d8/d76/VtkVisPipeline_8cpp_source.html

// ** INCLUDES **

#include "VtkVisPipeline.h"


#include <vtkAlgorithm.h>

#include <vtkCamera.h>

#include <vtkCellData.h>

#include <vtkFieldData.h>

#include <vtkGenericDataObjectReader.h>

#include <vtkImageActor.h>

#include <vtkImageReader2.h>

#include <vtkLight.h>

#include <vtkPointData.h>

#include <vtkPointSet.h>

#include <vtkProp3D.h>

#include <vtkRenderer.h>

#include <vtkSmartPointer.h>

#include <vtkTransformFilter.h>

#include <vtkXMLImageDataReader.h>

#include <vtkXMLPolyDataReader.h>

#include <vtkXMLRectilinearGridReader.h>

#include <vtkXMLStructuredGridReader.h>

#include <vtkXMLUnstructuredGridReader.h>


#include <QColor>

#ifndef NDEBUG

#include <QElapsedTimer>

#endif  // NDEBUG

#include <QFileInfo>

#include <QSettings>

#include <QString>


#include "Base/TreeModel.h"

#include "BaseLib/Logging.h"

#include "DataView/GeoTreeModel.h"

#include "DataView/MeshItem.h"

#include "DataView/MeshModel.h"

#include "DataView/StationTreeModel.h"

#include "MathLib/InterpolationAlgorithms/LinearIntervalInterpolation.h"

#include "MeshLib/Mesh.h"

#include "MeshLib/Vtk/VtkMappedMeshSource.h"

#include "VtkAlgorithmProperties.h"

#include "VtkCompositeElementSelectionFilter.h"

#include "VtkCompositeGeoObjectFilter.h"

#include "VtkCompositeNodeSelectionFilter.h"

#include "VtkFilterFactory.h"

#include "VtkVisImageItem.h"

#include "VtkVisPipelineItem.h"

#include "VtkVisPointSetItem.h"


VtkVisPipeline::VtkVisPipeline(vtkRenderer* renderer, QObject* parent /*= 0*/)

    : TreeModel(parent), _renderer(renderer)

{

    QList<QVariant> rootData;

    rootData << "Object name"

             << "Visible";

    delete _rootItem;

    _rootItem = new TreeItem(rootData, nullptr);


    QSettings settings;

    QVariant backgroundColorVariant = settings.value("VtkBackgroundColor");

    if (backgroundColorVariant != QVariant())

    {

        this->setBGColor(backgroundColorVariant.value<QColor>());

    }


    _resetCameraOnAddOrRemove =

        settings.value("resetViewOnLoad", true).toBool();

}


bool VtkVisPipeline::setData(const QModelIndex& index, const QVariant& value,

                             int role /* = Qt::EditRole */)

{

    emit vtkVisPipelineChanged();


    return TreeModel::setData(index, value, role);

}


void VtkVisPipeline::addLight(const GeoLib::Point& pos)

{

    double lightPos[3];

    for (auto& light : _lights)

    {

        light->GetPosition(lightPos);

        if (pos[0] == lightPos[0] && pos[1] == lightPos[1] &&

            pos[2] == lightPos[2])

        {

            return;

        }

    }

    vtkLight* l = vtkLight::New();

    l->SetPosition(pos[0], pos[1], pos[2]);

    _renderer->AddLight(l);

    _lights.push_back(l);

}


vtkLight* VtkVisPipeline::getLight(const GeoLib::Point& pos) const

{

    double lightPos[3];

    for (auto light : _lights)

    {

        light->GetPosition(lightPos);

        if (pos[0] == lightPos[0] && pos[1] == lightPos[1] &&

            pos[2] == lightPos[2])

        {

            return light;

        }

    }

    return nullptr;

}


void VtkVisPipeline::removeLight(const GeoLib::Point& pos)

{

    double lightPos[3];

    for (auto it = _lights.begin(); it != _lights.end(); ++it)

    {

        (*it)->GetPosition(lightPos);

        if (pos[0] == lightPos[0] && pos[1] == lightPos[1] &&

            pos[2] == lightPos[2])

