예제 #1
0
PyObject* SketchObjectPy::addExternal(PyObject *args)
{
    char *ObjectName;
    char *SubName;
    if (!PyArg_ParseTuple(args, "ss:Give an object and subelement name", &ObjectName,&SubName))
        return 0;

    // get the target object for the external link
    Sketcher::SketchObject* skObj = this->getSketchObjectPtr();
    App::DocumentObject * Obj = skObj->getDocument()->getObject(ObjectName);
    if (!Obj) {
        std::stringstream str;
        str << ObjectName << " does not exist in the document";
        PyErr_SetString(PyExc_ValueError, str.str().c_str());
        return 0;
    }
    // check if this type of external geometry is allowed
    if (!skObj->isExternalAllowed(Obj->getDocument(), Obj)) {
        std::stringstream str;
        str << ObjectName << " is not allowed as external geometry of this sketch";
        PyErr_SetString(PyExc_ValueError, str.str().c_str());
        return 0;
    }

    // add the external
    if (skObj->addExternal(Obj,SubName) < 0) {
        std::stringstream str;
        str << "Not able to add external shape element";
        PyErr_SetString(PyExc_ValueError, str.str().c_str());
        return 0;
    }

    Py_Return;
}
void CmdSketcherConnect::activated(int iMsg)
{
    // get the selection
    std::vector<Gui::SelectionObject> selection = getSelection().getSelectionEx();

    // only one sketch with its subelements are allowed to be selected
    if (selection.size() != 1) {
        QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong selection"),
            QObject::tr("Select at least two edges from the sketch."));
        return;
    }

    // get the needed lists and objects
    const std::vector<std::string> &SubNames = selection[0].getSubNames();
    if (SubNames.size() < 2) {
        QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong selection"),
            QObject::tr("Select at least two edges from the sketch."));
        return;
    }
    Sketcher::SketchObject* Obj = dynamic_cast<Sketcher::SketchObject*>(selection[0].getObject());

    // undo command open
    openCommand("add coincident constraint");

    // go through the selected subelements
    for (unsigned int i=0; i<(SubNames.size()-1); i++ ) {
        // only handle edges
        if (SubNames[i].size() > 4 && SubNames[i].substr(0,4) == "Edge" &&
            SubNames[i+1].size() > 4 && SubNames[i+1].substr(0,4) == "Edge"	) {

            int GeoId1 = std::atoi(SubNames[i].substr(4,4000).c_str()) - 1;
            int GeoId2 = std::atoi(SubNames[i+1].substr(4,4000).c_str()) - 1;

            const Part::Geometry *geo1 = Obj->getGeometry(GeoId1);
            const Part::Geometry *geo2 = Obj->getGeometry(GeoId2);
            if ((geo1->getTypeId() != Part::GeomLineSegment::getClassTypeId() &&
                geo1->getTypeId() != Part::GeomArcOfCircle::getClassTypeId()) ||
                (geo2->getTypeId() != Part::GeomLineSegment::getClassTypeId() &&
                geo2->getTypeId() != Part::GeomArcOfCircle::getClassTypeId())) {
                QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Impossible constraint"),
                      QObject::tr("One selected edge is not connectable"));
                abortCommand();
                return;
            }

            Gui::Command::doCommand(
                Doc,"App.ActiveDocument.%s.addConstraint(Sketcher.Constraint('Coincident',%d,%d,%d,%d)) ",
                selection[0].getFeatName(),GeoId1,Sketcher::end,GeoId2,Sketcher::start);
        }
    }

    // finish the transaction and update
    commitCommand();
    updateActive();

    // clear the selection (convenience)
    getSelection().clearSelection();
}
예제 #3
0
void CmdSketcherIncreaseDegree::activated(int iMsg)
{
    Q_UNUSED(iMsg);

    // get the selection
    std::vector<Gui::SelectionObject> selection;
    selection = getSelection().getSelectionEx(0, Sketcher::SketchObject::getClassTypeId());

    // only one sketch with its subelements are allowed to be selected
    if (selection.size() != 1) {
        return;
    }

    // get the needed lists and objects
    const std::vector<std::string> &SubNames = selection[0].getSubNames();
    Sketcher::SketchObject* Obj = static_cast<Sketcher::SketchObject*>(selection[0].getObject());

    openCommand("Increase degree");
    
    bool ignored=false;

    for (unsigned int i=0; i<SubNames.size(); i++ ) {
        // only handle edges
        if (SubNames[i].size() > 4 && SubNames[i].substr(0,4) == "Edge") {

            int GeoId = std::atoi(SubNames[i].substr(4,4000).c_str()) - 1;

            const Part::Geometry * geo = Obj->getGeometry(GeoId);

            if (geo->getTypeId() == Part::GeomBSplineCurve::getClassTypeId()) {

                Gui::Command::doCommand(
                    Doc,"App.ActiveDocument.%s.increaseBSplineDegree(%d) ",
                                        selection[0].getFeatName(),GeoId);

