// SPDX-License-Identifier: LGPL-2.1-or-later /*************************************************************************** * Copyright (c) 2017 Werner Mayer * * * * This file is part of the FreeCAD CAx development system. * * * * This library is free software; you can redistribute it and/or * * modify it under the terms of the GNU Library General Public * * License as published by the Free Software Foundation; either * * version 2 of the License, or (at your option) any later version. * * * * This library is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU Library General Public License for more details. * * * * You should have received a copy of the GNU Library General Public * * License along with this library; see the file COPYING.LIB. If not, * * write to the Free Software Foundation, Inc., 59 Temple Place, * * Suite 330, Boston, MA 02111-1307, USA * * * ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "TaskFilling.h" #include "TaskFillingEdge.h" #include "TaskFillingVertex.h" #include "ui_TaskFilling.h" using namespace SurfaceGui; PROPERTY_SOURCE(SurfaceGui::ViewProviderFilling, PartGui::ViewProviderSpline) namespace SurfaceGui { void ViewProviderFilling::setupContextMenu(QMenu* menu, QObject* receiver, const char* member) { QAction* act; act = menu->addAction(QObject::tr("Edit Filling"), receiver, member); act->setData(QVariant((int)ViewProvider::Default)); PartGui::ViewProviderSpline::setupContextMenu(menu, receiver, member); } bool ViewProviderFilling::setEdit(int ModNum) { if (ModNum == ViewProvider::Default) { // When double-clicking on the item for this sketch the // object unsets and sets its edit mode without closing // the task panel Surface::Filling* obj = this->getObject(); Gui::TaskView::TaskDialog* dlg = Gui::Control().activeDialog(); // start the edit dialog if (dlg) { TaskFilling* tDlg = qobject_cast(dlg); if (tDlg) { tDlg->setEditedObject(obj); } Gui::Control().showDialog(dlg); } else { Gui::Control().showDialog(new TaskFilling(this, obj)); } return true; } else { return ViewProviderSpline::setEdit(ModNum); } } void ViewProviderFilling::unsetEdit(int ModNum) { PartGui::ViewProviderSpline::unsetEdit(ModNum); } QIcon ViewProviderFilling::getIcon() const { return Gui::BitmapFactory().pixmap("Surface_Filling"); } void ViewProviderFilling::highlightReferences(ShapeType type, const References& refs, bool on) { for (const auto& it : refs) { Part::Feature* base = dynamic_cast(it.first); if (base) { PartGui::ViewProviderPartExt* svp = dynamic_cast( Gui::Application::Instance->getViewProvider(base) ); if (svp) { switch (type) { case ViewProviderFilling::Vertex: if (on) { std::vector colors; TopTools_IndexedMapOfShape vMap; TopExp::MapShapes(base->Shape.getValue(), TopAbs_VERTEX, vMap); colors.resize(vMap.Extent(), svp->PointColor.getValue()); for (const auto& jt : it.second) { // check again that the index is in range because it's possible that // the sub-names are invalid std::size_t idx = static_cast(std::stoi(jt.substr(6)) - 1); if (idx < colors.size()) { colors[idx] = Base::Color(1.0, 0.0, 1.0); // magenta } } svp->setHighlightedPoints(colors); } else { svp->unsetHighlightedPoints(); } break; case ViewProviderFilling::Edge: if (on) { std::vector colors; TopTools_IndexedMapOfShape eMap; TopExp::MapShapes(base->Shape.getValue(), TopAbs_EDGE, eMap); colors.resize(eMap.Extent(), svp->LineColor.getValue()); for (const auto& jt : it.second) { std::size_t idx = static_cast(std::stoi(jt.substr(4)) - 1); // check again that the index is in range because it's possible that // the sub-names are invalid if (idx < colors.size()) { colors[idx] = Base::Color(1.0, 0.0, 1.0); // magenta } } svp->setHighlightedEdges(colors); } else { svp->unsetHighlightedEdges(); } break; case ViewProviderFilling::Face: if (on) { std::vector materials; TopTools_IndexedMapOfShape fMap; TopExp::MapShapes(base->Shape.getValue(), TopAbs_FACE, fMap); materials.resize(fMap.Extent(), svp->ShapeAppearance[0]); for (const auto& jt : it.second) { std::size_t idx = static_cast(std::stoi(jt.substr(4)) - 1); // check again that the index is in range because it's possible that // the sub-names are invalid if (idx < materials.size()) { materials[idx].diffuseColor = Base::Color(1.0, 0.0, 1.0); // magenta } } svp->setHighlightedFaces(materials); } else { svp->unsetHighlightedFaces(); } break; } } } } } // ---------------------------------------------------------------------------- class FillingPanel::ShapeSelection: public Gui::SelectionFilterGate { public: ShapeSelection(FillingPanel::SelectionMode& mode, Surface::Filling* editedObject) : Gui::SelectionFilterGate(nullPointer()) , mode(mode) , editedObject(editedObject) {} ~ShapeSelection() override { mode = FillingPanel::None; } /** * Allow the user to pick only edges. */ bool allow(App::Document*, App::DocumentObject* pObj, const char* sSubName) override { // don't allow references to itself if (pObj == editedObject) { return false; } if (!pObj->isDerivedFrom()) { return false; } if (Base::Tools::isNullOrEmpty(sSubName)) { return false; } switch (mode) { case FillingPanel::InitFace: return allowFace(pObj, sSubName); case FillingPanel::AppendEdge: return allowEdge(true, pObj, sSubName); case FillingPanel::RemoveEdge: return allowEdge(false, pObj, sSubName); default: return false; } } private: bool allowFace(App::DocumentObject*, const char* sSubName) { std::string element(sSubName); if (element.substr(0, 4) != "Face") { return false; } return true; } bool allowEdge(bool appendEdges, App::DocumentObject* pObj, const char* sSubName) { std::string element(sSubName); if (element.substr(0, 4) != "Edge") { return false; } auto links = editedObject->BoundaryEdges.getSubListValues(); for (const auto& it : links) { if (it.first == pObj) { for (const auto& jt : it.second) { if (jt == sSubName) { return !appendEdges; } } } } return appendEdges; } private: FillingPanel::SelectionMode& mode; Surface::Filling* editedObject; }; // ---------------------------------------------------------------------------- FillingPanel::FillingPanel(ViewProviderFilling* vp, Surface::Filling* obj) : editedObject(obj) { ui = new Ui_TaskFilling(); ui->setupUi(this); setupConnections(); ui->statusLabel->clear(); selectionMode = None; this->vp = vp; checkCommand = true; setEditedObject(obj); // Create context menu QAction* action = new QAction(tr("Remove"), this); action->setShortcut(QStringLiteral("Del")); action->setShortcutContext(Qt::WidgetShortcut); ui->listBoundary->addAction(action); connect(action, &QAction::triggered, this, &FillingPanel::onDeleteEdge); ui->listBoundary->setContextMenuPolicy(Qt::ActionsContextMenu); // clang-format off connect(ui->listBoundary->model(), &QAbstractItemModel::rowsMoved, this, &FillingPanel::onIndexesMoved); // clang-format on } /* * Destroys the object and frees any allocated resources */ FillingPanel::~FillingPanel() { // no need to delete child widgets, Qt does it all for us delete ui; } void FillingPanel::setupConnections() { // clang-format off connect(ui->buttonInitFace, &QPushButton::clicked, this, &FillingPanel::onButtonInitFaceClicked); connect(ui->buttonEdgeAdd, &QToolButton::toggled, this, &FillingPanel::onButtonEdgeAddToggled); connect(ui->buttonEdgeRemove, &QToolButton::toggled, this, &FillingPanel::onButtonEdgeRemoveToggled); connect(ui->lineInitFaceName, &QLineEdit::textChanged, this, &FillingPanel::onLineInitFaceNameTextChanged); connect(ui->listBoundary, &QListWidget::itemDoubleClicked, this, &FillingPanel::onListBoundaryItemDoubleClicked); connect(ui->buttonAccept, &QPushButton::clicked, this, &FillingPanel::onButtonAcceptClicked); connect(ui->buttonIgnore, &QPushButton::clicked, this, &FillingPanel::onButtonIgnoreClicked); // clang-format