        {

            _renderer->RemoveLight(*it);

            (*it)->Delete();

            _lights.erase(it);

            return;

        }

    }

}


QColor VtkVisPipeline::getBGColor() const

{

    double* color = _renderer->GetBackground();

    QColor c(static_cast<int>(color[0] * 255),

             static_cast<int>(color[1] * 255),

             static_cast<int>(color[2] * 255));

    return c;

}


void VtkVisPipeline::setBGColor(const QColor& color)

{

    QSettings settings;

    settings.setValue("VtkBackgroundColor", color);

    _renderer->SetBackground(color.redF(), color.greenF(), color.blueF());

}


QModelIndex VtkVisPipeline::getIndex(vtkProp3D* actor)

{

    return _actorMap.value(actor, QModelIndex());

}


Qt::ItemFlags VtkVisPipeline::flags(const QModelIndex& index) const

{

    Qt::ItemFlags defaultFlags = Qt::ItemIsEnabled | Qt::ItemIsSelectable;


    if (!index.isValid())

    {

        return Qt::ItemIsEnabled;

    }


    // if (index.column() == 1)

    //    defaultFlags |= Qt::ItemIsEditable;


    return defaultFlags;

}


void VtkVisPipeline::loadFromFile(QString filename)

{

#ifndef NDEBUG

    QElapsedTimer myTimer;

    myTimer.start();

    INFO("VTK Read: {:s}.", filename.toStdString());

#endif


    if (filename.size() > 0)

    {

        vtkSmartPointer<vtkXMLDataReader> reader;

        if (filename.endsWith("vti"))

        {

            reader = vtkSmartPointer<vtkXMLImageDataReader>::New();

        }

        else if (filename.endsWith("vtr"))

        {

            reader = vtkSmartPointer<vtkXMLRectilinearGridReader>::New();

        }

        else if (filename.endsWith("vts"))

        {

            reader = vtkSmartPointer<vtkXMLStructuredGridReader>::New();

        }

        else if (filename.endsWith("vtp"))

        {

            reader = vtkSmartPointer<vtkXMLPolyDataReader>::New();

        }

        else if (filename.endsWith("vtu"))

        {

            reader = vtkSmartPointer<vtkXMLUnstructuredGridReader>::New();

        }

        else if (filename.endsWith("vtk"))

        {

            vtkGenericDataObjectReader* oldStyleReader =

                vtkGenericDataObjectReader::New();

            oldStyleReader->SetFileName(filename.toStdString().c_str());

            oldStyleReader->ReadAllFieldsOn();

            oldStyleReader->ReadAllScalarsOn();

            oldStyleReader->Update();

            vtkDataSet* dataSet =

                vtkDataSet::SafeDownCast(oldStyleReader->GetOutput());

            if (dataSet)

            {

                this->listArrays(dataSet);

                addPipelineItem(oldStyleReader);

            }

            else

                ERR("VtkVisPipeline::loadFromFile(): not a valid vtkDataSet.");

            return;

        }

        else

        {

            return;

        }


        reader->SetFileName(filename.toStdString().c_str());

        // TODO: insert ReadAllScalarsOn()-equivalent for xml-file-reader here,

        // otherwise arrays are not available in GUI!

        reader->Update();

        // std::cout << "#cell scalars: " << reader->GetNumberOfCellArrays() <<

        // std::endl; std::cout << "#point scalars: " <<

        // reader->GetNumberOfPointArrays() << std::endl;


        vtkSmartPointer<vtkDataSet> dataSet = reader->GetOutputAsDataSet();

        if (dataSet)

        {

            this->listArrays(dataSet);

            addPipelineItem(reader);

        }

        else

            ERR("VtkVisPipeline::loadFromFile(): not a valid vtkDataSet.");

    }


#ifndef NDEBUG

    INFO("{:d} ms", myTimer.elapsed());

#endif

}


void VtkVisPipeline::setGlobalSuperelevation(double factor) const

{

    // iterate over all source items

    for (int i = 0; i < _rootItem->childCount(); ++i)

