#include <ModuleBase_IWorkshop.h>
#include <ModuleBase_IModule.h>
#include <ModuleBase_IconFactory.h>
+#include <ModuleBase_ResultPrs.h>
#include <ModelAPI_Attribute.h>
#include <ModelAPI_AttributeRefAttr.h>
#include <ModelAPI_AttributeRefList.h>
#include <ModelAPI_AttributeRefAttrList.h>
#include <ModelAPI_ResultPart.h>
+#include <ModelAPI_ResultConstruction.h>
#include <Events_Loop.h>
#include <ModelAPI_Data.h>
#include <TopoDS_Iterator.hxx>
#include <GeomDataAPI_Point2D.h>
-#include <Events_Error.h>
+#include <Events_InfoMessage.h>
+#include <GeomAPI_ShapeExplorer.h>
#include <Config_PropManager.h>
+#include <Config_Translator.h>
+
+#include <Prs3d_PointAspect.hxx>
+#include <Graphic3d_AspectMarker3d.hxx>
+
+#include <Image_AlienPixMap.hxx>
#include <QWidget>
#include <QLayout>
#include <QApplication>
#include <QMessageBox>
#include <QAction>
+#include <QTextCodec>
#include <sstream>
#include <string>
+#ifdef WIN32
+#pragma warning(disable : 4996) // for getenv
+#endif
+
const double tolerance = 1e-7;
+const double DEFAULT_DEVIATION_COEFFICIENT = 1.e-4;
//#define DEBUG_ACTIVATE_WINDOW
//#define DEBUG_SET_FOCUS
#include <TColStd_ListIteratorOfListOfInteger.hxx>
#endif
+#ifdef WIN32
+# define FSEP "\\"
+#else
+# define FSEP "/"
+#endif
+
namespace ModuleBase_Tools {
//******************************************************************
case TopAbs_EDGE: anInfo = "edge"; break;
case TopAbs_VERTEX: anInfo = "vertex"; break;
case TopAbs_SHAPE: anInfo = "shape"; break;
+ case ModuleBase_ResultPrs::Sel_Result:
+ anInfo = "result_shape"; break;
default: break;
}
return anInfo;
if (!aShapePrs.IsNull()) {
const TopoDS_Shape& aShape = aShapePrs->Shape();
- if (aShape.IsNull())
- Events_Error::throwException("An empty AIS presentation");
+ if (aShape.IsNull()) {
+ //Events_Error::throwException("An empty AIS presentation");
+ }
else
anInfo += QString(", shape type: %1").arg(getShapeTypeInfo(aShape.ShapeType()));
}
if (!BROwnr.IsNull() && BROwnr->HasShape()) {
const TopoDS_Shape& aShape = BROwnr->Shape();
- if (aShape.IsNull())
- Events_Error::throwException("An empty AIS presentation");
+ if (aShape.IsNull()) {
+ //Events_Error::throwException("An empty AIS presentation");
+ }
else
anInfo += QString(", shape type: %1").arg(getShapeTypeInfo(aShape.ShapeType()));
}
#endif
}
-typedef QMap<QString, TopAbs_ShapeEnum> ShapeTypes;
+typedef QMap<QString, int> ShapeTypes;
static ShapeTypes myShapeTypes;
-TopAbs_ShapeEnum shapeType(const QString& theType)
+int shapeType(const QString& theType)
{
if (myShapeTypes.count() == 0) {
myShapeTypes["compound"] = TopAbs_COMPOUND;
myShapeTypes["edges"] = TopAbs_EDGE;
myShapeTypes["vertex"] = TopAbs_VERTEX;
myShapeTypes["vertices"] = TopAbs_VERTEX;
- myShapeTypes["objects"] = TopAbs_SHAPE;
+ myShapeTypes["object"] = ModuleBase_ResultPrs::Sel_Result;
+ myShapeTypes["objects"] = ModuleBase_ResultPrs::Sel_Result;
}
QString aType = theType.toLower();
if(myShapeTypes.contains(aType))
return myShapeTypes[aType];
- Events_Error::send("Shape type defined in XML is not implemented!");
+ Events_InfoMessage("ModuleBase_Tools", "Shape type defined in XML is not implemented!").send();
return TopAbs_SHAPE;
}
}
}
+/*bool setDefaultDeviationCoefficient(std::shared_ptr<GeomAPI_Shape> theGeomShape)
+{
+ if (!theGeomShape.get())
+ return false;
+ // if the shape could not be exploded on faces, it contains only wires, edges, and vertices
+ // correction of deviation for them should not influence to the application performance