on } void FillingPanel::appendButtons(Gui::ButtonGroup* buttonGroup) { buttonGroup->addButton(ui->buttonInitFace, int(SelectionMode::InitFace)); buttonGroup->addButton(ui->buttonEdgeAdd, int(SelectionMode::AppendEdge)); buttonGroup->addButton(ui->buttonEdgeRemove, int(SelectionMode::RemoveEdge)); } // stores object pointer, its old fill type and adjusts radio buttons according to it. void FillingPanel::setEditedObject(Surface::Filling* fea) { editedObject = fea; // get the link to the initial surface if set App::DocumentObject* initFace = editedObject->InitialFace.getValue(); const std::vector& subList = editedObject->InitialFace.getSubValues(); if (initFace && subList.size() == 1) { QString text = QStringLiteral("%1.%2").arg( QString::fromUtf8(initFace->Label.getValue()), QString::fromStdString(subList.front()) ); ui->lineInitFaceName->setText(text); } // get the boundary edges, if set their adjacent faces and continuities auto objects = editedObject->BoundaryEdges.getValues(); auto edges = editedObject->BoundaryEdges.getSubValues(); auto count = objects.size(); // fill up faces if wrong size auto faces = editedObject->BoundaryFaces.getValues(); if (faces.size() != edges.size()) { faces.resize(edges.size()); std::fill(faces.begin(), faces.end(), std::string()); } // fill up continuities if wrong size auto conts = editedObject->BoundaryOrder.getValues(); if (edges.size() != conts.size()) { conts.resize(edges.size()); std::fill(conts.begin(), conts.end(), static_cast(GeomAbs_C0)); } App::Document* doc = editedObject->getDocument(); for (std::size_t i = 0; i < count; i++) { App::DocumentObject* obj = objects[i]; std::string edge = edges[i]; std::string face = faces[i]; QListWidgetItem* item = new QListWidgetItem(ui->listBoundary); ui->listBoundary->addItem(item); QString text = QStringLiteral("%1.%2").arg( QString::fromUtf8(obj->Label.getValue()), QString::fromStdString(edge) ); item->setText(text); // The user data field of a list widget item // is a list of five elementa: // 1. document name // 2. object name // 3. sub-element name of the edge // 4. sub-element of an adjacent face or empty string // 5. the continuity as int QList data; data << QByteArray(doc->getName()); data << QByteArray(obj->getNameInDocument()); data << QByteArray(edge.c_str()); data << QByteArray(face.c_str()); data << static_cast(conts[i]); item->setData(Qt::UserRole, data); } // attach this document observer attachDocument(Gui::Application::Instance->getDocument(doc)); } void FillingPanel::changeEvent(QEvent* e) { if (e->type() == QEvent::LanguageChange) { ui->retranslateUi(this); } else { QWidget::changeEvent(e); } } void FillingPanel::open() { checkOpenCommand(); // highlight the boundary edges this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), true ); // highlight the referenced face std::vector links; links.emplace_back(editedObject->InitialFace.getValue(), editedObject->InitialFace.getSubValues()); this->vp->highlightReferences(ViewProviderFilling::Face, links, true); Gui::Selection().clearSelection(); // if the surface is not yet created then automatically start "AppendEdge" mode if (editedObject->Shape.getShape().isNull()) { ui->buttonEdgeAdd->setChecked(true); } } void FillingPanel::clearSelection() { Gui::Selection().clearSelection(); } void FillingPanel::checkOpenCommand() { if (checkCommand && !Gui::Command::hasPendingCommand()) { std::string Msg("Edit "); Msg += editedObject->Label.getValue(); Gui::Command::openCommand(Msg.c_str()); checkCommand = false; } } void FillingPanel::slotUndoDocument(const Gui::Document&) { checkCommand = true; } void FillingPanel::slotRedoDocument(const Gui::Document&) { checkCommand = true; } void FillingPanel::slotDeletedObject(const Gui::ViewProviderDocumentObject& Obj) { // If this view provider is being deleted then reset the colors of // referenced part objects. The dialog will be deleted later. if (this->vp == &Obj) { this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), false ); // unhighlight the referenced face std::vector links; links.emplace_back( editedObject->InitialFace.getValue(), editedObject->InitialFace.getSubValues() ); this->vp->highlightReferences(ViewProviderFilling::Face, links, false); } } bool FillingPanel::accept() { selectionMode = None; Gui::Selection().rmvSelectionGate(); if (editedObject->mustExecute()) { editedObject->recomputeFeature(); } if (!editedObject->isValid()) { QMessageBox::warning( this, tr("Invalid object"), QString::fromLatin1(editedObject->getStatusString()) ); return false; } this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), false ); // unhighlight the referenced face std::vector links; links.emplace_back(editedObject->InitialFace.getValue(), editedObject->InitialFace.getSubValues()); this->vp->highlightReferences(ViewProviderFilling::Face, links, false); return true; } bool FillingPanel::reject() { if (!editedObject.expired()) { this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), false ); // unhighlight the referenced face std::vector links; links.emplace_back( editedObject->InitialFace.getValue(), editedObject->InitialFace.getSubValues() ); this->vp->highlightReferences(ViewProviderFilling::Face, links, false); } selectionMode = None; Gui::Selection().rmvSelectionGate(); return true; } void FillingPanel::onLineInitFaceNameTextChanged(const QString& text) { if (text.isEmpty()) { checkOpenCommand(); // unhighlight the referenced face std::vector links; links.emplace_back( editedObject->InitialFace.getValue(), editedObject->InitialFace.getSubValues() ); this->vp->highlightReferences(ViewProviderFilling::Face, links, false); editedObject->InitialFace.setValue(nullptr); editedObject->recomputeFeature(); } } void FillingPanel::onButtonInitFaceClicked() { // 'selectionMode' is passed by reference and changed when the filter is deleted Gui::Selection().addSelectionGate(new ShapeSelection(selectionMode, editedObject.get())); selectionMode = InitFace; } void FillingPanel::onButtonEdgeAddToggled(bool checked) { if (checked) { // 'selectionMode' is passed by reference and changed when the filter is deleted Gui::Selection().addSelectionGate(new ShapeSelection(selectionMode, editedObject.get())); selectionMode = AppendEdge; } else if (selectionMode == AppendEdge) { exitSelectionMode(); } } void FillingPanel::onButtonEdgeRemoveToggled(bool checked) { if (checked) { // 'selectionMode' is passed by reference and changed when the filter is deleted Gui::Selection().addSelectionGate(new ShapeSelection(selectionMode, editedObject.get())); selectionMode = RemoveEdge; } else if (selectionMode == RemoveEdge) { exitSelectionMode(); } } void FillingPanel::onListBoundaryItemDoubleClicked(QListWidgetItem* item) { Gui::Selection().clearSelection(); Gui::Selection().rmvSelectionGate(); selectionMode = None; ui->comboBoxFaces->clear(); ui->comboBoxCont->clear(); if (item) { QList data; data = item->data(Qt::UserRole).toList(); try { App::Document* doc = App::GetApplication().getDocument(data[0].toByteArray()); App::DocumentObject* obj = doc ? doc->getObject(data[1].toByteArray()) : nullptr; if (obj && obj->isDerivedFrom()) { const Part::TopoShape& shape = static_cast(obj)->Shape.getShape(); TopoDS_Shape edge = shape.getSubShape(data[2].toByteArray()); // build up map edge->face TopTools_IndexedMapOfShape faces; TopExp::MapShapes(shape.getShape(), TopAbs_FACE, faces); TopTools_IndexedDataMapOfShapeListOfShape edge2Face; TopExp::MapShapesAndAncestors(shape.getShape(), TopAbs_EDGE, TopAbs_FACE, edge2Face); const TopTools_ListOfShape& adj_faces = edge2Face.FindFromKey(edge); if (adj_faces.Extent() > 0) { int n = adj_faces.Extent(); ui->statusLabel->setText(tr("Edge has %n adjacent faces", nullptr, n)); // fill up the combo boxes modifyBoundary(true); ui->comboBoxFaces->addItem(tr("None"), QByteArray("")); ui->comboBoxCont->addItem(QStringLiteral("C0"), static_cast(GeomAbs_C0)); ui->comboBoxCont->addItem(QStringLiteral("G1"), static_cast(GeomAbs_G1)); ui->comboBoxCont->addItem(QStringLiteral("G2"), static_cast(GeomAbs_G2)); TopTools_ListIteratorOfListOfShape it(adj_faces); for (; it.More(); it.Next()) { const TopoDS_Shape& F = it.Value(); int index = faces.FindIndex(F); QString text = QStringLiteral("Face%1").arg(index); ui->comboBoxFaces->addItem(text, text.toLatin1()); } // activate face and continuity if (data.size() == 5) { int index = ui->comboBoxFaces->findData(data[3]); ui->comboBoxFaces->setCurrentIndex(index); index = ui->comboBoxCont->findData(data[4]); ui->comboBoxCont->setCurrentIndex(index); } } else { ui->statusLabel->setText(tr("Edge has no adjacent faces")); } } Gui::Selection() .addSelection(data[0].toByteArray(), data[1].toByteArray(), data[2].toByteArray()); } catch (...) { } } } void FillingPanel::onSelectionChanged(const Gui::SelectionChanges& msg) { if (selectionMode == None) { return; } if (msg.Type == Gui::SelectionChanges::AddSelection) { checkOpenCommand(); if (selectionMode == InitFace) { Gui::SelectionObject sel(msg); QString text = QStringLiteral("%1.%2").arg( QString::fromUtf8(sel.getObject()->Label.getValue()), QString::fromLatin1(msg.pSubName) ); ui->lineInitFaceName->setText(text); std::vector subList; subList.emplace_back(msg.pSubName); editedObject->InitialFace.setValue(sel.getObject(), subList); // highlight the referenced face std::vector links; links.emplace_back(sel.getObject(), subList); this->vp->highlightReferences(ViewProviderFilling::Face, links, true); Gui::Selection().rmvSelectionGate(); selectionMode = None; } else if (selectionMode == AppendEdge) { QListWidgetItem* item = new QListWidgetItem(ui->listBoundary); ui->listBoundary->addItem(item); Gui::SelectionObject sel(msg); QString text = QStringLiteral("%1.%2").arg( QString::fromUtf8(sel.getObject()->Label.getValue()), QString::fromLatin1(msg.pSubName) ); item->setText(text); QList data; data << QByteArray(msg.pDocName); data << QByteArray(msg.pObjectName); data << QByteArray(msg.pSubName); data << QByteArray(""); data << static_cast(GeomAbs_C0); item->setData(Qt::UserRole, data); auto objects = editedObject->BoundaryEdges.getValues(); std::size_t count = objects.size(); objects.push_back(sel.getObject()); auto element = editedObject->BoundaryEdges.getSubValues(); element.emplace_back(msg.pSubName); editedObject->BoundaryEdges.setValues(objects, element); // extend faces and continuities lists if needed auto faces = editedObject->BoundaryFaces.getValues(); if (count == faces.size()) { faces.emplace_back(); editedObject->BoundaryFaces.setValues(faces); } auto conts = editedObject->BoundaryOrder.getValues(); if (count == conts.size()) { conts.push_back(static_cast(GeomAbs_C0)); editedObject->BoundaryOrder.setValues(conts); } this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), true ); } else if (selectionMode == RemoveEdge) { Gui::SelectionObject sel(msg); QList data; data << QByteArray(msg.pDocName); data << QByteArray(msg.pObjectName); data << QByteArray(msg.pSubName); // only the three first elements must match for (int i = 0; i < ui->listBoundary->count(); i++) { QListWidgetItem* item = ui->listBoundary->item(i); QList userdata = item->data(Qt::UserRole).toList(); if (userdata.mid(0, 3) == data) { ui->listBoundary->takeItem(i); delete item; break; } } this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), false ); App::DocumentObject* obj = sel.getObject(); std::string sub = msg.pSubName; auto objects = editedObject->BoundaryEdges.getValues(); auto element = editedObject->BoundaryEdges.getSubValues(); auto it = objects.begin(); auto jt = element.begin(); for (; it != objects.end() && jt != element.end(); ++it, ++jt) { if (*it == obj && *jt == sub) { std::size_t index = std::distance(objects.begin(), it); objects.erase(it); element.erase(jt); editedObject->BoundaryEdges.setValues(objects, element); // try to remove the item also from the faces auto faces = editedObject->BoundaryFaces.getValues(); if (index < faces.size()) { faces.erase(faces.begin() + index); editedObject->BoundaryFaces.setValues(faces); } // try to remove the item also from the orders auto order = editedObject->BoundaryOrder.getValues(); if (index < order.size()) { order.erase(order.begin() + index); editedObject->BoundaryOrder.setValues(order); } break; } } this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), true ); } editedObject->recomputeFeature(); QTimer::singleShot(50, this, &FillingPanel::clearSelection); } } void FillingPanel::onDeleteEdge() { int row = ui->listBoundary->currentRow(); QListWidgetItem* item = ui->listBoundary->item(row); if (item) { checkOpenCommand(); QList data; data = item->data(Qt::UserRole).toList(); ui->listBoundary->takeItem(row); delete item; App::Document* doc = App::GetApplication().getDocument(data[0].toByteArray()); App::DocumentObject* obj = doc ? doc->getObject(data[1].toByteArray()) : nullptr; std::string sub = data[2].toByteArray().constData(); auto objects = editedObject->BoundaryEdges.getValues(); auto element = editedObject->BoundaryEdges.getSubValues(); auto it = objects.begin(); auto jt = element.begin(); this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), false ); for (; it != objects.end() && jt != element.end(); ++it, ++jt) { if (*it == obj && *jt == sub) { std::size_t index = std::distance(objects.begin(), it); objects.erase(it); element.erase(jt); editedObject->BoundaryEdges.setValues(objects, element); // try to remove the item also from the faces auto faces = editedObject->BoundaryFaces.getValues(); if (index < faces.size()) { faces.erase(faces.begin() + index); editedObject->BoundaryFaces.setValues(faces); } // try to remove the item also from the orders auto order = editedObject->BoundaryOrder.getValues(); if (index < order.size()) { order.erase(order.begin() + index); editedObject->BoundaryOrder.setValues(order); } break; } } this->vp->highlightReferences( ViewProviderFilling::Edge, editedObject->BoundaryEdges.getSubListValues(), true ); editedObject->recomputeFeature(); } } void FillingPanel::onIndexesMoved() { QAbstractItemModel* model = qobject_cast(sender()); if (!model) { return; } std::vector objects; std::vector element; std::vector faces; std::vector order; int rows = model->rowCount(); for (int i = 0; i < rows; i++) { QModelIndex index = model->index(i, 0); QList data; data = index.data(Qt::UserRole).toList(); App::Document* doc = App::GetApplication().getDocument(data[0].toByteArray()); App::DocumentObject* obj = doc ? doc->getObject(data[1].toByteArray()) : nullptr; std::string