                // add new control points
                Gui::Command::doCommand(Gui::Command::Doc,
                                        "App.ActiveDocument.%s.exposeInternalGeometry(%d)",
                                        selection[0].getFeatName(),
                                        GeoId);
            }
            else {
                ignored=true;
            }
        }
    }

    if(ignored) {
        QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong selection"),
                             QObject::tr("At least one of the selected objects was not a B-Spline and was ignored."));
    }

    commitCommand();

    tryAutoRecomputeIfNotSolve(Obj);

    getSelection().clearSelection();
}
예제 #4
0
void CmdSketcherEditSketch::activated(int iMsg)
{
    Gui::SelectionFilter SketchFilter("SELECT Sketcher::SketchObject COUNT 1");

    if (SketchFilter.match()) {
        Sketcher::SketchObject *Sketch = static_cast<Sketcher::SketchObject*>(SketchFilter.Result[0][0].getObject());
        openCommand("Edit Sketch");
        doCommand(Gui,"Gui.activeDocument().setEdit('%s')",Sketch->getNameInDocument());
    }
}
예제 #5
0
void CmdSketcherMergeSketches::activated(int iMsg)
{
    std::vector<Gui::SelectionObject> selection = getSelection().getSelectionEx(0, Sketcher::SketchObject::getClassTypeId());
    if (selection.size() < 2) {
        QMessageBox::warning(Gui::getMainWindow(),
                             qApp->translate("CmdSketcherMergeSketches", "Wrong selection"),
                             qApp->translate("CmdSketcherMergeSketches", "Select at least two sketches, please."));
        return;
    }

    App::Document* doc = App::GetApplication().getActiveDocument();

    // create Sketch 
    std::string FeatName = getUniqueObjectName("Sketch");

    openCommand("Create a merge Sketch");
    doCommand(Doc,"App.activeDocument().addObject('Sketcher::SketchObject','%s')",FeatName.c_str());

    Sketcher::SketchObject* mergesketch = static_cast<Sketcher::SketchObject*>(doc->getObject(FeatName.c_str()));

    int baseGeometry=0;
    int baseConstraints=0;

    for (std::vector<Gui::SelectionObject>::const_iterator it=selection.begin(); it != selection.end(); ++it) {
        const Sketcher::SketchObject* Obj = static_cast<const Sketcher::SketchObject*>((*it).getObject());
        int addedGeometries=mergesketch->addGeometry(Obj->getInternalGeometry());

        int addedConstraints=mergesketch->addConstraints(Obj->Constraints.getValues());

        for(int i=0; i<=(addedConstraints-baseConstraints); i++){
            Sketcher::Constraint * constraint= mergesketch->Constraints.getValues()[i+baseConstraints];

            if(constraint->First!=Sketcher::Constraint::GeoUndef || constraint->First==-1 || constraint->First==-2) // not x, y axes or origin
                constraint->First+=baseGeometry;
            if(constraint->Second!=Sketcher::Constraint::GeoUndef || constraint->Second==-1 || constraint->Second==-2) // not x, y axes or origin
                constraint->Second+=baseGeometry;
            if(constraint->Third!=Sketcher::Constraint::GeoUndef || constraint->Third==-1 || constraint->Third==-2) // not x, y axes or origin
                constraint->Third+=baseGeometry;
        }

        baseGeometry=addedGeometries+1;
        baseConstraints=addedConstraints+1;
    }

    doCommand(Gui,"App.activeDocument().recompute()");
}
void CmdSketcherSelectConstraints::activated(int iMsg)
{
    // get the selection
    std::vector<Gui::SelectionObject> selection = getSelection().getSelectionEx();
    Sketcher::SketchObject* Obj = dynamic_cast<Sketcher::SketchObject*>(selection[0].getObject());

    // only one sketch with its subelements are allowed to be selected
    if (selection.size() != 1) {
        QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong selection"),
            QObject::tr("Select elements from a single sketch."));
        return;
    }

