+//==================================================================================================
+void ConstructionAPI_Axis::setByDimensions(const ModelHighAPI_Double& theDX,
+ const ModelHighAPI_Double& theDY,
+ const ModelHighAPI_Double& theDZ)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_DIMENSIONS(), creationMethod());
+ fillAttribute(theDX, xDimension());
+ fillAttribute(theDY, yDimension());
+ fillAttribute(theDZ, zDimension());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::setByLine(const ModelHighAPI_Selection& theLine)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_LINE(), creationMethod());
+ fillAttribute(theLine, line());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::setByPlaneAndPoint(const ModelHighAPI_Selection& thePlane,
+ const ModelHighAPI_Selection& thePoint)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_PLANE_AND_POINT(), creationMethod());
+ fillAttribute(thePlane, plane());
+ fillAttribute(thePoint, point());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::setByTwoPlanes(const ModelHighAPI_Selection& thePlane1,
+ const ModelHighAPI_Selection& thePlane2)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_TWO_PLANES(), creationMethod());
+ fillAttribute(thePlane1, plane1());
+ fillAttribute("", useOffset1());
+ fillAttribute(thePlane2, plane2());
+ fillAttribute("", useOffset2());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::setByTwoPlanes(const ModelHighAPI_Selection& thePlane1,
+ const ModelHighAPI_Double& theOffset1,
+ const bool theReverseOffset1,
+ const ModelHighAPI_Selection& thePlane2,
+ const ModelHighAPI_Double& theOffset2,
+ const bool theReverseOffset2)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_TWO_PLANES(), creationMethod());
+ fillAttribute(thePlane1, plane1());
+ fillAttribute(ConstructionPlugin_Axis::USE_OFFSET1(), useOffset1());
+ fillAttribute(theOffset1, offset1());
+ fillAttribute(theReverseOffset1, reverseOffset1());
+ fillAttribute(thePlane2, plane2());
+ fillAttribute(ConstructionPlugin_Axis::USE_OFFSET2(), useOffset2());
+ fillAttribute(theOffset2, offset2());
+ fillAttribute(theReverseOffset2, reverseOffset2());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::setByTwoPlanes(const ModelHighAPI_Selection& thePlane1,
+ const ModelHighAPI_Selection& thePlane2,
+ const ModelHighAPI_Double& theOffset2,
+ const bool theReverseOffset2)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_TWO_PLANES(), creationMethod());
+ fillAttribute(thePlane1, plane1());
+ fillAttribute("", useOffset1());
+ fillAttribute(thePlane2, plane2());
+ fillAttribute(ConstructionPlugin_Axis::USE_OFFSET2(), useOffset2());
+ fillAttribute(theOffset2, offset2());
+ fillAttribute(theReverseOffset2, reverseOffset2());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::setByTwoPlanes(const ModelHighAPI_Selection& thePlane1,
+ const ModelHighAPI_Double& theOffset1,
+ const bool theReverseOffset1,
+ const ModelHighAPI_Selection& thePlane2)
+{
+ fillAttribute(ConstructionPlugin_Axis::CREATION_METHOD_BY_TWO_PLANES(), creationMethod());
+ fillAttribute(thePlane1, plane1());
+ fillAttribute(ConstructionPlugin_Axis::USE_OFFSET1(), useOffset1());
+ fillAttribute(theOffset1, offset1());
+ fillAttribute(theReverseOffset1, reverseOffset1());
+ fillAttribute(thePlane2, plane2());
+ fillAttribute("", useOffset2());
+
+ execute();
+}
+
+//==================================================================================================
