#include <QColor>
#include <Geom_BSplineCurve.hxx>
+#define _DEVDEBUG_
+#include "HYDRO_trace.hxx"
+#include <BRepTools.hxx>
+#include <sstream>
+
template<class T> void append( std::vector<T>& theList, const std::vector<T>& theList2 )
{
int aSize = theList.size();
{
std::vector<TopoDS_Shape> aCurvesList;
Split( aCurves[i], thePoint, theTolerance, aCurvesList );
- bool isLocalOK = CreatePolylines( theDoc, thePolyline->GetName(),
- aCurvesList, true, thePolyline->GetWireColor() );
+ bool isLocalOK = CreatePolylines( theDoc, thePolyline, aCurvesList, true );
isOK = isOK && isLocalOK;
}
return isOK;
bool isConnectByNewSegment,
double theTolerance )
{
- std::deque<HYDROData_TopoCurve> aMergedCurves;
+ Handle( HYDROData_PolylineXY ) aNewPolyline =
+ Handle( HYDROData_PolylineXY )::DownCast( theDoc->CreateObject( KIND_POLYLINEXY ) );
+ int ins =0;
+
HYDROData_SequenceOfObjects::Iterator aPIt(thePolylines);
- for (; aPIt.More(); aPIt.Next())
+
+ for (int ip=1; aPIt.More(); aPIt.Next(), ip++)
{
Handle(HYDROData_PolylineXY) aPolyline =
Handle(HYDROData_PolylineXY)::DownCast(aPIt.Value());
- std::vector<TopoDS_Wire> aWires;
- GetWires(aPolyline, aWires);
- for (std::vector<TopoDS_Wire>::const_iterator aWIt = aWires.begin(),
- aLastWIt = aWires.end(); aWIt != aLastWIt; ++aWIt)
- {
- const Standard_Boolean aResult = !isConnectByNewSegment ?
- HYDROData_TopoCurve::Merge(theTolerance, *aWIt, aMergedCurves) :
- HYDROData_TopoCurve::Connect(theTolerance, *aWIt, aMergedCurves);
- if (!aResult)
- {
- return false;
- }
- }
- }
+ NCollection_Sequence<TCollection_AsciiString> aSectNames;
+ NCollection_Sequence<HYDROData_PolylineXY::SectionType> aSectTypes;
+ NCollection_Sequence<bool> aSectClosures;
+ aPolyline->GetSections( aSectNames, aSectTypes, aSectClosures );
- TopoDS_Compound aWireSet;
- BRep_Builder aBuilder;
- aBuilder.MakeCompound(aWireSet);
- std::deque<HYDROData_TopoCurve>::iterator aCIt = aMergedCurves.begin();
- std::deque<HYDROData_TopoCurve>::iterator aLastCIt = aMergedCurves.end();
- for (; aCIt != aLastCIt; ++aCIt)
- {
- if (!aCIt->IsEmpty())
+ for ( int i = 1, n = aSectNames.Size(); i <= n; ++i )
{
- aBuilder.Add(aWireSet, aCIt->Wire());
+ const TCollection_AsciiString& aSectName = aSectNames.Value( i ) + "_" + ip;
+ const HYDROData_PolylineXY::SectionType& aSectType = aSectTypes.Value( i );
+ bool aSectClosure = aSectClosures.Value( i );
+ aNewPolyline->AddSection(aSectName, aSectType, aSectClosure);
+ HYDROData_PolylineXY::PointsList aPointsList = aPolyline->GetPoints(i-1, false);
+ aNewPolyline->SetPoints(ins++, aPointsList);
}
}
-
- std::vector<TopoDS_Shape> aPolylines(1);
- aPolylines[0] = aWireSet;
QString aName = theName;
if( aName.isEmpty() )
- aName = "merged";
- CreatePolylines( theDoc, aName, aPolylines, true, QColor() );
+ {
+ aName = "merged";
+ int anIndex = 1;
+ QString aNewName = aName + "_" + QString::number(anIndex);
+ while (!theDoc->FindObjectByName(aNewName).IsNull()) // the object with such a name is not found
+ {
+ anIndex++;
+ aNewName = aName + "_" + QString::number(anIndex);
+ }
+ aName = aNewName;
+ }
+
+ aNewPolyline->SetName(aName);
+ aNewPolyline->Update();
return true;
}
for (int aPSI = 0; aPSI < aPSCount; ++aPSI)
{
HYDROData_TopoCurve aCurve;
+ //DEBTRACE("Initialize curve " << aPSI);
if (!aCurve.Initialize(aCurves[aPSI]))
{
continue;
aCurve.Intersect(aToolCurves[aTSI], aParams);
}
- std::deque<HYDROData_TopoCurve> aSplittedCurves;
- theIsIntersected |= aCurve.Cut(aParams, aSplittedCurves);
+ std::deque<HYDROData_TopoCurve> aSplitCurves;
+ theIsIntersected |= aCurve.Cut(aParams, aSplitCurves);
std::deque<HYDROData_TopoCurve>::const_iterator aCIt =
- aSplittedCurves.begin();
+ aSplitCurves.begin();
std::deque<HYDROData_TopoCurve>::const_iterator aLastCIt =
- aSplittedCurves.end();
- for (; aCIt != aLastCIt; ++aCIt)
+ aSplitCurves.end();
+ for (int iw=0; aCIt != aLastCIt; ++aCIt, iw++)
{
+ /*std::stringstream brepName;
+ brepName << "theSplitWire_";
+ brepName << iw;
+ brepName << ".brep";
+ BRepTools::Write(aCIt->Wire() , brepName.str().c_str() );*/
aResult.push_back(aCIt->Wire());
}
}
- CreatePolylines( theDoc, thePolyline->GetName(), aResult, true, thePolyline->GetWireColor() );
+ CreatePolylines( theDoc, thePolyline, aResult, true );
return true;
}
}
bool HYDROData_PolylineOperator::CreatePolylines( const Handle( HYDROData_Document )& theDoc,
- const QString& theNamePrefix,
+ const Handle( HYDROData_PolylineXY )& theOldPolyline,
const std::vector<TopoDS_Shape>& theShapes,
- bool isUseIndices,
- const QColor& theColor )
+ bool isUseIndices )
{
if( theDoc.IsNull() )
return false;
+ if ( theOldPolyline.IsNull() )
+ return false;
+ const QString& theNamePrefix = theOldPolyline->GetName();
+ const QColor& theColor = theOldPolyline->GetWireColor();
+
int n = theShapes.size();
+ //DEBTRACE("theShapes.size() "<< n);
int anIndex = 1;
for( int i=0; i<n; i++ )
{
if( aPolyline.IsNull() )
return false;
- aPolyline->SetShape( theShapes[i] );
+ aPolyline->ImportShape(theShapes[i], false, theOldPolyline, false);
if( isUseIndices )
{
QString aNewName = theNamePrefix + "_" + QString::number( anIndex );
- if( theDoc->FindObjectByName( aNewName ).IsNull() ) // the object with such a name is not found
- aPolyline->SetName( aNewName );
- anIndex++;
+ while( !theDoc->FindObjectByName( aNewName ).IsNull() ) // the object with such a name is not found
+ {
+ anIndex++;
+ aNewName = theNamePrefix + "_" + QString::number( anIndex );
+ }
+ aPolyline->SetName( aNewName );
}
else
{