    // get the needed lists and objects
    const std::vector<std::string> &SubNames = selection[0].getSubNames();
    const std::vector< Sketcher::Constraint * > &vals = Obj->Constraints.getValues();
    
    std::string doc_name = Obj->getDocument()->getName();
    std::string obj_name = Obj->getNameInDocument();
    std::stringstream ss;
    
    getSelection().clearSelection();
    
    // go through the selected subelements
    for (std::vector<std::string>::const_iterator it=SubNames.begin(); it != SubNames.end(); ++it) {
        // only handle edges
        if (it->size() > 4 && it->substr(0,4) == "Edge") {
            int GeoId = std::atoi(it->substr(4,4000).c_str()) - 1;
            
            // push all the constraints
            int i=1;
            for (std::vector< Sketcher::Constraint * >::const_iterator it= vals.begin();
                 it != vals.end(); ++it,++i) {
                if ( (*it)->First == GeoId || (*it)->Second == GeoId || (*it)->Third == GeoId){
                  ss.str(std::string());
                  ss << "Constraint" << i;
                  Gui::Selection().addSelection(doc_name.c_str(), obj_name.c_str(), ss.str().c_str());
                }
            }
        }
    }
}
void TaskGrooveParameters::onAxisChanged(int num)
{
    PartDesign::Groove* pcGroove = static_cast<PartDesign::Groove*>(GrooveView->getObject());
    Sketcher::SketchObject *pcSketch = static_cast<Sketcher::SketchObject*>(pcGroove->Sketch.getValue());
    if (pcSketch) {
        int maxcount = pcSketch->getAxisCount()+2;
        if (num == 0)
            pcGroove->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,"V_Axis"));
        else if (num == 1)
            pcGroove->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();
            pcGroove->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,str));
        }
        if (num < maxcount && ui->axis->count() > maxcount)
            ui->axis->setMaxCount(maxcount);
    }
    if (updateView())
        pcGroove->getDocument()->recomputeFeature(pcGroove);
}
예제 #8
0
void TaskGrooveParameters::onAxisChanged(int num)
{
    PartDesign::Groove* pcGroove = static_cast<PartDesign::Groove*>(GrooveView->getObject());
    Sketcher::SketchObject *pcSketch = static_cast<Sketcher::SketchObject*>(pcGroove->Sketch.getValue());
    if (pcSketch) {
        App::DocumentObject *oldRefAxis = pcGroove->ReferenceAxis.getValue();
        std::vector<std::string> oldSubRefAxis = pcGroove->ReferenceAxis.getSubValues();

        int maxcount = pcSketch->getAxisCount()+2;
        if (num == 0)
            pcGroove->ReferenceAxis.setValue(pcSketch, std::vector<std::string>(1,"V_Axis"));
        else if (num == 1)
            pcGroove->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();
            pcGroove->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 = pcGroove->ReferenceAxis.getSubValues();
        if (oldRefAxis != pcSketch ||
            oldSubRefAxis.size() != newSubRefAxis.size() ||
            oldSubRefAxis[0] != newSubRefAxis[0]) {
            bool reversed = pcGroove->suggestReversed();
            if (reversed != pcGroove->Reversed.getValue()) {
                pcGroove->Reversed.setValue(reversed);
                ui->checkBoxReversed->blockSignals(true);
                ui->checkBoxReversed->setChecked(reversed);
                ui->checkBoxReversed->blockSignals(false);
            }
        }
    }
    if (updateView())
        pcGroove->getDocument()->recomputeFeature(pcGroove);
}
예제 #9
0
QString TaskGrooveParameters::getReferenceAxis(void) const
{
    // get the support and Sketch
    PartDesign::Groove* pcGroove = static_cast<PartDesign::Groove*>(GrooveView->getObject());
    Sketcher::SketchObject *pcSketch = static_cast<Sketcher::SketchObject*>(pcGroove->Sketch.getValue());

    QString buf;
    if (pcSketch) {
        buf = QString::fromUtf8("(App.ActiveDocument.%1,[%2])");
        buf = buf.arg(QString::fromUtf8(pcSketch->getNameInDocument()));
        if (ui->axis->currentIndex() == 0)
            buf = buf.arg(QString::fromUtf8("'V_Axis'"));
        else if (ui->axis->currentIndex() == 1)
            buf = buf.arg(QString::fromUtf8("'H_Axis'"));
        else if (ui->axis->currentIndex() >= 2) {
            buf = buf.arg(QString::fromUtf8("'Axis%1'"));
            buf = buf.arg(ui->axis->currentIndex()-2);
        }
    }
    else
        buf = QString::fromUtf8("''");

    return buf;
}
예제 #10
0
void DrawSketchHandler::createAutoConstraints(const std::vector<AutoConstraint> &autoConstrs,
                                              int geoId1, Sketcher::PointPos posId1)
{
    if (!sketchgui->Autoconstraints.getValue())
        return; // If Autoconstraints property is not set quit

    if (autoConstrs.size() > 0) {
        // Open the Command
        Gui::Command::openCommand("Add auto constraints");