+ GeomAPI_ShapeExplorer anExp(theGeomShape, GeomAPI_Shape::FACE);
+ bool anEmpty = anExp.empty();
+ return !anExp.more();
+}*/
+
+/*void setDefaultDeviationCoefficient(const std::shared_ptr<ModelAPI_Result>& theResult,
+ const Handle(Prs3d_Drawer)& theDrawer)
+{
+ if (!theResult.get())
+ return;
+ bool aUseDeviation = false;
+
+ std::string aResultGroup = theResult->groupName();
+ if (aResultGroup == ModelAPI_ResultConstruction::group())
+ aUseDeviation = true;
+ else if (aResultGroup == ModelAPI_ResultBody::group()) {
+ GeomShapePtr aGeomShape = theResult->shape();
+ if (aGeomShape.get())
+ aUseDeviation = setDefaultDeviationCoefficient(aGeomShape);
+ }
+ if (aUseDeviation)
+ theDrawer->SetDeviationCoefficient(DEFAULT_DEVIATION_COEFFICIENT);
+}
+*/
void setDefaultDeviationCoefficient(const TopoDS_Shape& theShape,
const Handle(Prs3d_Drawer)& theDrawer)
{
if (theShape.IsNull())
return;
- TopAbs_ShapeEnum aType = theShape.ShapeType();
- if ((aType == TopAbs_EDGE) || (aType == TopAbs_WIRE))
- theDrawer->SetDeviationCoefficient(1.e-4);
+
+ std::shared_ptr<GeomAPI_Shape> aGeomShape(new GeomAPI_Shape());
+ aGeomShape->setImpl(new TopoDS_Shape(theShape));
+
+ // if the shape could not be exploded on faces, it contains only wires, edges, and vertices
+ // correction of deviation for them should not influence to the application performance
+ GeomAPI_ShapeExplorer anExp(aGeomShape, GeomAPI_Shape::FACE);
+ bool isConstruction = !anExp.more();
+
+ double aDeflection;
+ if (isConstruction)
+ aDeflection = Config_PropManager::real("Visualization", "construction_deflection",
+ ModelAPI_ResultConstruction::DEFAULT_DEFLECTION());
+ else
+ aDeflection = Config_PropManager::real("Visualization", "body_deflection",
+ ModelAPI_ResultBody::DEFAULT_DEFLECTION());
+
+ theDrawer->SetDeviationCoefficient(aDeflection);
}
Quantity_Color color(const std::string& theSection,
return aHasObject;
}
-void setObject(const AttributePtr& theAttribute, const ObjectPtr& theObject,
+bool setObject(const AttributePtr& theAttribute, const ObjectPtr& theObject,
const GeomShapePtr& theShape, ModuleBase_IWorkshop* theWorkshop,
const bool theTemporarily, const bool theCheckIfAttributeHasObject)
{
if (!theAttribute.get())
- return;
+ return false;
+ bool isDone = true;
std::string aType = theAttribute->attributeType();
if (aType == ModelAPI_AttributeReference::typeId()) {
AttributeReferencePtr aRef = std::dynamic_pointer_cast<ModelAPI_AttributeReference>(theAttribute);
}
else if (aType == ModelAPI_AttributeRefList::typeId()) {
AttributeRefListPtr aRefListAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(theAttribute);
- if (!theCheckIfAttributeHasObject || !aRefListAttr->isInList(theObject))
- aRefListAttr->append(theObject);
+ if (!theCheckIfAttributeHasObject || !aRefListAttr->isInList(theObject)) {
+ if (theObject.get())
+ aRefListAttr->append(theObject);
+ else
+ isDone = false;
+ }
}
else if (aType == ModelAPI_AttributeRefAttrList::typeId()) {
AttributeRefAttrListPtr aRefAttrListAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttrList>(theAttribute);
aRefAttrListAttr->append(anAttribute);
}
else {
- if (!theCheckIfAttributeHasObject || !aRefAttrListAttr->isInList(theObject))
- aRefAttrListAttr->append(theObject);
+ if (!theCheckIfAttributeHasObject || !aRefAttrListAttr->isInList(theObject)) {
+ if (theObject.get())
+ aRefAttrListAttr->append(theObject);
+ else
+ isDone = false;
+ }
}
}
+ return isDone;
}