    {

        auto* item = static_cast<VtkVisPipelineItem*>(_rootItem->child(i));

        item->setScale(1.0, 1.0, factor);


        // recursively set on all child items

        item->setScaleOnChildren(1.0, 1.0, 1.0);

    }


    emit vtkVisPipelineChanged();

}


void VtkVisPipeline::setGlobalBackfaceCulling(bool enable) const

{

    // iterate over all source items

    for (int i = 0; i < _rootItem->childCount(); ++i)

    {

        auto* item = static_cast<VtkVisPipelineItem*>(_rootItem->child(i));

        item->setBackfaceCulling(enable);


        // recursively set on all child items

        item->setBackfaceCullingOnChildren(enable);

    }


    emit vtkVisPipelineChanged();

}


void VtkVisPipeline::addPipelineItem(GeoTreeModel* model,

                                     const std::string& name,

                                     GeoLib::GEOTYPE type)

{

    addPipelineItem(model->vtkSource(name, type));

}


void VtkVisPipeline::addPipelineItem(StationTreeModel* model,

                                     const std::string& name)

{

    addPipelineItem(model->vtkSource(name));

}


void VtkVisPipeline::addPipelineItem(MeshModel* model, const QModelIndex& idx)

{

    addPipelineItem(static_cast<MeshItem*>(model->getItem(idx))->vtkSource());

}


QModelIndex VtkVisPipeline::addPipelineItem(VtkVisPipelineItem* item,

                                            const QModelIndex& parent)

{

    beginResetModel();


    item->Initialize(_renderer);

    TreeItem* parentItem = item->parentItem();

    parentItem->appendChild(item);


    if (!parent.isValid())  // Set global superelevation on source objects

    {

        QSettings settings;

        if (dynamic_cast<vtkImageAlgorithm*>(item->algorithm()) == nullptr)

        {  // if not an image

            item->setScale(

                1.0, 1.0,

                settings.value("globalSuperelevation", 1.0).toDouble());

        }

    }


    int parentChildCount = parentItem->childCount();

    QModelIndex newIndex = index(parentChildCount - 1, 0, parent);


    if (_resetCameraOnAddOrRemove || _rootItem->childCount() == 1)

    {

        _renderer->ResetCamera(_renderer->ComputeVisiblePropBounds());

    }

    _actorMap.insert(item->actor(), newIndex);


    // Do not interpolate images

    if (dynamic_cast<vtkImageAlgorithm*>(item->algorithm()))

    {

        static_cast<vtkImageActor*>(item->actor())->InterpolateOff();

    }


    endResetModel();

    emit vtkVisPipelineChanged();

    emit itemSelected(newIndex);


    return newIndex;

}


QModelIndex VtkVisPipeline::addPipelineItem(

    vtkAlgorithm* source, QModelIndex parent /* = QModelindex() */)

{

    std::string itemName;


    if (!parent.isValid())  // if source object

    {

        auto* old_reader = dynamic_cast<vtkGenericDataObjectReader*>(source);

        auto* new_reader = dynamic_cast<vtkXMLReader*>(source);

        auto* image_reader = dynamic_cast<vtkImageReader2*>(source);

        auto* props = dynamic_cast<VtkAlgorithmProperties*>(source);

        auto* meshSource = dynamic_cast<MeshLib::VtkMappedMeshSource*>(source);

        if (old_reader)

        {

            itemName = old_reader->GetFileName();

        }

        else if (new_reader)

        {

            itemName = new_reader->GetFileName();

        }

        else if (image_reader)

        {

            itemName = image_reader->GetFileName();

        }

        else if (props)

        {

            itemName = props->GetName().toStdString();

        }

        else if (meshSource)

        {

            itemName = meshSource->GetMesh()->getName();

        }

    }


    if (itemName.length() == 0)

    {

        itemName = source->GetClassName();

    }


    QList<QVariant> itemData;

    itemData << QString::fromStdString(itemName) << true;


    VtkVisPipelineItem* item(nullptr);

    if (dynamic_cast<vtkImageAlgorithm*>(source))

    {

        item = new VtkVisImageItem(source, getItem(parent), itemData);

