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/*=========================================================================
Program: Visualization Toolkit
Module: vtkHyperTreeGridGeometryUnlimitedLevelEntry.cxx
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 "vtkHyperTreeGridGeometryUnlimitedLevelEntry.h"
#include "vtkBitArray.h"
#include "vtkHyperTree.h"
#include "vtkHyperTreeGrid.h"
#include "vtkHyperTreeGridNonOrientedGeometryCursor.h"
#include "vtkHyperTreeGridScales.h"
#include <cassert>
#include <limits>
VTK_ABI_NAMESPACE_BEGIN
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::Initialize(
vtkHyperTree* tree, unsigned int level, vtkIdType index, const double* origin)
{
this->Tree = tree;
this->Level = level;
this->Index = index;
for (unsigned int d = 0; d < 3; ++d)
{
this->Origin[d] = origin[d];
}
}
//------------------------------------------------------------------------------
vtkHyperTree* vtkHyperTreeGridGeometryUnlimitedLevelEntry::Initialize(
vtkHyperTreeGrid* grid, vtkIdType treeIndex, bool create)
{
this->Tree = grid->GetTree(treeIndex, create);
grid->GetLevelZeroOriginFromIndex(treeIndex, this->Origin);
return this->Tree;
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::PrintSelf(ostream& os, vtkIndent indent)
{
os << indent << "--vtkHyperTreeGridGeometryUnlimitedLevelEntry--" << endl;
this->Tree->PrintSelf(os, indent);
os << indent << "Level:" << this->Level << endl;
os << indent << "Index:" << this->Index << endl;
os << indent << "LastRealIndex:" << this->LastRealIndex << endl;
os << indent << "LastRealLevel:" << this->LastRealLevel << endl;
os << indent << "Origin:" << this->Origin[0] << ", " << this->Origin[1] << ", " << this->Origin[2]
<< endl;
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::Dump(ostream& os)
{
os << "Level:" << this->Level << endl;
os << "Index:" << this->Index << endl;
os << "LastRealIndex:" << this->LastRealIndex << endl;
os << "LastRealLevel:" << this->LastRealLevel << endl;
os << "Origin:" << this->Origin[0] << ", " << this->Origin[1] << ", " << this->Origin[2] << endl;
}
//------------------------------------------------------------------------------
vtkIdType vtkHyperTreeGridGeometryUnlimitedLevelEntry::GetGlobalNodeIndex() const
{
return this->Tree ? this->Tree->GetGlobalIndexFromLocal(this->LastRealIndex)
: vtkHyperTreeGrid::InvalidIndex;
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::SetGlobalIndexStart(vtkIdType index)
{
assert("pre: not_tree" && this->Tree);
this->Tree->SetGlobalIndexStart(index);
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::SetGlobalIndexFromLocal(vtkIdType index)
{
assert("pre: not_tree" && this->Tree);
this->Tree->SetGlobalIndexFromLocal(this->Index, index);
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::SetMask(const vtkHyperTreeGrid* grid, bool value)
{
assert("pre: not_tree" && this->Tree);
// JB Comment faire pour definir un accesseur a DepthLimiter qui est const
const_cast<vtkHyperTreeGrid*>(grid)->GetMask()->InsertTuple1(this->GetGlobalNodeIndex(), value);
}
//------------------------------------------------------------------------------
bool vtkHyperTreeGridGeometryUnlimitedLevelEntry::IsMasked(const vtkHyperTreeGrid* grid) const
{
if (this->Tree && const_cast<vtkHyperTreeGrid*>(grid)->HasMask())
{
return const_cast<vtkHyperTreeGrid*>(grid)->GetMask()->GetValue(this->GetGlobalNodeIndex()) !=
0;
}
// JB Comment faire pour definir un accesseur a DepthLimiter qui est const
return false;
}
//------------------------------------------------------------------------------
bool vtkHyperTreeGridGeometryUnlimitedLevelEntry::IsLeaf(const vtkHyperTreeGrid* grid) const
{
if (this->Level >= const_cast<vtkHyperTreeGrid*>(grid)->GetDepthLimiter())
{
return true;
}
return false;
}
//------------------------------------------------------------------------------
bool vtkHyperTreeGridGeometryUnlimitedLevelEntry::IsRealLeaf(const vtkHyperTreeGrid* grid) const
{
if (this->Level == const_cast<vtkHyperTreeGrid*>(grid)->GetDepthLimiter())
{
return true;
}