        // Iterate through constraints
        std::vector<AutoConstraint>::const_iterator it = autoConstrs.begin();
        for (; it != autoConstrs.end(); ++it) {
            switch (it->Type)
            {
            case Sketcher::Coincident: {
                if (posId1 == Sketcher::none)
                    continue;
                // If the auto constraint has a point create a coincident otherwise it is an edge on a point
                Gui::Command::doCommand(Gui::Command::Doc,"App.ActiveDocument.%s.addConstraint(Sketcher.Constraint('Coincident',%i,%i,%i,%i)) "
                                        ,sketchgui->getObject()->getNameInDocument()
                                        ,geoId1, posId1, it->GeoId, it->PosId
                                        );
                } break;
            case Sketcher::PointOnObject: {
                int geoId2 = it->GeoId;
                Sketcher::PointPos posId2 = it->PosId;
                if (posId1 == Sketcher::none) {
                    // Auto constraining an edge so swap parameters
                    std::swap(geoId1,geoId2);
                    std::swap(posId1,posId2);
                }

                Gui::Command::doCommand(Gui::Command::Doc,"App.ActiveDocument.%s.addConstraint(Sketcher.Constraint('PointOnObject',%i,%i,%i)) "
                                        ,sketchgui->getObject()->getNameInDocument()
                                        ,geoId1, posId1, geoId2
                                       );
                } break;
            case Sketcher::Horizontal: {
                
                bool start_external;
                bool mid_external;
                bool end_external;
                
                static_cast<Sketcher::SketchObject*>((sketchgui->getObject()))->isCoincidentWithExternalGeometry(geoId1, start_external, mid_external, end_external);
                
                if( !(start_external && end_external) ) {
                    Gui::Command::doCommand(Gui::Command::Doc,"App.ActiveDocument.%s.addConstraint(Sketcher.Constraint('Horizontal',%i)) "
                    ,sketchgui->getObject()->getNameInDocument()
                    ,geoId1
                    );
                }

                } break;
            case Sketcher::Vertical: {
                
                bool start_external;
                bool mid_external;
                bool end_external;
                
                static_cast<Sketcher::SketchObject*>((sketchgui->getObject()))->isCoincidentWithExternalGeometry(geoId1, start_external, mid_external, end_external);
                
                if( !(start_external && end_external) ) {
                    Gui::Command::doCommand(Gui::Command::Doc,"App.ActiveDocument.%s.addConstraint(Sketcher.Constraint('Vertical',%i)) "
                    ,sketchgui->getObject()->getNameInDocument()
                    ,geoId1
                    );
                }
                
                } break;
            case Sketcher::Tangent: {
                Sketcher::SketchObject* Obj = static_cast<Sketcher::SketchObject*>(sketchgui->getObject());
                
                const Part::Geometry *geom1 = Obj->getGeometry(geoId1);
                const Part::Geometry *geom2 = Obj->getGeometry(it->GeoId);
                
                int geoId2 = it->GeoId;
                
                // ellipse tangency support using construction elements (lines)
                if( geom1 && geom2 && 
                    ( geom1->getTypeId() == Part::GeomEllipse::getClassTypeId() ||
                    geom2->getTypeId() == Part::GeomEllipse::getClassTypeId() )){
                    
                    if(geom1->getTypeId() != Part::GeomEllipse::getClassTypeId())
                        std::swap(geoId1,geoId2);
            
                    // geoId1 is the ellipse
                    geom1 = Obj->getGeometry(geoId1);
                    geom2 = Obj->getGeometry(geoId2);                
            
                    if( geom2->getTypeId() == Part::GeomEllipse::getClassTypeId() ||
                        geom2->getTypeId() == Part::GeomArcOfEllipse::getClassTypeId() ||
                        geom2->getTypeId() == Part::GeomCircle::getClassTypeId() ||
                        geom2->getTypeId() == Part::GeomArcOfCircle::getClassTypeId() ) {
                        // in all these cases an intermediate element is needed
                        makeTangentToEllipseviaNewPoint(Obj,geom1,geom2,geoId1,geoId2);
                        return;
                    }
                }
                