    }

    else

    {

        item = new VtkVisPointSetItem(source, getItem(parent), itemData);

    }

    return this->addPipelineItem(item, parent);

}


void VtkVisPipeline::removeSourceItem(GeoTreeModel* model,

                                      const std::string& name,

                                      GeoLib::GEOTYPE type)

{

    for (int i = 0; i < _rootItem->childCount(); i++)

    {

        VtkVisPipelineItem* item =

            static_cast<VtkVisPipelineItem*>(getItem(index(i, 0)));

        if (item->algorithm() == model->vtkSource(name, type))

        {

            removePipelineItem(index(i, 0));

            return;

        }

    }

}


void VtkVisPipeline::removeSourceItem(StationTreeModel* model,

                                      const std::string& name)

{

    for (int i = 0; i < _rootItem->childCount(); i++)

    {

        VtkVisPipelineItem* item =

            static_cast<VtkVisPipelineItem*>(getItem(index(i, 0)));

        if (item->algorithm() == model->vtkSource(name))

        {

            removePipelineItem(index(i, 0));

            return;

        }

    }

}


void VtkVisPipeline::removeSourceItem(MeshModel* model, const QModelIndex& idx)

{

    auto* sItem = static_cast<MeshItem*>(model->getItem(idx));


    for (int i = 0; i < _rootItem->childCount(); i++)

    {

        VtkVisPipelineItem* item =

            static_cast<VtkVisPipelineItem*>(getItem(index(i, 0)));

        if (item->algorithm() == sItem->vtkSource())

        {

            removePipelineItem(index(i, 0));

            return;

        }

    }

}


void VtkVisPipeline::removePipelineItem(QModelIndex index)

{

    if (!index.isValid())

    {

        return;

    }


    QMap<vtkProp3D*, QModelIndex>::iterator it = _actorMap.begin();

    while (it != _actorMap.end())

    {

        QModelIndex itIndex = it.value();

        if (itIndex == index)

        {

            _actorMap.erase(it);

            break;

        }

        ++it;

    }


    // TreeItem* item = getItem(index);

    removeRows(index.row(), 1, index.parent());


    if (_resetCameraOnAddOrRemove)

    {

        _renderer->ResetCamera(_renderer->ComputeVisiblePropBounds());

    }

    emit vtkVisPipelineChanged();

}


void VtkVisPipeline::listArrays(vtkDataSet* dataSet)

{

    if (dataSet)

    {

        vtkPointData* pointData = dataSet->GetPointData();

        INFO("  #point data arrays: {:d}", pointData->GetNumberOfArrays());

        for (int i = 0; i < pointData->GetNumberOfArrays(); i++)

            INFO("    Name: {:s}", pointData->GetArrayName(i));


        vtkCellData* cellData = dataSet->GetCellData();

        INFO("  #cell data arrays: {:d}", cellData->GetNumberOfArrays());

        for (int i = 0; i < cellData->GetNumberOfArrays(); i++)

            INFO("    Name: {:s}", cellData->GetArrayName(i));

    }

    else

        ERR("VtkVisPipeline::listArrays(): not a valid vtkDataSet.");

}


void VtkVisPipeline::showMeshElementQuality(

    MeshLib::VtkMappedMeshSource* source, MeshLib::MeshQualityType t,

    std::vector<double> const& quality)

{

    if (!source || quality.empty())

    {

        return;

    }


    int const nSources = this->_rootItem->childCount();

    for (int i = 0; i < nSources; i++)

    {

        auto* parentItem =

            static_cast<VtkVisPipelineItem*>(_rootItem->child(i));

        if (parentItem->algorithm() != source)

        {

            continue;

        }


        QList<QVariant> itemData;

        itemData << "MeshQuality: " +

                        QString::fromStdString(MeshQualityType2String(t))

                 << true;


        VtkCompositeFilter* filter = VtkFilterFactory::CreateCompositeFilter(

            "VtkCompositeElementSelectionFilter",

            parentItem->transformFilter());

        if (t == MeshLib::MeshQualityType::ELEMENTSIZE)