GeomShapePtr getShape(const AttributePtr& theAttribute, ModuleBase_IWorkshop* theWorkshop)
(theAttribute);
aShape = aSelectAttr->value();
}
+ else // Geom2D point processing
+ aShape = theWorkshop->module()->findShape(theAttribute);
return aShape;
}
//**************************************************************
-bool isSubOfComposite(const ObjectPtr& theObject)
+/*bool isSubOfComposite(const ObjectPtr& theObject)
{
bool isSub = false;
std::set<FeaturePtr> aRefFeatures;
isSub = isSubOfComposite(theObject, *anIt);
}
return isSub;
-}
+}*/
//**************************************************************
-bool isSubOfComposite(const ObjectPtr& theObject, const FeaturePtr& theFeature)
+/*bool isSubOfComposite(const ObjectPtr& theObject, const FeaturePtr& theFeature)
{
bool isSub = false;
CompositeFeaturePtr aComposite = std::dynamic_pointer_cast<ModelAPI_CompositeFeature>(theFeature);
}
}
return isSub;
+}*/
+
+//**************************************************************
+ResultPtr firstResult(const ObjectPtr& theObject)
+{
+ ResultPtr aResult = std::dynamic_pointer_cast<ModelAPI_Result>(theObject);
+ if (!aResult.get()) {
+ FeaturePtr aFeature = std::dynamic_pointer_cast<ModelAPI_Feature>(theObject);
+ if (aFeature.get())
+ aResult = aFeature->firstResult();
+ }
+ return aResult;
}
//**************************************************************
return aFirstResult->groupName() == theGroupOfResult;
}
+//**************************************************************
+bool hasModuleDocumentFeature(const std::set<FeaturePtr>& theFeatures)
+{
+ bool aFoundModuleDocumentObject = false;
+ DocumentPtr aModuleDoc = ModelAPI_Session::get()->moduleDocument();
+
+ std::set<FeaturePtr>::const_iterator anIt = theFeatures.begin(), aLast = theFeatures.end();
+ for (; anIt != aLast && !aFoundModuleDocumentObject; anIt++) {
+ FeaturePtr aFeature = *anIt;
+ ResultPtr aResult = ModuleBase_Tools::firstResult(aFeature);
+ if (aResult.get() && aResult->groupName() == ModelAPI_ResultPart::group())
+ continue;
+ aFoundModuleDocumentObject = aFeature->document() == aModuleDoc;
+ }
+
+ return aFoundModuleDocumentObject;
+}
+
//**************************************************************
bool askToDelete(const std::set<FeaturePtr> theFeatures,
const std::map<FeaturePtr, std::set<FeaturePtr> >& theReferences,
QWidget* theParent,
- std::set<FeaturePtr>& theReferencesToDelete)
+ std::set<FeaturePtr>& theReferencesToDelete,
+ const std::string& thePrefixInfo)
{
+ QString aNotActivatedDocWrn;
+ std::string aNotActivatedNames;
+ if (!ModelAPI_Tools::allDocumentsActivated(aNotActivatedNames)) {
+ if (ModuleBase_Tools::hasModuleDocumentFeature(theFeatures))
+ aNotActivatedDocWrn = QObject::tr("Selected objects can be used in Part documents which are not loaded:%1.\n")
+ .arg(aNotActivatedNames.c_str());
+ }
+
std::set<FeaturePtr> aFeaturesRefsTo;
std::set<FeaturePtr> aFeaturesRefsToParameter;
std::set<FeaturePtr> aParameterFeatures;
+ QStringList aPartFeatureNames;
std::set<FeaturePtr>::const_iterator anIt = theFeatures.begin(),
aLast = theFeatures.end();
// separate features to references to parameter features and references to others
if (theReferences.find(aFeature) == theReferences.end())
continue;
+ if (isFeatureOfResult(aFeature, ModelAPI_ResultPart::group()))
+ aPartFeatureNames.append(aFeature->name().c_str());
+
std::set<FeaturePtr> aRefFeatures;
std::set<FeaturePtr> aRefList = theReferences.at(aFeature);
std::set<FeaturePtr>::const_iterator aRefIt = aRefList.begin(), aRefLast = aRefList.end();
