/usr/include/InsightToolkit/SpatialObject/itkMeshSpatialObject.txx is in libinsighttoolkit3-dev 3.20.1+git20120521-6build1.
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Program: Insight Segmentation & Registration Toolkit
Module: itkMeshSpatialObject.txx
Language: C++
Date: $Date$
Version: $Revision$
Copyright (c) Insight Software Consortium. All rights reserved.
See ITKCopyright.txt or http://www.itk.org/HTML/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notices for more information.
=========================================================================*/
#ifndef __itkMeshSpatialObject_txx
#define __itkMeshSpatialObject_txx
#include "itkMeshSpatialObject.h"
#include "itkSize.h"
namespace itk
{
/** Constructor */
template <class TMesh>
MeshSpatialObject< TMesh >
::MeshSpatialObject()
{
this->SetTypeName("MeshSpatialObject");
m_Mesh = MeshType::New();
this->ComputeBoundingBox();
m_PixelType = typeid(typename TMesh::PixelType).name();
m_IsInsidePrecision = 1;
}
/** Destructor */
template <class TMesh>
MeshSpatialObject< TMesh >
::~MeshSpatialObject()
{
}
/** Return true if the given point is inside the Mesh */
template <class TMesh>
bool
MeshSpatialObject< TMesh >
::IsEvaluableAt( const PointType & point,
unsigned int depth, char * name ) const
{
return IsInside(point, depth, name);
}
/** Test whether a point is inside or outside the object
* For computational speed purposes, it is faster if the method does not
* check the name of the class and the current depth */
template <class TMesh>
bool
MeshSpatialObject< TMesh >
::IsInside( const PointType & point) const
{
if( !this->SetInternalInverseTransformToWorldToIndexTransform() )
{
return false;
}
PointType transformedPoint =
this->GetInternalInverseTransform()->TransformPoint(point);
if( this->GetBounds()->IsInside(transformedPoint) )
{
typename MeshType::CellsContainerPointer cells = m_Mesh->GetCells();
typename MeshType::CellsContainer::ConstIterator it = cells->Begin();
while(it!=cells->End())
{
typename MeshType::CoordRepType
position[itkGetStaticConstMacro(Dimension)];
for(unsigned int i=0;i<itkGetStaticConstMacro(Dimension);i++)
{
position[i] = transformedPoint[i];
}
typename MeshType::CoordRepType closestPoint[
itkGetStaticConstMacro(Dimension)];
double minDist;
if(it.Value()->EvaluatePosition(position,m_Mesh->GetPoints(),
closestPoint,NULL,&minDist,NULL))
{
// If this is a triangle cell we need to check the distance
if(it.Value()->GetNumberOfPoints() == 3)
{
if(minDist <= m_IsInsidePrecision)
{
return true;
}
}
else
{
return true;
}
}
it++;
}
}
return false;
}
/** Return true if the given point is inside the Mesh */
template <class TMesh>
bool
MeshSpatialObject< TMesh >
::IsInside( const PointType & point, unsigned int depth, char * name ) const
{
if(name == NULL)
{
if(IsInside(point))
{
return true;
}
}
else if(strstr(typeid(Self).name(), name))
{
if(IsInside(point))
{
return true;
}
}
return Superclass::IsInside(point, depth, name);
}
/** Return the value of the Mesh at a specified point
* The value returned is always of type double */
template <class TMesh>
bool
MeshSpatialObject< TMesh >
::ValueAt( const PointType & point, double & value, unsigned int depth,
char * name ) const
{
if( IsEvaluableAt( point, 0, name ) )
{
value = this->GetDefaultInsideValue();
return true;
}
else
{
if( Superclass::IsEvaluableAt(point, depth, name) )
{
Superclass::ValueAt(point, value, depth, name);
return true;
}
else
{
value = this->GetDefaultOutsideValue();
return false;
}
}
return false;
}
/** Compute the bounds of the object which is the same as the internal mesh */
template <class TMesh>
bool
MeshSpatialObject< TMesh >
::ComputeLocalBoundingBox() const
{
if( this->GetBoundingBoxChildrenName().empty()
|| strstr(typeid(Self).name(),
this->GetBoundingBoxChildrenName().c_str()) )
{
PointType pnt;
PointType pnt2;
for(unsigned int i=0;i<itkGetStaticConstMacro(Dimension);i++)
{
pnt[i] = m_Mesh->GetBoundingBox()->GetBounds()[2*i];
pnt2[i] = m_Mesh->GetBoundingBox()->GetBounds()[2*i+1];
}
pnt = this->GetIndexToWorldTransform()->TransformPoint(pnt);
pnt2 = this->GetIndexToWorldTransform()->TransformPoint(pnt2);
const_cast<BoundingBoxType *>(this->GetBounds())->SetMinimum(pnt);
const_cast<BoundingBoxType *>(this->GetBounds())->SetMaximum(pnt2);
}
return true;
}
/** Set the Mesh in the spatial object */
template <class TMesh>
void
MeshSpatialObject< TMesh >
::SetMesh( MeshType * mesh )
{
m_Mesh = mesh;
m_Mesh->Modified();
this->ComputeBoundingBox();
}
/** Get the Mesh inside the spatial object */
template <class TMesh>
typename MeshSpatialObject< TMesh >::MeshType *
MeshSpatialObject< TMesh >
::GetMesh( void )
{
return m_Mesh.GetPointer();
}
/** Print the object */
template <class TMesh>
void
MeshSpatialObject< TMesh >
::PrintSelf( std::ostream& os, Indent indent ) const
{
Superclass::PrintSelf(os,indent);
os << "Mesh: " << std::endl;
os << "m_IsInsidePrecision: " << m_IsInsidePrecision << std::endl;
os << indent << m_Mesh << std::endl;
}
/** Get the modification time */
template <class TMesh>
unsigned long
MeshSpatialObject< TMesh >
::GetMTime( void ) const
{
unsigned long latestMTime = Superclass::GetMTime();
unsigned long MeshMTime = m_Mesh->GetMTime();
if( MeshMTime > latestMTime )
{
latestMTime = MeshMTime;
}
return latestMTime;
}
} // end namespace itk
#endif //__MeshSpatialObject_txx
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