        {

            auto const range(

                std::minmax_element(quality.cbegin(), quality.cend()));

            static_cast<VtkCompositeElementSelectionFilter*>(filter)->setRange(

                *range.first, *range.second);

        }

        static_cast<VtkCompositeElementSelectionFilter*>(filter)

            ->setSelectionArray("Selection", quality);

        VtkVisPointSetItem* item =

            new VtkVisPointSetItem(filter, parentItem, itemData);

        this->addPipelineItem(item, this->createIndex(i, 0, item));

        break;

    }

}


void VtkVisPipeline::highlightGeoObject(const vtkPolyDataAlgorithm* source,

                                        int index)

{

    this->removeHighlightedGeoObject();

    int nSources = this->_rootItem->childCount();

    for (int i = 0; i < nSources; i++)

    {

        auto* parentItem =

            static_cast<VtkVisPipelineItem*>(_rootItem->child(i));

        if (parentItem->algorithm() == source)

        {

            QList<QVariant> itemData;

            itemData << "Selected GeoObject" << true;


            VtkCompositeFilter* filter =

                VtkFilterFactory::CreateCompositeFilter(

                    "VtkCompositeGeoObjectFilter",

                    parentItem->transformFilter());

            static_cast<VtkCompositeGeoObjectFilter*>(filter)->SetIndex(index);

            VtkVisPointSetItem* item =

                new VtkVisPointSetItem(filter, parentItem, itemData);

            QModelIndex parent_index =

                static_cast<TreeModel*>(this)->index(i, 0, QModelIndex());

            _highlighted_geo_index = this->addPipelineItem(item, parent_index);

            break;

        }

    }

}


void VtkVisPipeline::removeHighlightedGeoObject()

{

    if (_highlighted_geo_index != QModelIndex())

    {

        this->removePipelineItem(_highlighted_geo_index);

        _highlighted_geo_index = QModelIndex();

    }

}


void VtkVisPipeline::highlightMeshComponent(

    vtkUnstructuredGridAlgorithm const* const source, unsigned index,

    bool is_element)

{

    int nSources = this->_rootItem->childCount();

    for (int i = 0; i < nSources; i++)

    {

        auto* parentItem =

            static_cast<VtkVisPipelineItem*>(_rootItem->child(i));

        if (parentItem->algorithm() == source)

        {

            QList<QVariant> itemData;

            itemData << "Selected Mesh Component" << true;

            QList<QVariant> selected_index;

            selected_index << index << index;


            VtkCompositeFilter* filter(nullptr);

            if (is_element)

            {

                filter = VtkFilterFactory::CreateCompositeFilter(

                    "VtkCompositeElementSelectionFilter",

                    parentItem->transformFilter());

                static_cast<VtkCompositeElementSelectionFilter*>(filter)

                    ->setSelectionArray("vtkIdFilter_Ids");

                static_cast<VtkCompositeElementSelectionFilter*>(filter)

                    ->SetUserVectorProperty("Threshold Between",

                                            selected_index);

            }

            else

            {

                filter = VtkFilterFactory::CreateCompositeFilter(

                    "VtkCompositeNodeSelectionFilter",

                    parentItem->transformFilter());

                std::vector<unsigned> indices(1);

                indices[0] = index;

                static_cast<VtkCompositeNodeSelectionFilter*>(filter)

                    ->setSelectionArray(indices);

            }

            VtkVisPointSetItem* item =

                new VtkVisPointSetItem(filter, parentItem, itemData);

            QModelIndex parent_index =

                static_cast<TreeModel*>(this)->index(i, 0, QModelIndex());

            _highlighted_mesh_component =

                this->addPipelineItem(item, parent_index);

            break;

        }

    }

}


void VtkVisPipeline::removeHighlightedMeshComponent()

{

    if (_highlighted_mesh_component != QModelIndex())

    {

        this->removePipelineItem(_highlighted_mesh_component);

        _highlighted_mesh_component = QModelIndex();

    }

}


GeoTreeModel.h
Definition of the GeoTreeModel class.

LinearIntervalInterpolation.h
Definition of the LinearIntervalInterpolation class.