+void ConstructionAPI_Axis::dump(ModelHighAPI_Dumper& theDumper) const
+{
+ FeaturePtr aBase = feature();
+ const std::string& aDocName = theDumper.name(aBase->document());
+
+ theDumper << aBase << " = model.addAxis(" << aDocName;
+
+ std::string aCreationMethod = aBase->string(ConstructionPlugin_Axis::METHOD())->value();
+
+ if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_DIMENSIONS()) {
+ AttributeDoublePtr anAttrDX = aBase->real(ConstructionPlugin_Axis::DX());
+ AttributeDoublePtr anAttrDY = aBase->real(ConstructionPlugin_Axis::DY());
+ AttributeDoublePtr anAttrDZ = aBase->real(ConstructionPlugin_Axis::DZ());
+
+ theDumper << ", " << anAttrDX << ", " << anAttrDY << ", " << anAttrDZ;
+ } else if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_TWO_POINTS()) {
+ AttributeSelectionPtr anAttrFirstPnt =
+ aBase->selection(ConstructionPlugin_Axis::POINT_FIRST());
+ AttributeSelectionPtr anAttrSecondPnt =
+ aBase->selection(ConstructionPlugin_Axis::POINT_SECOND());
+
+ theDumper << ", " << anAttrFirstPnt << ", " << anAttrSecondPnt;
+ } else if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_LINE()) {
+ AttributeSelectionPtr anAttrLine = aBase->selection(ConstructionPlugin_Axis::LINE());
+
+ theDumper << ", " << anAttrLine;
+ } else if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_CYLINDRICAL_FACE()) {
+ AttributeSelectionPtr anAttrFace =
+ aBase->selection(ConstructionPlugin_Axis::CYLINDRICAL_FACE());
+
+ theDumper << ", " << anAttrFace;
+ } else if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_PLANE_AND_POINT()) {
+ AttributeSelectionPtr anAttrPlane = aBase->selection(ConstructionPlugin_Axis::PLANE());
+ AttributeSelectionPtr anAttrPoint = aBase->selection(ConstructionPlugin_Axis::POINT());
+
+ theDumper << ", " << anAttrPlane << ", " << anAttrPoint;
+ } else if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_TWO_PLANES()) {
+ AttributeSelectionPtr anAttrPlane1 = aBase->selection(ConstructionPlugin_Axis::PLANE1());
+ AttributeSelectionPtr anAttrPlane2 = aBase->selection(ConstructionPlugin_Axis::PLANE2());
+
+ theDumper << ", " << anAttrPlane1;
+ if(aBase->string(ConstructionPlugin_Axis::USE_OFFSET1())->isInitialized()
+ && !aBase->string(ConstructionPlugin_Axis::USE_OFFSET1())->value().empty()) {
+ AttributeDoublePtr anAttrOffset1 = aBase->real(ConstructionPlugin_Axis::OFFSET1());
+ AttributeBooleanPtr anAttrReverseOffset1 =
+ aBase->boolean(ConstructionPlugin_Axis::REVERSE_OFFSET1());
+ theDumper << ", " << anAttrOffset1 << ", " << anAttrReverseOffset1;
+ }
+
+ theDumper << ", " << anAttrPlane2;
+ if(aBase->string(ConstructionPlugin_Axis::USE_OFFSET2())->isInitialized()
+ && !aBase->string(ConstructionPlugin_Axis::USE_OFFSET2())->value().empty()) {
+ AttributeDoublePtr anAttrOffset2 = aBase->real(ConstructionPlugin_Axis::OFFSET2());
+ AttributeBooleanPtr anAttrReverseOffset2 =
+ aBase->boolean(ConstructionPlugin_Axis::REVERSE_OFFSET2());
+ theDumper << ", " << anAttrOffset2 << ", " << anAttrReverseOffset2;
+ }
+ } else if(aCreationMethod == ConstructionPlugin_Axis::CREATION_METHOD_BY_POINT_AND_DIRECTION()) {
+ AttributeSelectionPtr anAttrFirstPnt = aBase->selection(ConstructionPlugin_Axis::POINT_FIRST());
+ AttributeDoublePtr anAttrX = aBase->real(ConstructionPlugin_Axis::X_DIRECTION());
+ AttributeDoublePtr anAttrY = aBase->real(ConstructionPlugin_Axis::Y_DIRECTION());
+ AttributeDoublePtr anAttrZ = aBase->real(ConstructionPlugin_Axis::Z_DIRECTION());