                // arc of ellipse tangency support using external elements
                if( geom1 && geom2 && 
                    ( geom1->getTypeId() == Part::GeomArcOfEllipse::getClassTypeId() ||
                    geom2->getTypeId() == Part::GeomArcOfEllipse::getClassTypeId() )){
                    
                    if(geom1->getTypeId() != Part::GeomArcOfEllipse::getClassTypeId())
                        std::swap(geoId1,geoId2);
            
                    // geoId1 is the arc of ellipse
                    geom1 = Obj->getGeometry(geoId1);
                    geom2 = Obj->getGeometry(geoId2);                
            
                    if( geom2->getTypeId() == Part::GeomArcOfEllipse::getClassTypeId() ||
                        geom2->getTypeId() == Part::GeomCircle::getClassTypeId() ||
                        geom2->getTypeId() == Part::GeomArcOfCircle::getClassTypeId() ) {
                        // in all these cases an intermediate element is needed
                        makeTangentToArcOfEllipseviaNewPoint(Obj,geom1,geom2,geoId1,geoId2);
                        return;
                    }
                }
            
                Gui::Command::doCommand(Gui::Command::Doc,"App.ActiveDocument.%s.addConstraint(Sketcher.Constraint('Tangent',%i, %i)) "
                                        ,sketchgui->getObject()->getNameInDocument()
                                        ,geoId1, it->GeoId
                                       );
                } break;
            default:
                break;
            }

            Gui::Command::commitCommand();
            //Gui::Command::updateActive(); // There is already an recompute in each command creation, this is redundant.
        }
    }
}
예제 #11
0
void CmdSketcherNewSketch::activated(int iMsg)
{
    Gui::SelectionFilter SketchFilter("SELECT Sketcher::SketchObject COUNT 1");
    Gui::SelectionFilter FaceFilter  ("SELECT Part::Feature SUBELEMENT Face COUNT 1");

    if (SketchFilter.match()) {
        Sketcher::SketchObject *Sketch = static_cast<Sketcher::SketchObject*>(SketchFilter.Result[0][0].getObject());
        openCommand("Edit Sketch");
        doCommand(Gui,"Gui.activeDocument().setEdit('%s')",Sketch->getNameInDocument());
    }
    else if (FaceFilter.match()) {
        // get the selected object
        Part::Feature *part = static_cast<Part::Feature*>(FaceFilter.Result[0][0].getObject());
        Base::Placement ObjectPos = part->Placement.getValue();
        const std::vector<std::string> &sub = FaceFilter.Result[0][0].getSubNames();
        if (sub.size() > 1){
            // No assert for wrong user input!
            QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Several sub-elements selected"),
                QObject::tr("You have to select a single face as support for a sketch!"));
            return;
        }
        // get the selected sub shape (a Face)
        const Part::TopoShape &shape = part->Shape.getValue();
        TopoDS_Shape sh = shape.getSubShape(sub[0].c_str());
        const TopoDS_Face& face = TopoDS::Face(sh);
        if (face.IsNull()){
            // No assert for wrong user input!
            QMessageBox::warning(Gui::getMainWindow(), QObject::tr("No support face selected"),
                QObject::tr("You have to select a face as support for a sketch!"));
            return;
        }

        BRepAdaptor_Surface adapt(face);
        if (adapt.GetType() != GeomAbs_Plane){
            QMessageBox::warning(Gui::getMainWindow(), QObject::tr("No planar support"),
                QObject::tr("You need a planar face as support for a sketch!"));
            return;
        }

        std::string supportString = FaceFilter.Result[0][0].getAsPropertyLinkSubString();

        // create Sketch on Face
        std::string FeatName = getUniqueObjectName("Sketch");

        openCommand("Create a Sketch on Face");
        doCommand(Doc,"App.activeDocument().addObject('Sketcher::SketchObject','%s')",FeatName.c_str());
        doCommand(Gui,"App.activeDocument().%s.Support = %s",FeatName.c_str(),supportString.c_str());
        doCommand(Gui,"App.activeDocument().recompute()");  // recompute the sketch placement based on its support
        //doCommand(Gui,"Gui.activeDocument().activeView().setCamera('%s')",cam.c_str());
        doCommand(Gui,"Gui.activeDocument().setEdit('%s')",FeatName.c_str());
    }
    else {
        // ask user for orientation
        SketchOrientationDialog Dlg;

        if (Dlg.exec() != QDialog::Accepted)
            return; // canceled
        Base::Vector3d p = Dlg.Pos.getPosition();
        Base::Rotation r = Dlg.Pos.getRotation();