return this->Index == this->LastRealIndex && this->Tree->IsLeaf(this->Index);
}
//------------------------------------------------------------------------------
bool vtkHyperTreeGridGeometryUnlimitedLevelEntry::IsVirtualLeaf(const vtkHyperTreeGrid* grid) const
{
if (this->Level > const_cast<vtkHyperTreeGrid*>(grid)->GetDepthLimiter())
{
return true;
}
return this->LastRealIndex != this->Index;
}
//------------------------------------------------------------------------------
bool vtkHyperTreeGridGeometryUnlimitedLevelEntry::IsTerminalNode(const vtkHyperTreeGrid* grid) const
{
if (this->Level + 1 == const_cast<vtkHyperTreeGrid*>(grid)->GetDepthLimiter())
{
return true;
}
return false;
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::ToChild(
const vtkHyperTreeGrid* grid, unsigned char ichild)
{
assert("pre: not_tree" && this->Tree);
assert(
"pre: depth_limiter" && this->Level <= const_cast<vtkHyperTreeGrid*>(grid)->GetDepthLimiter());
assert("pre: is_masked" && !this->IsMasked(grid));
const double* sizeChild = this->Tree->GetScales()->GetScale(this->Level + 1);
size_t indexMax = 0;
this->Tree->GetElderChildIndexArray(indexMax);
if (this->Index >= 0 && this->Index < static_cast<vtkIdType>(indexMax))
{
const vtkIdType elder = this->Tree->GetElderChildIndex(this->Index);
if (elder != std::numeric_limits<unsigned int>::max())
{
this->Index = elder + ichild;
this->LastRealIndex = this->Index;
this->LastRealLevel = this->Level + 1;
}
else
{
// first virtual cell
this->Index = vtkHyperTreeGrid::InvalidIndex;
}
}
else
{
// cell already virtual
this->Index = vtkHyperTreeGrid::InvalidIndex;
}
// Divide cell size and translate origin per template parameter
switch (this->Tree->GetNumberOfChildren())
{
case 2: // dimension = 1, branch factor = 2
{
unsigned int axis = grid->GetOrientation();
this->Origin[axis] += (ichild & 1) * sizeChild[axis];
break;
}
case 3: // dimension = 1, branch factor = 3
{
unsigned int axis = grid->GetOrientation();
this->Origin[axis] += (ichild % 3) * sizeChild[axis];
break;
}
case 4: // dimension = 2, branch factor = 2
{
unsigned int axis1 = 0;
unsigned int axis2 = 1;
switch (grid->GetOrientation())
{
case 0:
axis1 = 1;
VTK_FALLTHROUGH;
case 1:
axis2 = 2;
}
this->Origin[axis1] += (ichild & 1) * sizeChild[axis1];
this->Origin[axis2] += ((ichild & 2) >> 1) * sizeChild[axis2];
break;
}
case 9: // dimension = 2, branch factor = 3
{
unsigned int axis1 = 0;
unsigned int axis2 = 1;
switch (grid->GetOrientation())
{
case 0:
axis1 = 1;
VTK_FALLTHROUGH;
case 1:
axis2 = 2;
}
this->Origin[axis1] += (ichild % 3) * sizeChild[axis1];
this->Origin[axis2] += ((ichild % 9) / 3) * sizeChild[axis2];
break;
}
case 8: // dimension = 3, branch factor = 2
{
this->Origin[0] += (ichild & 1) * sizeChild[0];
this->Origin[1] += ((ichild & 2) >> 1) * sizeChild[1];
this->Origin[2] += ((ichild & 4) >> 2) * sizeChild[2];
break;
}
case 27: // dimension = 3, branch factor = 3
{
this->Origin[0] += (ichild % 3) * sizeChild[0];
this->Origin[1] += ((ichild % 9) / 3) * sizeChild[1];
this->Origin[2] += (ichild / 9) * sizeChild[2];
break;
}
}
this->Level++;
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::GetBounds(double bounds[6]) const
{
assert("pre: not_tree" && this->Tree);
const double* sizeChild = this->Tree->GetScales()->GetScale(this->Level);
// Compute bounds
bounds[0] = this->Origin[0];
bounds[1] = this->Origin[0] + sizeChild[0];
bounds[2] = this->Origin[1];
bounds[3] = this->Origin[1] + sizeChild[1];
bounds[4] = this->Origin[2];
bounds[5] = this->Origin[2] + sizeChild[2];
}
//------------------------------------------------------------------------------
void vtkHyperTreeGridGeometryUnlimitedLevelEntry::GetPoint(double point[3]) const
{
assert("pre: not_tree" && this->Tree);
const double* sizeChild = this->Tree->GetScales()->GetScale(this->Level);
// Compute center point coordinates
point[0] = this->Origin[0] + sizeChild[0] / 2.;
point[1] = this->Origin[1] + sizeChild[1] / 2.;
point[2] = this->Origin[2] + sizeChild[2] / 2.;
}
VTK_ABI_NAMESPACE_END
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