Logging.h

INFO
void INFO(fmt::format_string< Args... > fmt, Args &&... args)
Definition Logging.h:35

ERR
void ERR(fmt::format_string< Args... > fmt, Args &&... args)
Definition Logging.h:45

MeshItem.h
Definition of the MeshItem class.

MeshModel.h
Definition of the MeshModel class.

Mesh.h
Definition of the Mesh class.

StationTreeModel.h
Definition of the StationTreeModel class.

TreeModel.h
Definition of the TreeModel class.

VtkAlgorithmProperties.h
Definition of the VtkAlgorithmProperties class.

VtkCompositeElementSelectionFilter.h
Definition of the VtkCompositeSelectionFilter class.

VtkCompositeGeoObjectFilter.h
Definition of the VtkCompositeGeoObjectFilter class.

VtkCompositeNodeSelectionFilter.h
Definition of the VtkCompositeNodeSelectionFilter class.

VtkFilterFactory.h
Definition of the VtkFilterFactory class.

VtkMappedMeshSource.h
VtkMappedMeshSource is a source class to transform OGS meshes into complete vtkUnstructuredGrids....

VtkVisImageItem.h
Definition of the VtkVisImageItem class.

VtkVisPipelineItem.h
Definition of the VtkVisPipelineItem class.

VtkVisPipeline.h
Definition of the VtkVisPipeline class.

VtkVisPointSetItem.h
Definition of the VtkVisPointSetItem class.

GeoLib::Point
Definition Point.h:31

GeoTreeModel
A model for the GeoTreeView implementing a tree as a double-linked list.
Definition GeoTreeModel.h:41

GeoTreeModel::vtkSource
vtkPolyDataAlgorithm * vtkSource(const std::string &name, GeoLib::GEOTYPE type) const
Returns the vtk-object indicated by type of the geometry indicated by name.
Definition GeoTreeModel.cpp:374

MeshItem
A TreeItem containing a mesh and the associated vtk object used in the Mesh Model.
Definition MeshItem.h:30

MeshItem::vtkSource
MeshLib::VtkMappedMeshSource * vtkSource() const
Returns the VTK object.
Definition MeshItem.h:44

MeshLib::Mesh::getName
const std::string getName() const
Get name of the mesh.
Definition Mesh.h:103

MeshLib::VtkMappedMeshSource
Definition VtkMappedMeshSource.h:45

MeshLib::VtkMappedMeshSource::GetMesh
const MeshLib::Mesh * GetMesh() const
Returns the mesh.
Definition VtkMappedMeshSource.h:62

MeshModel
Definition MeshModel.h:38

StationTreeModel
A model for the StationTreeView implementing a tree as a double-linked list.
Definition StationTreeModel.h:43

StationTreeModel::vtkSource
vtkPolyDataAlgorithm * vtkSource(const std::string &name) const
Definition StationTreeModel.cpp:101

TreeItem
Objects nodes for the TreeModel.
Definition TreeItem.h:28

TreeItem::childCount
virtual int childCount() const
Definition TreeItem.cpp:65

TreeItem::appendChild
void appendChild(TreeItem *item)
Definition TreeItem.cpp:42

TreeItem::parentItem
TreeItem * parentItem() const
Definition TreeItem.cpp:115

TreeItem::child
TreeItem * child(int row) const
Definition TreeItem.cpp:52

TreeModel
A hierarchical model for a tree implemented as a double-linked list.
Definition TreeModel.h:30

TreeModel::removeRows
bool removeRows(int position, int count, const QModelIndex &parent) override
Definition TreeModel.cpp:215

TreeModel::getItem
TreeItem * getItem(const QModelIndex &index) const
Definition TreeModel.cpp:188

TreeModel::index
QModelIndex index(int row, int column, const QModelIndex &parent=QModelIndex()) const override
Definition TreeModel.cpp:50

TreeModel::parent
QModelIndex parent(const QModelIndex &index) const override
Definition TreeModel.cpp:81

TreeModel::_rootItem
TreeItem * _rootItem
Definition TreeModel.h:58

TreeModel::setData
bool setData(const QModelIndex &index, const QVariant &value, int role) override
Definition TreeModel.cpp:159

