SbBox3f ViewProviderDatum::getRelevantBoundBox () const {
std::vector<App::DocumentObject *> objs;
// Probe body first
PartDesign::Body* body = PartDesign::Body::findBodyOf ( this->getObject() );
if (body) {
objs = body->getFullModel ();
} else {
// Probe if we belongs to some group
App::DocumentObjectGroup* group = App::DocumentObjectGroup::getGroupOfObject ( this->getObject () );
if(group) {
objs = group->getObjects ();
} else {
// Fallback to whole document
objs = this->getObject ()->getDocument ()->getObjects ();
}
}
Gui::View3DInventorViewer* viewer = static_cast<Gui::View3DInventor*>(this->getActiveView())->getViewer();
SoGetBoundingBoxAction bboxAction(viewer->getSoRenderManager()->getViewportRegion());
SbBox3f bbox = getRelevantBoundBox (bboxAction, objs);
if ( bbox.getVolume () < Precision::Confusion() ) {
bbox.extendBy ( defaultBoundBox () );
}
return bbox;
}
void ViewProviderDocumentObjectGroup::drop(const std::vector<const App::DocumentObject*> &objList,Qt::KeyboardModifiers keys,Qt::MouseButtons mouseBts,const QPoint &pos)
{
// Open command
App::DocumentObjectGroup* grp = static_cast<App::DocumentObjectGroup*>(getObject());
App::Document* doc = grp->getDocument();
Gui::Document* gui = Gui::Application::Instance->getDocument(doc);
gui->openCommand("Move object");
for( std::vector<const App::DocumentObject*>::const_iterator it = objList.begin();it!=objList.end();++it) {
// get document object
const App::DocumentObject* obj = *it;
const App::DocumentObjectGroup* par = App::DocumentObjectGroup::getGroupOfObject(obj);
if (par) {
// allow an object to be in one group only
QString cmd;
cmd = QString::fromLatin1("App.getDocument(\"%1\").getObject(\"%2\").removeObject("
"App.getDocument(\"%1\").getObject(\"%3\"))")
.arg(QString::fromLatin1(doc->getName()))
.arg(QString::fromLatin1(par->getNameInDocument()))
.arg(QString::fromLatin1(obj->getNameInDocument()));
Gui::Application::Instance->runPythonCode(cmd.toUtf8());
}
// build Python command for execution
QString cmd;
cmd = QString::fromLatin1("App.getDocument(\"%1\").getObject(\"%2\").addObject("
"App.getDocument(\"%1\").getObject(\"%3\"))")
.arg(QString::fromLatin1(doc->getName()))
.arg(QString::fromLatin1(grp->getNameInDocument()))
.arg(QString::fromLatin1(obj->getNameInDocument()));
Gui::Application::Instance->runPythonCode(cmd.toUtf8());
}
gui->commitCommand();
}
void Segmentation::accept()
{
const Mesh::MeshObject* mesh = myMesh->Mesh.getValuePtr();
// make a copy because we might smooth the mesh before
MeshCore::MeshKernel kernel = mesh->getKernel();
if (ui->checkBoxSmooth->isChecked()) {
MeshCore::LaplaceSmoothing smoother(kernel);
smoother.Smooth(ui->smoothSteps->value());
}
MeshCore::MeshSegmentAlgorithm finder(kernel);
MeshCore::MeshCurvature meshCurv(kernel);
meshCurv.ComputePerVertex();
std::vector<MeshCore::MeshSurfaceSegment*> segm;
if (ui->groupBoxCyl->isChecked()) {
segm.push_back(new MeshCore::MeshCurvatureCylindricalSegment
(meshCurv.GetCurvature(), ui->numCyl->value(), ui->tol1Cyl->value(), ui->tol2Cyl->value(), ui->radCyl->value().getValue()));
}
if (ui->groupBoxSph->isChecked()) {
segm.push_back(new MeshCore::MeshCurvatureSphericalSegment
(meshCurv.GetCurvature(), ui->numSph->value(), ui->tolSph->value(), ui->radSph->value().getValue()));
}
if (ui->groupBoxPln->isChecked()) {
segm.push_back(new MeshCore::MeshCurvaturePlanarSegment
(meshCurv.GetCurvature(), ui->numPln->value(), ui->tolPln->value()));
}
finder.FindSegments(segm);
App::Document* document = App::GetApplication().getActiveDocument();
document->openTransaction("Segmentation");
std::string internalname = "Segments_";
internalname += myMesh->getNameInDocument();
App::DocumentObjectGroup* group = static_cast<App::DocumentObjectGroup*>(document->addObject
("App::DocumentObjectGroup", internalname.c_str()));
std::string labelname = "Segments ";
labelname += myMesh->Label.getValue();
group->Label.setValue(labelname);
for (std::vector<MeshCore::MeshSurfaceSegment*>::iterator it = segm.begin(); it != segm.end(); ++it) {
const std::vector<MeshCore::MeshSegment>& data = (*it)->GetSegments();
for (std::vector<MeshCore::MeshSegment>::const_iterator jt = data.begin(); jt != data.end(); ++jt) {
Mesh::MeshObject* segment = mesh->meshFromSegment(*jt);
Mesh::Feature* feaSegm = static_cast<Mesh::Feature*>(group->addObject("Mesh::Feature", "Segment"));
Mesh::MeshObject* feaMesh = feaSegm->Mesh.startEditing();
feaMesh->swap(*segment);
feaSegm->Mesh.finishEditing();
delete segment;
std::stringstream label;
label << feaSegm->Label.getValue() << " (" << (*it)->GetType() << ")";
feaSegm->Label.setValue(label.str());
}
delete (*it);
}
document->commitTransaction();
}
/**
* Extracts the associated view providers of the objects of the associated object group group.
