if(initialize()) {
setByDistanceOnEdge(theEdge, theDistanceValue, theDistancePercent, theReverse);
}
-}
+}*/
//==================================================================================================
ConstructionAPI_Point::ConstructionAPI_Point(const std::shared_ptr<ModelAPI_Feature>& theFeature,
if(initialize()) {
GeomAPI_Shape::ShapeType aType1 = getShapeType(theObject1);
GeomAPI_Shape::ShapeType aType2 = getShapeType(theObject2);
-
+ /*
if(aType1 == GeomAPI_Shape::VERTEX && aType2 == GeomAPI_Shape::FACE) {
// If first object is vertex and second object is face then set by projection.
setByProjection(theObject1, theObject2);
} else if(aType1 == GeomAPI_Shape::EDGE && aType2 == GeomAPI_Shape::EDGE) {
// If both objects are edges then set by lines intersection.
setByLinesIntersection(theObject1, theObject2);
- } else if(aType1 == GeomAPI_Shape::EDGE && aType2 == GeomAPI_Shape::FACE) {
+ } else */if(aType1 == GeomAPI_Shape::EDGE && aType2 == GeomAPI_Shape::FACE) {
// If first object is edge and second object is face then set by line and plane intersection.
setByLineAndPlaneIntersection(theObject1, theObject2);
}
}
-}*/
+}
//==================================================================================================
ConstructionAPI_Point::~ConstructionAPI_Point()
fillAttribute(theX, myx);
fillAttribute(theY, myy);
fillAttribute(theZ, myz);
+ fillAttribute(ConstructionPlugin_Point::CREATION_METHOD_BY_XYZ(), mycreationMethod);
execute(false);
}
fillAttribute(theEdge2, mysecondLine);
execute();
-}
+}*/
//==================================================================================================
void ConstructionAPI_Point::setByLineAndPlaneIntersection(const ModelHighAPI_Selection& theEdge,
const ModelHighAPI_Selection& theFace)
{
- fillAttribute(ConstructionPlugin_Point::CREATION_METHOD_BY_LINE_AND_PLANE_INTERSECTION(), mycreationMethod);
+ fillAttribute(
+ ConstructionPlugin_Point::CREATION_METHOD_BY_LINE_AND_PLANE_INTERSECTION(), mycreationMethod);
fillAttribute(theEdge, myintersectionLine);
fillAttribute(theFace, myintersectionPlane);
-
+ fillAttribute("", useOffset()); // not used by default
execute();
-}*/
+}
//==================================================================================================
void ConstructionAPI_Point::dump(ModelHighAPI_Dumper& theDumper) const
{
- // TODO: all types of points
-
FeaturePtr aBase = feature();
const std::string& aDocName = theDumper.name(aBase->document());
-
- AttributeDoublePtr anAttrX = aBase->real(ConstructionPlugin_Point::X());
- AttributeDoublePtr anAttrY = aBase->real(ConstructionPlugin_Point::Y());
- AttributeDoublePtr anAttrZ = aBase->real(ConstructionPlugin_Point::Z());
- theDumper << aBase << " = model.addPoint(" << aDocName << ", "
- << anAttrX << ", " << anAttrY << ", " << anAttrZ << ")" << std::endl;
+ const std::string& aMeth = creationMethod()->value();
+
+ // common part
+ theDumper << aBase << " = model.addPoint(" << aDocName << ", ";
+
+ if (aMeth == "" || // default is XYZ
+ aMeth == ConstructionPlugin_Point::CREATION_METHOD_BY_XYZ()) {
+ theDumper << x() << ", " << y() << ", " << z() << ")" << std::endl;
+ } else if (aMeth == ConstructionPlugin_Point::CREATION_METHOD_BY_LINE_AND_PLANE_INTERSECTION()) {
+ theDumper << intersectionLine() << ", " <<intersectionPlane() ;
+ if (!useOffset()->value().empty()) { // call method with defined offset
+ theDumper << ", " << offset() << ", " << reverseOffset();
+ }
+ theDumper << ")" << std::endl;
+ }
}
//==================================================================================================
const bool theDistancePercent,
const bool theReverse)
{
- // TODO(spo): check that thePart is not empty
std::shared_ptr<ModelAPI_Feature> aFeature = thePart->addFeature(ConstructionAPI_Point::ID());
return PointPtr(new ConstructionAPI_Point(aFeature, theEdge, theDistanceValue, theDistancePercent, theReverse));
-}
+}*/
//==================================================================================================
PointPtr addPoint(const std::shared_ptr<ModelAPI_Document> & thePart,
const ModelHighAPI_Selection& theObject1,
const ModelHighAPI_Selection& theObject2)
{
- // TODO(spo): check that thePart is not empty
std::shared_ptr<ModelAPI_Feature> aFeature = thePart->addFeature(ConstructionAPI_Point::ID());
return PointPtr(new ConstructionAPI_Point(aFeature, theObject1, theObject2));
-}*/
+}
+
+//==================================================================================================
+PointPtr addPoint(const std::shared_ptr<ModelAPI_Document> & thePart,
+ const ModelHighAPI_Selection& theObject1,
+ const ModelHighAPI_Selection& theObject2,
+ const ModelHighAPI_Double& theDistanceValue,
+ const bool theReverse)
+{
+ std::shared_ptr<ModelAPI_Feature> aFeature = thePart->addFeature(ConstructionAPI_Point::ID());
+ PointPtr anAPI(new ConstructionAPI_Point(aFeature, theObject1, theObject2));
+
+ fillAttribute(ConstructionPlugin_Point::USE_OFFSET(), anAPI->useOffset());
+ fillAttribute(theDistanceValue, anAPI->offset());
+ fillAttribute(theReverse, anAPI->reverseOffset());
+
+ return anAPI;
+}