Esempio n. 1
0
void GeoTreeModel::addPolylineList(QString geoName, GeoLib::PolylineVec const& polylineVec)
{
	int nLists = _rootItem->childCount();
	TreeItem* geo(NULL);
	for (int i = 0; i < nLists; i++)
	{
		if (_rootItem->child(i)->data(0).toString().compare(geoName) == 0)
			geo = _rootItem->child(i);
	}

	if (geo == NULL)
	{
		ERR("GeoTreeModel::addPolylineList(): No corresponding geometry for \"%s\" found.", geoName.toStdString().c_str());
		return;
	}

	const std::vector<GeoLib::Polyline*>* lines = polylineVec.getVector();

	QList<QVariant> plyData;
	plyData << "Polylines" << "" << "" << "";
	GeoObjectListItem* plyList = new GeoObjectListItem(plyData, geo, lines, GeoLib::GEOTYPE::POLYLINE);
	geo->appendChild(plyList);
	this->addChildren(plyList, polylineVec, 0, lines->size());
	reset();
}
Esempio n. 2
0
LineEditDialog::LineEditDialog(const GeoLib::PolylineVec &ply_vec, QDialog* parent)
	: QDialog(parent), _allPly(new QStringListModel), _selPly(new QStringListModel),
	  _geoName(ply_vec.getName())
{
	setupUi(this);

	this->proximityEdit->setValidator(new QDoubleValidator(0, 100, 8, this));

	size_t nPly(ply_vec.size());
	QStringList list;
	for (size_t i = 0; i < nPly; i++)
	{
		std::string ply_name("");
		ply_vec.getNameOfElementByID(i, ply_name);
		list.append("Line " + QString::number(i) + "  " + QString::fromStdString(ply_name));
	}
	_allPly->setStringList(list);

	this->allPlyView->setModel(_allPly);
	this->selectedPlyView->setModel(_selPly);
}
Esempio n. 3
0
void GeoTreeModel::addChildren(GeoObjectListItem* plyList,
                               GeoLib::PolylineVec const& polyline_vec,
                               size_t start_index,
                               size_t end_index)
{
	const std::vector<GeoLib::Polyline*> lines = *(polyline_vec.getVector());

	for (size_t i = start_index; i < end_index; i++)
	{
		QList<QVariant> line_data;
		line_data.reserve(4);
		line_data << "Line " + QString::number(i) << "" << "" << "";

		const GeoLib::Polyline &line(*(lines[i]));
		GeoTreeItem* lineItem(new GeoTreeItem(line_data, plyList, &line));
		plyList->appendChild(lineItem);

		int nPoints = static_cast<int>(lines[i]->getNumberOfPoints());
		for (int j = 0; j < nPoints; j++)
		{
			const GeoLib::Point pnt(*(line.getPoint(j)));
			QList<QVariant> pnt_data;
			pnt_data.reserve(4);
			pnt_data << static_cast<int>(line.getPointID(j))
			         << QString::number(pnt[0], 'f')
			         << QString::number(pnt[1], 'f')
			         << QString::number(pnt[2], 'f');

			lineItem->appendChild(new TreeItem(pnt_data, lineItem));
		}
	}

	for (auto pnt = polyline_vec.getNameIDMapBegin(); pnt != polyline_vec.getNameIDMapEnd(); ++pnt)
		QVariant pnt_data (plyList->child(pnt->second)->setData(1, QString::fromStdString(pnt->first)));

	INFO("%d polylines added.", end_index - start_index);
}
Esempio n. 4
0
void GeoTreeModel::appendPolylines(const std::string &name, GeoLib::PolylineVec const& polylineVec)
{
	for (size_t i = 0; i < _lists.size(); i++)
	{
		if ( name.compare( _lists[i]->data(0).toString().toStdString() ) == 0 )
			for (int j = 0; j < _lists[i]->childCount(); j++)
			{
				GeoObjectListItem* parent =
				        static_cast<GeoObjectListItem*>(_lists[i]->child(j));
				if (GeoLib::GEOTYPE::POLYLINE == parent->getType())
				{
					this->addChildren(parent, polylineVec,
					                  parent->childCount(),
					                  polylineVec.getVector()->size());
					reset();
					parent->vtkSource()->Modified();
					return;
				}
			}
	}
	OGSError::box("Error adding polyline to geometry.");
}
Esempio n. 5
0
std::unique_ptr<MeshLib::Mesh> appendLinesAlongPolylines(
    const MeshLib::Mesh& mesh, const GeoLib::PolylineVec& ply_vec)
{
    // copy existing nodes and elements
    std::vector<MeshLib::Node*> vec_new_nodes = MeshLib::copyNodeVector(mesh.getNodes());
    std::vector<MeshLib::Element*> vec_new_eles = MeshLib::copyElementVector(mesh.getElements(), vec_new_nodes);

    auto const material_ids = materialIDs(mesh);
    int const max_matID =
        material_ids
            ? *(std::max_element(begin(*material_ids), end(*material_ids)))
            : 0;

    std::vector<int> new_mat_ids;
    const std::size_t n_ply (ply_vec.size());
    // for each polyline
    for (std::size_t k(0); k < n_ply; k++)
    {
        const GeoLib::Polyline* ply = (*ply_vec.getVector())[k];

