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/*=========================================================================
Program: Visualization Toolkit
Module: vtkCompositeDataDisplayAttributes.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 "vtkCompositeDataDisplayAttributes.h"
#include "vtkBoundingBox.h"
#include "vtkDataSet.h"
#include "vtkMath.h"
#include "vtkMultiBlockDataSet.h"
#include "vtkMultiPieceDataSet.h"
#include "vtkObjectFactory.h"
vtkStandardNewMacro(vtkCompositeDataDisplayAttributes)
vtkCompositeDataDisplayAttributes::vtkCompositeDataDisplayAttributes()
{
}
vtkCompositeDataDisplayAttributes::~vtkCompositeDataDisplayAttributes()
{
}
void vtkCompositeDataDisplayAttributes::SetBlockVisibility(unsigned int flat_index, bool visible)
{
this->BlockVisibilities[flat_index] = visible;
}
bool vtkCompositeDataDisplayAttributes::GetBlockVisibility(unsigned int flat_index) const
{
std::map<unsigned int, bool>::const_iterator iter =
this->BlockVisibilities.find(flat_index);
if(iter != this->BlockVisibilities.end())
{
return iter->second;
}
else
{
// default to true
return true;
}
}
bool vtkCompositeDataDisplayAttributes::HasBlockVisibilities() const
{
return !this->BlockVisibilities.empty();
}
bool vtkCompositeDataDisplayAttributes::HasBlockVisibility(unsigned int flat_index) const
{
return this->BlockVisibilities.count(flat_index) == size_t(1);
}
void vtkCompositeDataDisplayAttributes::RemoveBlockVisibility(unsigned int flat_index)
{
this->BlockVisibilities.erase(flat_index);
}
void vtkCompositeDataDisplayAttributes::RemoveBlockVisibilites()
{
this->BlockVisibilities.clear();
}
void vtkCompositeDataDisplayAttributes::SetBlockColor(
unsigned int flat_index, const double color[3])
{
this->BlockColors[flat_index] = vtkColor3d(color[0], color[1], color[2]);
}
void vtkCompositeDataDisplayAttributes::GetBlockColor(
unsigned int flat_index, double color[3]) const
{
std::map<unsigned int, vtkColor3d>::const_iterator
iter = this->BlockColors.find(flat_index);
if(iter != this->BlockColors.end())
{
std::copy(&iter->second[0], &iter->second[3], color);
}
}
vtkColor3d vtkCompositeDataDisplayAttributes::GetBlockColor(
unsigned int flat_index) const
{
std::map<unsigned int, vtkColor3d>::const_iterator
iter = this->BlockColors.find(flat_index);
if(iter != this->BlockColors.end())
{
return iter->second;
}
return vtkColor3d();
}
bool vtkCompositeDataDisplayAttributes::HasBlockColors() const
{
return !this->BlockColors.empty();
}
bool vtkCompositeDataDisplayAttributes::HasBlockColor(
unsigned int flat_index) const
{
return this->BlockColors.count(flat_index) == size_t(1);
}
void vtkCompositeDataDisplayAttributes::RemoveBlockColor(
unsigned int flat_index)
{
this->BlockColors.erase(flat_index);
}
void vtkCompositeDataDisplayAttributes::RemoveBlockColors()
{
this->BlockColors.clear();
}
void vtkCompositeDataDisplayAttributes::PrintSelf(ostream& os, vtkIndent indent)
{
this->Superclass::PrintSelf(os, indent);
}
void vtkCompositeDataDisplayAttributes::SetBlockOpacity(unsigned int flat_index, double opacity)
{
this->BlockOpacities[flat_index] = opacity;
}
double vtkCompositeDataDisplayAttributes::GetBlockOpacity(unsigned int flat_index) const
{
std::map<unsigned int, double>::const_iterator iter = this->BlockOpacities.find(flat_index);
if(iter != this->BlockOpacities.end())
{
return iter->second;
}
return 0;
}
bool vtkCompositeDataDisplayAttributes::HasBlockOpacities() const
{
return !this->BlockOpacities.empty();
}
bool vtkCompositeDataDisplayAttributes::HasBlockOpacity(unsigned int flat_index) const
{
return this->BlockOpacities.find(flat_index) != this->BlockOpacities.end();
}
void vtkCompositeDataDisplayAttributes::RemoveBlockOpacity(unsigned int flat_index)
{
this->BlockOpacities.erase(flat_index);
}
void vtkCompositeDataDisplayAttributes::RemoveBlockOpacities()
{
this->BlockOpacities.clear();
}
void vtkCompositeDataDisplayAttributes::ComputeVisibleBounds(
vtkCompositeDataDisplayAttributes* cda,
vtkDataObject *dobj,
double bounds[6])
{
vtkMath::UninitializeBounds(bounds);
// computing bounds with only visible blocks
vtkBoundingBox bbox;
unsigned int flat_index = 0;
vtkCompositeDataDisplayAttributes::ComputeVisibleBoundsInternal(
cda, dobj, flat_index, &bbox);
if(bbox.IsValid())
{
bbox.GetBounds(bounds);
}
}
void vtkCompositeDataDisplayAttributes::ComputeVisibleBoundsInternal(
vtkCompositeDataDisplayAttributes* cda,
vtkDataObject *dobj,
unsigned int& flat_index,
vtkBoundingBox* bbox,
bool parentVisible)
{
if(!dobj || !bbox)
{
return;
}
// A block always *has* a visibility state, either explicitly set or inherited.
bool blockVisible = (cda && cda->HasBlockVisibility(flat_index)) ?
cda->GetBlockVisibility(flat_index) : parentVisible;
// Advance flat-index. After this point, flat_index no longer points to this block.
flat_index++;
vtkMultiBlockDataSet *mbds = vtkMultiBlockDataSet::SafeDownCast(dobj);
vtkMultiPieceDataSet *mpds = vtkMultiPieceDataSet::SafeDownCast(dobj);
if (mbds || mpds)
{
unsigned int numChildren = mbds? mbds->GetNumberOfBlocks() :
mpds->GetNumberOfPieces();
for (unsigned int cc=0 ; cc < numChildren; cc++)
{
vtkDataObject* child = mbds ? mbds->GetBlock(cc) : mpds->GetPiece(cc);
if (child == NULL)
{
// speeds things up when dealing with NULL blocks (which is common with AMRs).
flat_index++;
continue;
}
vtkCompositeDataDisplayAttributes::ComputeVisibleBoundsInternal(
cda, child, flat_index, bbox, blockVisible);
}
}
else if (dobj && blockVisible == true)
{
vtkDataSet *ds = vtkDataSet::SafeDownCast(dobj);
if(ds)
{
double bounds[6];
ds->GetBounds(bounds);
bbox->AddBounds(bounds);
}
}
}
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