void TaskRevolutionParameters::onUpdateView(bool on) { if (on) { PartDesign::Revolution* pcRevolution = static_cast<PartDesign::Revolution*>(RevolutionView->getObject()); pcRevolution->getDocument()->recomputeFeature(pcRevolution); } }
void TaskRevolutionParameters::onReversed(bool on) { PartDesign::Revolution* pcRevolution = static_cast<PartDesign::Revolution*>(RevolutionView->getObject()); pcRevolution->Reversed.setValue(on); if (updateView()) pcRevolution->getDocument()->recomputeFeature(pcRevolution); }
void TaskRevolutionParameters::onAngleChanged(double len) { PartDesign::Revolution* pcRevolution = static_cast<PartDesign::Revolution*>(RevolutionView->getObject()); pcRevolution->Angle.setValue((float)len); if (updateView()) pcRevolution->getDocument()->recomputeFeature(pcRevolution); }
void TaskRevolutionParameters::onAxisChanged(int num) { PartDesign::Revolution* pcRevolution = static_cast<PartDesign::Revolution*>(RevolutionView->getObject()); Sketcher::SketchObject *pcSketch = static_cast<Sketcher::SketchObject*>(pcRevolution->Sketch.getValue()); if (pcSketch) { int maxcount = pcSketch->getAxisCount()+2; if (num == 0) pcRevolution->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,"V_Axis")); else if (num == 1) pcRevolution->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,"H_Axis")); else if (num >= 2 && num < maxcount) { QString buf = QString::fromUtf8("Axis%1").arg(num-2); std::string str = buf.toStdString(); pcRevolution->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,str)); } if (num < maxcount && ui->axis->count() > maxcount) ui->axis->setMaxCount(maxcount); } if (updateView()) pcRevolution->getDocument()->recomputeFeature(pcRevolution); }
void TaskRevolutionParameters::onAxisChanged(int num) { PartDesign::Revolution* pcRevolution = static_cast<PartDesign::Revolution*>(RevolutionView->getObject()); Sketcher::SketchObject *pcSketch = static_cast<Sketcher::SketchObject*>(pcRevolution->Sketch.getValue()); if (pcSketch) { App::DocumentObject *oldRefAxis = pcRevolution->ReferenceAxis.getValue(); std::vector<std::string> oldSubRefAxis = pcRevolution->ReferenceAxis.getSubValues(); int maxcount = pcSketch->getAxisCount()+2; if (num == 0) pcRevolution->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,"V_Axis")); else if (num == 1) pcRevolution->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,"H_Axis")); else if (num >= 2 && num < maxcount) { QString buf = QString::fromUtf8("Axis%1").arg(num-2); std::string str = buf.toStdString(); pcRevolution->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,str)); } if (num < maxcount && ui->axis->count() > maxcount) ui->axis->setMaxCount(maxcount); const std::vector<std::string> &newSubRefAxis = pcRevolution->ReferenceAxis.getSubValues(); if (oldRefAxis != pcSketch || oldSubRefAxis.size() != newSubRefAxis.size() || oldSubRefAxis[0] != newSubRefAxis[0]) { bool reversed = pcRevolution->suggestReversed(); if (reversed != pcRevolution->Reversed.getValue()) { pcRevolution->Reversed.setValue(reversed); ui->checkBoxReversed->blockSignals(true); ui->checkBoxReversed->setChecked(reversed); ui->checkBoxReversed->blockSignals(false); } } } if (updateView()) pcRevolution->getDocument()->recomputeFeature(pcRevolution); }