*/
void ViewProviderDocumentObjectGroup::getViewProviders(std::vector<ViewProviderDocumentObject*>& vp) const
{
App::DocumentObject* doc = getObject();
if (doc->getTypeId().isDerivedFrom(App::DocumentObjectGroup::getClassTypeId())) {
Gui::Document* gd = Application::Instance->getDocument(doc->getDocument());
App::DocumentObjectGroup* grp = (App::DocumentObjectGroup*)doc;
std::vector<App::DocumentObject*> obj = grp->getObjects();
for (std::vector<App::DocumentObject*>::iterator it = obj.begin(); it != obj.end(); ++it) {
ViewProvider* v = gd->getViewProvider(*it);
if (v && v->getTypeId().isDerivedFrom(ViewProviderDocumentObject::getClassTypeId()))
vp.push_back((ViewProviderDocumentObject*)v);
}
}
}
void SegmentationBestFit::accept()
{
const Mesh::MeshObject* mesh = myMesh->Mesh.getValuePtr();
const MeshCore::MeshKernel& kernel = mesh->getKernel();
MeshCore::MeshSegmentAlgorithm finder(kernel);
std::vector<MeshCore::MeshSurfaceSegment*> segm;
if (ui->groupBoxCyl->isChecked()) {
MeshCore::AbstractSurfaceFit* fitter;
if (cylinderParameter.size() == 7) {
std::vector<float>& p = cylinderParameter;
fitter = new MeshCore::CylinderSurfaceFit(
Base::Vector3f(p[0],p[1],p[2]),
Base::Vector3f(p[3],p[4],p[5]),
p[6]);
}
else {
fitter = new MeshCore::CylinderSurfaceFit;
}
segm.push_back(new MeshCore::MeshDistanceGenericSurfaceFitSegment
(fitter, kernel, ui->numCyl->value(), ui->tolCyl->value()));
}
if (ui->groupBoxSph->isChecked()) {
MeshCore::AbstractSurfaceFit* fitter;
if (sphereParameter.size() == 4) {
std::vector<float>& p = sphereParameter;
fitter = new MeshCore::SphereSurfaceFit(
Base::Vector3f(p[0],p[1],p[2]),
p[3]);
}
else {
fitter = new MeshCore::SphereSurfaceFit;
}
segm.push_back(new MeshCore::MeshDistanceGenericSurfaceFitSegment
(fitter, kernel, ui->numSph->value(), ui->tolSph->value()));
}
if (ui->groupBoxPln->isChecked()) {
MeshCore::AbstractSurfaceFit* fitter;
if (planeParameter.size() == 6) {
std::vector<float>& p = planeParameter;
fitter = new MeshCore::PlaneSurfaceFit(
Base::Vector3f(p[0],p[1],p[2]),
Base::Vector3f(p[3],p[4],p[5]));
}
else {
fitter = new MeshCore::PlaneSurfaceFit;
}
segm.push_back(new MeshCore::MeshDistanceGenericSurfaceFitSegment
(fitter, kernel, ui->numPln->value(), ui->tolPln->value()));
}
finder.FindSegments(segm);
App::Document* document = App::GetApplication().getActiveDocument();
document->openTransaction("Segmentation");
std::string internalname = "Segments_";
internalname += myMesh->getNameInDocument();
App::DocumentObjectGroup* group = static_cast<App::DocumentObjectGroup*>(document->addObject
("App::DocumentObjectGroup", internalname.c_str()));
std::string labelname = "Segments ";
labelname += myMesh->Label.getValue();
group->Label.setValue(labelname);
for (std::vector<MeshCore::MeshSurfaceSegment*>::iterator it = segm.begin(); it != segm.end(); ++it) {
const std::vector<MeshCore::MeshSegment>& data = (*it)->GetSegments();
for (std::vector<MeshCore::MeshSegment>::const_iterator jt = data.begin(); jt != data.end(); ++jt) {
Mesh::MeshObject* segment = mesh->meshFromSegment(*jt);
Mesh::Feature* feaSegm = static_cast<Mesh::Feature*>(group->addObject("Mesh::Feature", "Segment"));