VtkAlgorithmProperties
Contains properties for the visualization of objects as VtkVisPipelineItems.
Definition VtkAlgorithmProperties.h:138

VtkCompositeElementSelectionFilter
This filter selects/thresholds elements based on the selected array.
Definition VtkCompositeElementSelectionFilter.h:27

VtkCompositeFilter
Is used to combine several filter in one VtkVisPipelineItem. You can use vtk filter and custom filter...
Definition VtkCompositeFilter.h:42

VtkCompositeGeoObjectFilter
Highlights a single GeoObject.
Definition VtkCompositeGeoObjectFilter.h:24

VtkCompositeNodeSelectionFilter
This filter displays the points/nodes given in the index field as spheres.
Definition VtkCompositeNodeSelectionFilter.h:24

VtkFilterFactory::CreateCompositeFilter
static VtkCompositeFilter * CreateCompositeFilter(QString type, vtkAlgorithm *inputAlgorithm)
Creates a composite filter by name.
Definition VtkFilterFactory.cpp:125

VtkVisImageItem
An item in the VtkVisPipeline containing an image to be visualized.
Definition VtkVisImageItem.h:37

VtkVisPipelineItem
An item in the VtkVisPipeline containing a graphic object to be visualized.
Definition VtkVisPipelineItem.h:43

VtkVisPipelineItem::setScale
virtual void setScale(double x, double y, double z) const
Scales the data in visualisation-space. This function is empty and needs to be implemented by derived...
Definition VtkVisPipelineItem.cpp:141

VtkVisPipelineItem::actor
vtkProp3D * actor() const
Returns the actor as vtkProp3D.
Definition VtkVisPipelineItem.cpp:136

VtkVisPipelineItem::algorithm
vtkAlgorithm * algorithm() const
Returns the algorithm object.
Definition VtkVisPipelineItem.h:69

VtkVisPipelineItem::setBackfaceCulling
virtual void setBackfaceCulling(bool enable) const
Enables / disables backface culling.
Definition VtkVisPipelineItem.cpp:162

VtkVisPipelineItem::Initialize
virtual void Initialize(vtkRenderer *renderer)=0
Initializes vtkMapper and vtkActor necessary for visualization of the item and sets the item's proper...

VtkVisPipeline::setGlobalBackfaceCulling
void setGlobalBackfaceCulling(bool enable) const
Enables / disables backface culling on all actors.
Definition VtkVisPipeline.cpp:271

VtkVisPipeline::_highlighted_mesh_component
QModelIndex _highlighted_mesh_component
Definition VtkVisPipeline.h:147

VtkVisPipeline::itemSelected
void itemSelected(const QModelIndex &) const

VtkVisPipeline::setData
bool setData(const QModelIndex &index, const QVariant &value, int role=Qt::EditRole) override
Emits vtkVisPipelineChanged() and calls base class method.
Definition VtkVisPipeline.cpp:84

VtkVisPipeline::_lights
std::list< vtkLight * > _lights
Definition VtkVisPipeline.h:142

VtkVisPipeline::addLight
void addLight(const GeoLib::Point &pos)
Adds a light to the scene at the given coordinates.
Definition VtkVisPipeline.cpp:92

VtkVisPipeline::removeLight
void removeLight(const GeoLib::Point &pos)
Removes a light at the given coordinates (if possible).
Definition VtkVisPipeline.cpp:125

VtkVisPipeline::vtkVisPipelineChanged
void vtkVisPipelineChanged() const
Is emitted when a pipeline item was added or removed.