sub = data[2].toByteArray().constData(); std::string face = data[3].toByteArray().constData(); long cont = data[4].toInt(); objects.push_back(obj); element.push_back(sub); faces.push_back(face); order.push_back(cont); } editedObject->BoundaryEdges.setValues(objects, element); editedObject->BoundaryFaces.setValues(faces); editedObject->BoundaryOrder.setValues(order); editedObject->recomputeFeature(); } void FillingPanel::onButtonAcceptClicked() { QListWidgetItem* item = ui->listBoundary->currentItem(); if (item) { QList data; data = item->data(Qt::UserRole).toList(); QVariant face = ui->comboBoxFaces->itemData(ui->comboBoxFaces->currentIndex()); QVariant cont = ui->comboBoxCont->itemData(ui->comboBoxCont->currentIndex()); if (data.size() == 5) { data[3] = face; data[4] = cont; } else { data << face; data << cont; } item->setData(Qt::UserRole, data); std::size_t index = ui->listBoundary->row(item); // try to set the item of the faces auto faces = editedObject->BoundaryFaces.getValues(); if (index < faces.size()) { faces[index] = face.toByteArray().data(); editedObject->BoundaryFaces.setValues(faces); } // try to set the item of the orders auto order = editedObject->BoundaryOrder.getValues(); if (index < order.size()) { order[index] = cont.toInt(); editedObject->BoundaryOrder.setValues(order); } } modifyBoundary(false); ui->comboBoxFaces->clear(); ui->comboBoxCont->clear(); ui->statusLabel->clear(); editedObject->recomputeFeature(); } void FillingPanel::onButtonIgnoreClicked() { modifyBoundary(false); ui->comboBoxFaces->clear(); ui->comboBoxCont->clear(); ui->statusLabel->clear(); } void FillingPanel::modifyBoundary(bool on) { ui->buttonInitFace->setDisabled(on); ui->lineInitFaceName->setDisabled(on); ui->buttonEdgeAdd->setDisabled(on); ui->buttonEdgeRemove->setDisabled(on); ui->listBoundary->setDisabled(on); ui->comboBoxFaces->setEnabled(on); ui->comboBoxCont->setEnabled(on); ui->buttonAccept->setEnabled(on); ui->buttonIgnore->setEnabled(on); } void FillingPanel::exitSelectionMode() { // 'selectionMode' is passed by reference to the filter and changed when the filter is deleted Gui::Selection().clearSelection(); Gui::Selection().rmvSelectionGate(); } // ---------------------------------------------------------------------------- TaskFilling::TaskFilling(ViewProviderFilling* vp, Surface::Filling* obj) { // Set up button group buttonGroup = new Gui::ButtonGroup(this); buttonGroup->setExclusive(true); // first task box widget1 = new FillingPanel(vp, obj); widget1->appendButtons(buttonGroup); addTaskBox(Gui::BitmapFactory().pixmap("Surface_Filling"), widget1); // second task box widget2 = new FillingEdgePanel(vp, obj); widget2->appendButtons(buttonGroup); dynamic_cast(addTaskBox(widget2))->hideGroupBox(); // third task box widget3 = new FillingVertexPanel(vp, obj); widget3->appendButtons(buttonGroup); dynamic_cast(addTaskBox(widget3))->hideGroupBox(); } void TaskFilling::setEditedObject(Surface::Filling* obj) { widget1->setEditedObject(obj); } void TaskFilling::open() { widget1->open(); widget2->open(); widget3->open(); } void TaskFilling::closed() { widget1->reject(); } bool TaskFilling::accept() { bool ok = widget1->accept(); if (ok) { widget2->reject(); widget3->reject(); Gui::Command::commitCommand(); Gui::Command::doCommand(Gui::Command::Gui, "Gui.ActiveDocument.resetEdit()"); Gui::Command::updateActive(); } return ok; } bool TaskFilling::reject() { bool ok = widget1->reject(); if (ok) { widget2->reject(); widget3->reject(); Gui::Command::abortCommand(); Gui::Command::doCommand(Gui::Command::Gui, "Gui.ActiveDocument.resetEdit()"); Gui::Command::updateActive(); } return ok; } } // namespace SurfaceGui #include "moc_TaskFilling.cpp"