}
}
aParamFeatureNames.sort();
- QStringList aPartFeatureNames, anOtherFeatureNames;
+ QStringList anOtherFeatureNames;
anIt = theReferencesToDelete.begin();
aLast = theReferencesToDelete.end();
for (; anIt != aLast; anIt++) {
aMessageBox.setDefaultButton(QMessageBox::No);
QString aText;
+ if (!thePrefixInfo.empty())
+ aText = thePrefixInfo.c_str();
QString aSep = ", ";
if (!aPartFeatureNames.empty())
aText += QString(QObject::tr("The following parts will be deleted: %1.\n")).arg(aPartFeatureNames.join(aSep));
+ if (!aNotActivatedDocWrn.isEmpty())
+ aText += aNotActivatedDocWrn;
if (!anOtherFeatureNames.empty())
- aText += QString(QObject::tr("Selected features are used in the following features: %1.\nThese features will be deleted.\n"))
+ aText += QString(QObject::tr("Features are used in the following features: %1.\nThese features will be deleted.\n"))
.arg(anOtherFeatureNames.join(aSep));
if (!aParamFeatureNames.empty()) {
- aText += QString(QObject::tr("Selected parameters are used in the following features: %1.\nThese features will be deleted.\nOr parameters could be replaced by their values.\n"))
+ aText += QString(QObject::tr("Parameters are used in the following features: %1.\nThese features will be deleted.\nOr parameters could be replaced by their values.\n"))
.arg(aParamFeatureNames.join(aSep));
QPushButton *aReplaceButton = aMessageBox.addButton(QObject::tr("Replace"), QMessageBox::ActionRole);
}
}
}
+void translate(const std::string& theContext, std::string& theMessage)
+{
+ if (!theMessage.empty()) {
+ std::string aStr = Config_Translator::translate(theContext, theMessage);
+ if (!aStr.empty()) {
+ std::string aCodec = Config_Translator::codec(theContext);
+ theMessage = QTextCodec::codecForName(aCodec.c_str())->toUnicode(aStr.c_str()).toStdString();
+ }
+ }
+}
+
+void setPointBallHighlighting(AIS_Shape* theAIS)
+{
+ static Handle(Image_AlienPixMap) aPixMap;
+ if(aPixMap.IsNull()) {
+ // Load icon for the presentation
+ std::string aFile;
+ char* anEnv = getenv("SHAPER_ROOT_DIR");
+ if(anEnv) {
+ aFile = std::string(anEnv) +
+ FSEP + "share" + FSEP + "salome" + FSEP + "resources" + FSEP + "shaper";
+ } else {
+ anEnv = getenv("OPENPARTS_ROOT_DIR");
+ if (anEnv)
+ aFile = std::string(anEnv) + FSEP + "resources";
+ }
+
+ aFile += FSEP;
+ static const std::string aMarkerName = "marker_dot.png";
+ aFile += aMarkerName;
+ aPixMap = new Image_AlienPixMap();
+ if(!aPixMap->Load(aFile.c_str())) {
+ // The icon for constraint is not found
+ static const std::string aMsg = "Error: Point market not found by path: \"" + aFile + "\". Falling back.";
+ //Events_InfoMessage("ModuleBase_Tools::setPointBallHighlighting", aMsg).send();
+ }
+ }
+
+ Handle(Graphic3d_AspectMarker3d) anAspect;
+ Handle(Prs3d_Drawer) aDrawer = theAIS->HilightAttributes();
+ if(aDrawer->HasOwnPointAspect()) {
+ Handle(Prs3d_PointAspect) aPntAspect = aDrawer->PointAspect();
+ if(aPixMap->IsEmpty()) {
+ anAspect = aPntAspect->Aspect();
+ anAspect->SetType(Aspect_TOM_BALL);
+ } else {
+ if(aPixMap->Format() == Image_PixMap::ImgGray) {
+ aPixMap->SetFormat (Image_PixMap::ImgAlpha);
+ } else if(aPixMap->Format() == Image_PixMap::ImgGrayF) {
+ aPixMap->SetFormat (Image_PixMap::ImgAlphaF);
+ }
+ anAspect = new Graphic3d_AspectMarker3d(aPixMap);
+ aPntAspect->SetAspect(anAspect);
+ }
+ aDrawer->SetPointAspect(aPntAspect);
+ theAIS->SetHilightAttributes(aDrawer);
+ }
+}
+
} // namespace ModuleBase_Tools