        // do the right view direction
        std::string camstring;
        switch(Dlg.DirType){
            case 0:
                camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA \\n position 0 0 87 \\n orientation 0 0 1  0 \\n nearDistance -112.88701 \\n farDistance 287.28702 \\n aspectRatio 1 \\n focalDistance 87 \\n height 143.52005 }";
                break;
            case 1:
                camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA \\n position 0 0 -87 \\n orientation -1 0 0  3.1415927 \\n nearDistance -112.88701 \\n farDistance 287.28702 \\n aspectRatio 1 \\n focalDistance 87 \\n height 143.52005 }";
                break;
            case 2:
                camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n  position 0 -87 0 \\n  orientation -1 0 0  4.712389\\n  nearDistance -112.88701\\n  farDistance 287.28702\\n  aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
                break;
            case 3:
                camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n  position 0 87 0 \\n  orientation 0 0.70710683 0.70710683  3.1415927\\n  nearDistance -112.88701\\n  farDistance 287.28702\\n  aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
                break;
            case 4:
                camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n  position 87 0 0 \\n  orientation 0.57735026 0.57735026 0.57735026  2.0943952 \\n  nearDistance -112.887\\n  farDistance 287.28699\\n  aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
                break;
            case 5:
                camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n  position -87 0 0 \\n  orientation -0.57735026 0.57735026 0.57735026  4.1887903 \\n  nearDistance -112.887\\n  farDistance 287.28699\\n  aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
                break;
        }
        std::string FeatName = getUniqueObjectName("Sketch");

        openCommand("Create a new Sketch");
        doCommand(Doc,"App.activeDocument().addObject('Sketcher::SketchObject','%s')",FeatName.c_str());
        doCommand(Doc,"App.activeDocument().%s.Placement = App.Placement(App.Vector(%f,%f,%f),App.Rotation(%f,%f,%f,%f))",FeatName.c_str(),p.x,p.y,p.z,r[0],r[1],r[2],r[3]);
        doCommand(Gui,"Gui.activeDocument().activeView().setCamera('%s')",camstring.c_str());
        doCommand(Gui,"Gui.activeDocument().setEdit('%s')",FeatName.c_str());
    }

}
예제 #12
0
void CmdSketcherReorientSketch::activated(int iMsg)
{
    Sketcher::SketchObject* sketch = Gui::Selection().getObjectsOfType<Sketcher::SketchObject>().front();
    if (sketch->Support.getValue()) {
        int ret = QMessageBox::question(Gui::getMainWindow(),
            qApp->translate("Sketcher_ReorientSketch","Sketch has support"),
            qApp->translate("Sketcher_ReorientSketch","Sketch with a support face cannot be reoriented.\n"
                                                      "Do you want to detach it from the support?"),
            QMessageBox::Yes|QMessageBox::No);
        if (ret == QMessageBox::No)
            return;
        sketch->Support.setValue(0);
    }

    // ask user for orientation
    SketchOrientationDialog Dlg;

    if (Dlg.exec() != QDialog::Accepted)
        return; // canceled
    Base::Vector3d p = Dlg.Pos.getPosition();
    Base::Rotation r = Dlg.Pos.getRotation();

    // do the right view direction
    std::string camstring;
    switch(Dlg.DirType){
        case 0:
            camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA \\n "
                "position 0 0 87 \\n orientation 0 0 1  0 \\n nearDistance -112.88701 \\n farDistance 287.28702 \\n "
                "aspectRatio 1 \\n focalDistance 87 \\n height 143.52005 }";
            break;
        case 1:
            camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA \\n "
                "position 0 0 -87 \\n orientation -1 0 0  3.1415927 \\n nearDistance -112.88701 \\n farDistance 287.28702 \\n "
                "aspectRatio 1 \\n focalDistance 87 \\n height 143.52005 }";
            break;
        case 2:
            camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n "
                "position 0 -87 0 \\n  orientation -1 0 0  4.712389\\n  nearDistance -112.88701\\n  farDistance 287.28702\\n "
                "aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
            break;
        case 3:
            camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n "
                "position 0 87 0 \\n  orientation 0 0.70710683 0.70710683  3.1415927\\n  nearDistance -112.88701\\n  farDistance 287.28702\\n "
                "aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
            break;
        case 4:
            camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n "
                "position 87 0 0 \\n  orientation 0.57735026 0.57735026 0.57735026  2.0943952 \\n  nearDistance -112.887\\n  farDistance 287.28699\\n "
                "aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
            break;
        case 5:
            camstring = "#Inventor V2.1 ascii \\n OrthographicCamera {\\n viewportMapping ADJUST_CAMERA\\n "
                "position -87 0 0 \\n  orientation -0.57735026 0.57735026 0.57735026  4.1887903 \\n  nearDistance -112.887\\n  farDistance 287.28699\\n "
                "aspectRatio 1\\n  focalDistance 87\\n  height 143.52005\\n\\n}";
            break;
    }