VtkVisPipeline::addPipelineItem
void addPipelineItem(MeshModel *model, const QModelIndex &idx)
Adds the given Model to the pipeline.
Definition VtkVisPipeline.cpp:299

VtkVisPipeline::removePipelineItem
void removePipelineItem(QModelIndex index)
Removes the vtkAlgorithm at the given QModelIndex (and all attached vtkAlgorithms) from the pipeline.
Definition VtkVisPipeline.cpp:447

VtkVisPipeline::VtkVisPipeline
VtkVisPipeline(vtkRenderer *renderer, QObject *parent=nullptr)
Definition VtkVisPipeline.cpp:64

VtkVisPipeline::removeHighlightedGeoObject
void removeHighlightedGeoObject()
Removes the currently highlighted geometry-object.
Definition VtkVisPipeline.cpp:566

VtkVisPipeline::setBGColor
void setBGColor(const QColor &color)
Sets the background-colour of the scene.
Definition VtkVisPipeline.cpp:151

VtkVisPipeline::setGlobalSuperelevation
void setGlobalSuperelevation(double factor) const
Sets a global superelevation factor on all source items and resets the factor on other items to 1.
Definition VtkVisPipeline.cpp:256

VtkVisPipeline::removeHighlightedMeshComponent
void removeHighlightedMeshComponent()
Removes the currently highlighted mesh component.
Definition VtkVisPipeline.cpp:624

VtkVisPipeline::flags
Qt::ItemFlags flags(const QModelIndex &index) const override
Definition VtkVisPipeline.cpp:163

VtkVisPipeline::getLight
vtkLight * getLight(const GeoLib::Point &pos) const
Returns a light (or nullptr) for the given coordinates.
Definition VtkVisPipeline.cpp:110

VtkVisPipeline::loadFromFile
void loadFromFile(QString filename)
Loads a vtk object from the given file and adds it to the pipeline.
Definition VtkVisPipeline.cpp:178

VtkVisPipeline::highlightGeoObject
void highlightGeoObject(const vtkPolyDataAlgorithm *source, int index)
Applies a VtkCompositeGeoObjectFilter to add a specific index of the given geometry-source to the pip...
Definition VtkVisPipeline.cpp:537

VtkVisPipeline::highlightMeshComponent
void highlightMeshComponent(vtkUnstructuredGridAlgorithm const *const source, unsigned index, bool is_element)
Applies a VtkCompositeSelectionFilter to add a specific component of the given mesh-source to the pip...
Definition VtkVisPipeline.cpp:575

VtkVisPipeline::showMeshElementQuality
void showMeshElementQuality(MeshLib::VtkMappedMeshSource *source, MeshLib::MeshQualityType t, std::vector< double > const &quality)
Checks the quality of mesh elements and adds a filter to highlight deformed elements.
Definition VtkVisPipeline.cpp:494

VtkVisPipeline::removeSourceItem
void removeSourceItem(MeshModel *model, const QModelIndex &idx)
Removes the given Model (and all attached vtkAlgorithms) from the pipeline.
Definition VtkVisPipeline.cpp:431

VtkVisPipeline::getIndex
QModelIndex getIndex(vtkProp3D *actor)
Returns the QModelIndex of VtkVisPipelineItem which actor is the given one.
Definition VtkVisPipeline.cpp:158

VtkVisPipeline::_resetCameraOnAddOrRemove
bool _resetCameraOnAddOrRemove
Definition VtkVisPipeline.h:144

VtkVisPipeline::_actorMap
QMap< vtkProp3D *, QModelIndex > _actorMap
Definition VtkVisPipeline.h:143

VtkVisPipeline::_highlighted_geo_index
QModelIndex _highlighted_geo_index
Definition VtkVisPipeline.h:146

VtkVisPipeline::getBGColor
QColor getBGColor() const
Returns the background-colour of the scene.
Definition VtkVisPipeline.cpp:142

VtkVisPipeline::listArrays
void listArrays(vtkDataSet *dataSet)
Definition VtkVisPipeline.cpp:476

VtkVisPipeline::_renderer
vtkRenderer * _renderer
Definition VtkVisPipeline.h:140

VtkVisPointSetItem
An item in the VtkVisPipeline containing a point set object to be visualized.
Definition VtkVisPointSetItem.h:40

GeoLib::GEOTYPE
GEOTYPE
Definition GeoType.h:23

MeshLib::MeshQualityType
MeshQualityType
Describes a mesh quality metric.
Definition MeshEnums.h:70

MeshLib::MeshQualityType::ELEMENTSIZE
@ ELEMENTSIZE