()->SetMaximum(pt);
++it;
while (it != end)
{
this->GetModifiableMyBoundingBoxInObjectSpace()->ConsiderPoint(it->GetPositionInObjectSpace());
++it;
}
this->GetModifiableMyBoundingBoxInObjectSpace()->ComputeBoundingBox();
}
template <unsigned int TDimension, class TSpatialObjectPointType>
bool
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::IsInsideInObjectSpace(const PointType & point) const
{
if (this->GetMyBoundingBoxInObjectSpace()->IsInside(point))
{
auto it = m_Points.begin();
auto itEnd = m_Points.end();
while (it != itEnd)
{
bool equals = true;
for (unsigned int i = 0; i < TDimension; ++i)
{
if (!Math::AlmostEquals(point[i], it->GetPositionInObjectSpace()[i]))
{
equals = false;
break;
}
}
if (equals)
{
return true;
}
++it;
}
}
return false;
}
template <unsigned int TDimension, class TSpatialObjectPointType>
typename LightObject::Pointer
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::InternalClone() const
{
// Default implementation just copies the parameters from
// this to new transform.
typename LightObject::Pointer loPtr = Superclass::InternalClone();
typename Self::Pointer rval = dynamic_cast<Self *>(loPtr.GetPointer());
if (rval.IsNull())
{
itkExceptionMacro("downcast to type " << this->GetNameOfClass() << " failed.");
}
rval->SetPoints(this->GetPoints());
return loPtr;
}
template <unsigned int TDimension, class TSpatialObjectPointType>
void
PointBasedSpatialObject<TDimension, TSpatialObjectPointType>::PrintSelf(std::ostream & os, Indent indent) const
{
Superclass::PrintSelf(os, indent);
// ToDo
// os << indent << "Points: " << m_Points << std::endl;
}
} // end namespace itk
#endif // end itkPointBasedSpatialObject_hxx
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