    openCommand("Reorient Sketch");
    doCommand(Doc,"App.ActiveDocument.%s.Placement = App.Placement(App.Vector(%f,%f,%f),App.Rotation(%f,%f,%f,%f))"
                 ,sketch->getNameInDocument(),p.x,p.y,p.z,r[0],r[1],r[2],r[3]);
    doCommand(Gui,"Gui.ActiveDocument.setEdit('%s')",sketch->getNameInDocument());
}
예제 #13
0
void CmdSketcherDecreaseKnotMultiplicity::activated(int iMsg)
{
    Q_UNUSED(iMsg);
    
    #if OCC_VERSION_HEX < 0x060900
    QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong OCE/OCC version"),
                         QObject::tr("This version of OCE/OCC does not support knot operation. You need 6.9.0 or higher"));
    return;
    #endif
    
    // get the selection
    std::vector<Gui::SelectionObject> selection;
    selection = getSelection().getSelectionEx(0, Sketcher::SketchObject::getClassTypeId());

    // only one sketch with its subelements are allowed to be selected
    if (selection.size() != 1) {
        return;
    }
    
    // get the needed lists and objects
    const std::vector<std::string> &SubNames = selection[0].getSubNames();
    
    if(SubNames.size()>1) {
        // Check that only one object is selected, as we need only one object to get the new GeoId after multiplicity change
        QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong selection"),
                             QObject::tr("The selection comprises more than one item. Please select just one knot."));
        return;
    }
    
    Sketcher::SketchObject* Obj = static_cast<Sketcher::SketchObject*>(selection[0].getObject());
    
    openCommand("Decrease knot multiplicity");
    
    bool applied = false;
    bool notaknot = true;
    
    boost::uuids::uuid bsplinetag;
    
    int GeoId;
    Sketcher::PointPos PosId;
    getIdsFromName(SubNames[0], Obj, GeoId, PosId);
    
    if(isSimpleVertex(Obj, GeoId, PosId)) {
        
        const std::vector< Sketcher::Constraint * > &vals = Obj->Constraints.getValues();
        
        for (std::vector< Sketcher::Constraint * >::const_iterator it= vals.begin(); it != vals.end(); ++it) {
            if((*it)->Type == Sketcher::InternalAlignment && (*it)->First == GeoId && (*it)->AlignmentType == Sketcher::BSplineKnotPoint)
            {
                bsplinetag = Obj->getGeometry((*it)->Second)->getTag();
                
                notaknot = false;
                
                try {
                    Gui::Command::doCommand(
                        Doc,"App.ActiveDocument.%s.modifyBSplineKnotMultiplicity(%d,%d,%d) ",
                                            selection[0].getFeatName(),(*it)->Second, (*it)->InternalAlignmentIndex + 1, -1);
                    
                    applied = true;
                    
                    // Warning: GeoId list might have changed as the consequence of deleting pole circles and
                    // particularly B-spline GeoID might have changed.
                    
                }
                catch (const Base::Exception& e) {
                    QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Error"),
                                         QObject::tr(getStrippedPythonExceptionString(e).c_str()));
                    getSelection().clearSelection();
                }
                
                break; // we have already found our knot.
                
            }
        }
        
    }
    
    if(notaknot){
        QMessageBox::warning(Gui::getMainWindow(), QObject::tr("Wrong selection"),
                             QObject::tr("None of the selected elements is a knot of a B-spline"));
    }    
    
    if(applied)
    {
        // find new geoid for B-spline as GeoId might have changed
        const std::vector< Part::Geometry * > &gvals = Obj->getInternalGeometry();
        
        int ngeoid = 0;
        bool ngfound = false;
        
        for (std::vector<Part::Geometry *>::const_iterator geo = gvals.begin(); geo != gvals.end(); geo++, ngeoid++) {
            if ((*geo) && (*geo)->getTag() == bsplinetag) {
                ngfound = true;
                break;
            }
        }
            

        if(ngfound) {
            try {
                // add internalalignment for new pole
                Gui::Command::doCommand(Gui::Command::Doc,
                                        "App.ActiveDocument.%s.exposeInternalGeometry(%d)",
                                        selection[0].getFeatName(),
                                        ngeoid);
            }
            catch (const Base::Exception& e) {
                Base::Console().Error("%s\n", e.what());
                getSelection().clearSelection();
            }