        // search nodes on the polyline
        MeshGeoToolsLib::MeshNodesAlongPolyline mshNodesAlongPoly(
            mesh, *ply, mesh.getMinEdgeLength() * 0.5,
            MeshGeoToolsLib::SearchAllNodes::Yes);
        auto &vec_nodes_on_ply = mshNodesAlongPoly.getNodeIDs();
        if (vec_nodes_on_ply.empty()) {
            std::string ply_name;
            ply_vec.getNameOfElementByID(k, ply_name);
            INFO("No nodes found on polyline %s", ply_name.c_str());
            continue;
        }

        // add line elements
        for (std::size_t i=0; i<vec_nodes_on_ply.size()-1; i++) {
            std::array<MeshLib::Node*, 2> element_nodes;
            element_nodes[0] = vec_new_nodes[vec_nodes_on_ply[i]];
            element_nodes[1] = vec_new_nodes[vec_nodes_on_ply[i+1]];
            vec_new_eles.push_back(
                new MeshLib::Line(element_nodes, vec_new_eles.size()));
            new_mat_ids.push_back(max_matID+k+1);
        }
    }

    // generate a mesh
    const std::string name = mesh.getName() + "_with_lines";
    auto new_mesh =
        std::make_unique<MeshLib::Mesh>(name, vec_new_nodes, vec_new_eles);
    auto new_material_ids =
        new_mesh->getProperties().createNewPropertyVector<int>(
            "MaterialIDs", MeshLib::MeshItemType::Cell);
    if (!new_material_ids)
    {
        OGS_FATAL("Could not create MaterialIDs cell vector in new mesh.");
    }
    new_material_ids->reserve(new_mesh->getNumberOfElements());
    if (material_ids != nullptr)
    {
        std::copy(begin(*material_ids), end(*material_ids),
                  std::back_inserter(*new_material_ids));
    }
    else
    {
        new_material_ids->resize(mesh.getNumberOfElements());
    }
    std::copy(begin(new_mat_ids), end(new_mat_ids),
              std::back_inserter(*new_material_ids));
    return new_mesh;
}
std::unique_ptr<MeshLib::Mesh> appendLinesAlongPolylines(
    const MeshLib::Mesh& mesh, const GeoLib::PolylineVec& ply_vec)
{
    // copy existing nodes and elements
    std::vector<MeshLib::Node*> vec_new_nodes = MeshLib::copyNodeVector(mesh.getNodes());
    std::vector<MeshLib::Element*> vec_new_eles = MeshLib::copyElementVector(mesh.getElements(), vec_new_nodes);

    std::vector<int> new_mat_ids;
    {
        if (mesh.getProperties().existsPropertyVector<int>("MaterialIDs")) {
            auto ids =
                mesh.getProperties().getPropertyVector<int>("MaterialIDs");
            new_mat_ids.reserve(ids->size());
            std::copy(ids->cbegin(), ids->cend(),
                      std::back_inserter(new_mat_ids));
        }
    }
    int max_matID(0);
    if (!new_mat_ids.empty())
        max_matID = *(std::max_element(new_mat_ids.cbegin(), new_mat_ids.cend()));

    const std::size_t n_ply (ply_vec.size());
    // for each polyline
    for (std::size_t k(0); k < n_ply; k++)
    {
        const GeoLib::Polyline* ply = (*ply_vec.getVector())[k];

        // search nodes on the polyline
        MeshGeoToolsLib::MeshNodesAlongPolyline mshNodesAlongPoly(
            mesh, *ply, mesh.getMinEdgeLength() * 0.5,
            MeshGeoToolsLib::SearchAllNodes::Yes);
        auto &vec_nodes_on_ply = mshNodesAlongPoly.getNodeIDs();
        if (vec_nodes_on_ply.empty()) {
            std::string ply_name;
            ply_vec.getNameOfElementByID(k, ply_name);
            INFO("No nodes found on polyline %s", ply_name.c_str());
            continue;
        }

        // add line elements
        for (std::size_t i=0; i<vec_nodes_on_ply.size()-1; i++) {
            std::array<MeshLib::Node*, 2> element_nodes;
            element_nodes[0] = vec_new_nodes[vec_nodes_on_ply[i]];
            element_nodes[1] = vec_new_nodes[vec_nodes_on_ply[i+1]];
            vec_new_eles.push_back(
                new MeshLib::Line(element_nodes, vec_new_eles.size()));
            new_mat_ids.push_back(max_matID+k+1);
        }
    }

    // generate a mesh
    const std::string name = mesh.getName() + "_with_lines";
    auto new_mesh =
        std::make_unique<MeshLib::Mesh>(name, vec_new_nodes, vec_new_eles);
    auto opt_mat_pv = new_mesh->getProperties().createNewPropertyVector<int>(
        "MaterialIDs", MeshLib::MeshItemType::Cell);
    if (opt_mat_pv) {
        auto & mat_pv = *opt_mat_pv;
        mat_pv.reserve(new_mat_ids.size());
        std::copy(new_mat_ids.cbegin(), new_mat_ids.cend(),
            std::back_inserter(mat_pv));
    }
    return new_mesh;
}