Mesh::MeshObject* feaMesh = feaSegm->Mesh.startEditing();
feaMesh->swap(*segment);
feaSegm->Mesh.finishEditing();
delete segment;
std::stringstream label;
label << feaSegm->Label.getValue() << " (" << (*it)->GetType() << ")";
feaSegm->Label.setValue(label.str());
}
delete (*it);
}
document->commitTransaction();
}
void CmdSketcherNewSketch::activated(int iMsg)
{
Attacher::eMapMode mapmode = Attacher::mmDeactivated;
bool bAttach = false;
if (Gui::Selection().hasSelection()){
Attacher::SuggestResult::eSuggestResult msgid = Attacher::SuggestResult::srOK;
QString msg_str;
std::vector<Attacher::eMapMode> validModes;
mapmode = SuggestAutoMapMode(&msgid, &msg_str, &validModes);
if (msgid == Attacher::SuggestResult::srOK)
bAttach = true;
if (msgid != Attacher::SuggestResult::srOK && msgid != Attacher::SuggestResult::srNoModesFit){
QMessageBox::warning(Gui::getMainWindow(),
QObject::tr("Sketch mapping"),
QObject::tr("Can't map the skecth to selected object. %1.").arg(msg_str));
return;
}
if (validModes.size() > 1){
validModes.insert(validModes.begin(), Attacher::mmDeactivated);
bool ok;
QStringList items;
items.push_back(QObject::tr("Don't attach"));
int iSugg = 0;//index of the auto-suggested mode in the list of valid modes
for (size_t i = 0 ; i < validModes.size() ; ++i){
items.push_back(QString::fromLatin1(AttachEngine::getModeName(validModes[i]).c_str()));
if (validModes[i] == mapmode)
iSugg = items.size()-1;
}
QString text = QInputDialog::getItem(Gui::getMainWindow(),
qApp->translate(className(), "Sketch attachment"),
qApp->translate(className(), "Select the method to attach this sketch to selected object"),
items, iSugg, false, &ok);
if (!ok) return;
int index = items.indexOf(text);
if (index == 0){
bAttach = false;
mapmode = Attacher::mmDeactivated;
} else {
bAttach = true;
mapmode = validModes[index-1];
}
}
}
if (bAttach) {
std::vector<Gui::SelectionObject> objects = Gui::Selection().getSelectionEx();
//assert (objects.size() == 1); //should have been filtered out by SuggestAutoMapMode
//Gui::SelectionObject &sel_support = objects[0];
App::PropertyLinkSubList support;
Gui::Selection().getAsPropertyLinkSubList(support);
std::string supportString = support.getPyReprString();
// 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());
if (mapmode >= 0 && mapmode < Attacher::mmDummy_NumberOfModes)
doCommand(Gui,"App.activeDocument().%s.MapMode = \"%s\"",FeatName.c_str(),AttachEngine::getModeName(mapmode).c_str());
else
assert(0 /* mapmode index out of range */);
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().setEdit('%s')",FeatName.c_str());
Part::Feature *part = static_cast<Part::Feature*>(support.getValue());//if multi-part support, this will return 0
if (part){
App::DocumentObjectGroup* grp = part->getGroup();
if (grp) {
doCommand(Doc,"App.activeDocument().%s.addObject(App.activeDocument().%s)"
,grp->getNameInDocument(),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(Doc,"App.activeDocument().%s.MapMode = \"%s\"",FeatName.c_str(),AttachEngine::getModeName(Attacher::mmDeactivated).c_str());
doCommand(Gui,"Gui.activeDocument().activeView().setCamera('%s')",camstring.c_str());
doCommand(Gui,"Gui.activeDocument().setEdit('%s')",FeatName.c_str());
}
}