        }
    }
    
    if(!applied) {
        abortCommand();
    }
    else {
        commitCommand();
    }

    tryAutoRecomputeIfNotSolve(Obj);

    getSelection().clearSelection();
}
예제 #14
0
void CmdSketcherMirrorSketch::activated(int iMsg)
{
    std::vector<Gui::SelectionObject> selection = getSelection().getSelectionEx(0, Sketcher::SketchObject::getClassTypeId());
    if (selection.size() < 1) {
        QMessageBox::warning(Gui::getMainWindow(),
            qApp->translate("CmdSketcherMirrorSketch", "Wrong selection"),
            qApp->translate("CmdSketcherMirrorSketch", "Select one or more sketches, please."));
        return;
    }
    
    // Ask the user which kind of mirroring he wants
    SketchMirrorDialog * smd = new SketchMirrorDialog();
    
    int refgeoid=-1;
    Sketcher::PointPos refposid=Sketcher::none;
    
    if( smd->exec() == QDialog::Accepted ){
        refgeoid=smd->RefGeoid;
        refposid=smd->RefPosid;
        
        delete smd;
    }
    else {
        delete smd;
        return;
    }
    
    App::Document* doc = App::GetApplication().getActiveDocument();
    
    openCommand("Create a mirror Sketch for each sketch");
    
    for (std::vector<Gui::SelectionObject>::const_iterator it=selection.begin(); it != selection.end(); ++it) {
        // create Sketch 
        std::string FeatName = getUniqueObjectName("MirroredSketch");
        
        doCommand(Doc,"App.activeDocument().addObject('Sketcher::SketchObject','%s')",FeatName.c_str());
        
        Sketcher::SketchObject* mirrorsketch = static_cast<Sketcher::SketchObject*>(doc->getObject(FeatName.c_str()));       
        
        const Sketcher::SketchObject* Obj = static_cast<const Sketcher::SketchObject*>((*it).getObject());
        
        Base::Placement pl = Obj->Placement.getValue();
        
        Base::Vector3d p = pl.getPosition();
        Base::Rotation r = pl.getRotation();
        
        doCommand(Doc,"App.activeDocument().%s.Placement = App.Placement(App.Vector(%f,%f,%f),App.Rotation(%f,%f,%f,%f))",
                  FeatName.c_str(),
                  p.x,p.y,p.z,r[0],r[1],r[2],r[3]);
        
        Sketcher::SketchObject* tempsketch = new Sketcher::SketchObject();
        
        int addedGeometries=tempsketch->addGeometry(Obj->getInternalGeometry());
        
        int addedConstraints=tempsketch->addConstraints(Obj->Constraints.getValues());

        std::vector<int> geoIdList;
        
        for(int i=0;i<=addedGeometries;i++)
            geoIdList.push_back(i);
        
        tempsketch->addSymmetric(geoIdList, refgeoid, refposid);
                
        std::vector<Part::Geometry *> tempgeo = tempsketch->getInternalGeometry();
        std::vector<Sketcher::Constraint *> tempconstr = tempsketch->Constraints.getValues();

        std::vector<Part::Geometry *> mirrorgeo (tempgeo.begin()+addedGeometries+1,tempgeo.end());
        std::vector<Sketcher::Constraint *> mirrorconstr (tempconstr.begin()+addedConstraints+1,tempconstr.end());
        
        for(std::vector<Sketcher::Constraint *>::const_iterator itc=mirrorconstr.begin(); itc != mirrorconstr.end(); ++itc) {
 
            if((*itc)->First!=Sketcher::Constraint::GeoUndef || (*itc)->First==-1 || (*itc)->First==-2) // not x, y axes or origin
                (*itc)->First-=(addedGeometries+1);
            if((*itc)->Second!=Sketcher::Constraint::GeoUndef || (*itc)->Second==-1 || (*itc)->Second==-2) // not x, y axes or origin
                (*itc)->Second-=(addedGeometries+1);
            if((*itc)->Third!=Sketcher::Constraint::GeoUndef || (*itc)->Third==-1 || (*itc)->Third==-2) // not x, y axes or origin
                (*itc)->Third-=(addedGeometries+1);
        }
        
        mirrorsketch->addGeometry(mirrorgeo);
        mirrorsketch->addConstraints(mirrorconstr);
        
        delete tempsketch;
    }
    
    doCommand(Gui,"App.activeDocument().recompute()");
    
}