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Tools/Win64/VTK/include/vtk-9.0/vtkAngularPeriodicDataArray...

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/*=========================================================================
Program: Visualization Toolkit
Module: vtkAngularPeriodicDataArray.txx
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/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 notice for more information.
=========================================================================*/
#include "vtkMath.h"
#include "vtkMatrix3x3.h"
#include "vtkObjectFactory.h"
#include <algorithm>
//------------------------------------------------------------------------------
// Can't use vtkStandardNewMacro on a templated class.
template <class Scalar>
vtkAngularPeriodicDataArray<Scalar>* vtkAngularPeriodicDataArray<Scalar>::New()
{
VTK_STANDARD_NEW_BODY(vtkAngularPeriodicDataArray<Scalar>);
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::PrintSelf(ostream& os, vtkIndent indent)
{
this->vtkAngularPeriodicDataArray<Scalar>::Superclass::PrintSelf(os, indent);
os << indent << "Axis: " << this->Axis << "\n";
os << indent << "Angle: " << this->Angle << "\n";
os << indent << "Center: " << this->Center[0] << " " << this->Center[1] << " " << this->Center[2]
<< "\n";
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::InitializeArray(vtkAOSDataArrayTemplate<Scalar>* data)
{
this->Initialize();
if (!data)
{
vtkErrorMacro(<< "No original data provided.");
return;
}
if (data->GetNumberOfComponents() != 3 && data->GetNumberOfComponents() != 6 &&
data->GetNumberOfComponents() != 9)
{
vtkWarningMacro(<< "Original data has " << data->GetNumberOfComponents()
<< " components, Expecting 3 or 9.");
return;
}
this->Superclass::InitializeArray(data);
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::SetAngle(double angle)
{
if (this->Angle != angle)
{
this->Angle = angle;
this->AngleInRadians = vtkMath::RadiansFromDegrees(angle);
this->InvalidateRange();
this->UpdateRotationMatrix();
this->Modified();
}
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::SetAxis(int axis)
{
if (this->Axis != axis)
{
this->Axis = axis;
this->InvalidateRange();
this->UpdateRotationMatrix();
this->Modified();
}
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::SetCenter(double* center)
{
if (center)
{
bool diff = false;
for (int i = 0; i < 3; i++)
{
if (this->Center[i] != center[i])
{
this->Center[i] = center[i];
diff = true;
}
}
if (diff)
{
this->InvalidateRange();
this->Modified();
}
}
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::Transform(Scalar* pos) const
{
if (this->NumberOfComponents == 3)
{
// Axis rotation
int axis0 = (this->Axis + 1) % this->NumberOfComponents;
int axis1 = (this->Axis + 2) % this->NumberOfComponents;
double posx = static_cast<double>(pos[axis0]) - this->Center[axis0];
double posy = static_cast<double>(pos[axis1]) - this->Center[axis1];
pos[axis0] = this->Center[axis0] +
static_cast<Scalar>(cos(this->AngleInRadians) * posx - sin(this->AngleInRadians) * posy);
pos[axis1] = this->Center[axis1] +
static_cast<Scalar>(sin(this->AngleInRadians) * posx + cos(this->AngleInRadians) * posy);
if (this->Normalize)
{
vtkMath::Normalize(pos);
}
}
else if (this->NumberOfComponents == 9 || this->NumberOfComponents == 6)
{
// Template type force a copy to a double array for tensor
double localPos[9];
double tmpMat[9];
double tmpMat2[9];
std::copy(pos, pos + this->NumberOfComponents, localPos);
if (this->NumberOfComponents == 6)
{
vtkMath::TensorFromSymmetricTensor(localPos);
}
vtkMatrix3x3::Transpose(this->RotationMatrix->GetData(), tmpMat);
vtkMatrix3x3::Multiply3x3(this->RotationMatrix->GetData(), localPos, tmpMat2);
vtkMatrix3x3::Multiply3x3(tmpMat2, tmpMat, localPos);
std::copy(localPos, localPos + this->NumberOfComponents, pos);
}
}
//------------------------------------------------------------------------------
template <class Scalar>
void vtkAngularPeriodicDataArray<Scalar>::UpdateRotationMatrix()
{
int axis0 = (this->Axis + 1) % 3;
int axis1 = (this->Axis + 2) % 3;
this->RotationMatrix->Identity();
this->RotationMatrix->SetElement(this->Axis, this->Axis, 1.);
this->RotationMatrix->SetElement(axis0, axis0, cos(this->AngleInRadians));
this->RotationMatrix->SetElement(axis0, axis1, -sin(this->AngleInRadians));
this->RotationMatrix->SetElement(axis1, axis0, sin(this->AngleInRadians));
this->RotationMatrix->SetElement(axis1, axis1, cos(this->AngleInRadians));
}
//------------------------------------------------------------------------------
template <class Scalar>
vtkAngularPeriodicDataArray<Scalar>::vtkAngularPeriodicDataArray()
{
this->Axis = VTK_PERIODIC_ARRAY_AXIS_X;
this->Angle = 0.0;
this->AngleInRadians = 0.0;
this->Center[0] = 0.0;
this->Center[1] = 0.0;
this->Center[2] = 0.0;
this->RotationMatrix = vtkMatrix3x3::New();
this->RotationMatrix->Identity();
}
//------------------------------------------------------------------------------
template <class Scalar>
vtkAngularPeriodicDataArray<Scalar>::~vtkAngularPeriodicDataArray()
{
this->RotationMatrix->Delete();
}