#include <TDF_Delta.hxx>
-#include <gp_Pnt2d.hxx>
#include <gp_Pnt.hxx>
#include <QFile>
bool aRes = true;
+ // Dump the local CS data to Python
+ UpdateLCSFields();
+ QString aLCS = QString( "%1.SetLocalCS( %2, %3 )" ).arg( GetDocPyName() ).arg( myLX ).arg( myLY );
+ if( theIsMultiFile )
+ aLCS.prepend( " " );
+ HYDROData_Tool::WriteStringsToFile( aFile, QStringList() << aLCS );
+
// Dump all model objects to Python script
aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_IMAGE );
aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_POLYLINEXY );
if ( theIsMultiFile )
{
+ aResScript << QString( "import salome" );
aResScript << QString( "" );
aResScript << QString( "def RebuildData( theStudy ):" );
aResScript << QString( " %1 = HYDROData_Document.Document( theStudy._get_StudyId() );" ).arg( aDocName );
return myDoc->Main().FindChild(TAG_LOCAL_CS);
}
-gp_Pnt2d HYDROData_Document::GetLocalCS() const
+void HYDROData_Document::GetLocalCS( double& theLX, double& theLY ) const
{
TDF_Label aLocalCSLab = LabelOfLocalCS();
if( aLocalCSLab.FindAttribute( TDataXtd_Position::GetID(), aLocalCS ) )
{
gp_Pnt aLocalCS3d = aLocalCS->GetPosition();
- return gp_Pnt2d( aLocalCS3d.X(), aLocalCS3d.Y() );
+ theLX = aLocalCS3d.X();
+ theLY = aLocalCS3d.Y();
}
else
- return DEFAULT_LOCAL_CS;
+ {
+ theLX = DEFAULT_LOCAL_CS.X();
+ theLY = DEFAULT_LOCAL_CS.Y();
+ }
}
-void HYDROData_Document::SetLocalCS( const gp_Pnt2d& theLocalCS )
+void HYDROData_Document::SetLocalCS( double theLX, double theLY )
{
- TDF_Label aLocalCSLab = LabelOfLocalCS();
+ UpdateLCSFields();
+ // update the local CS data in attribute
+ TDF_Label aLocalCSLab = LabelOfLocalCS();
Handle( TDataXtd_Position ) aLocalCS;
if( !aLocalCSLab.FindAttribute( TDataXtd_Position::GetID(), aLocalCS ) )
aLocalCS = TDataXtd_Position::Set( aLocalCSLab );
- gp_Pnt aLocalCS3d( theLocalCS.X(), theLocalCS.Y(), 0 );
+ gp_Pnt aLocalCS3d( theLX, theLY, 0 );
aLocalCS->SetPosition( aLocalCS3d );
- myLX = theLocalCS.X();
- myLY = theLocalCS.Y();
+
+ // calculate delta for coordinates
+ double aDX = myLX - theLX;
+ double aDY = myLY - theLY;
+
+ // update the local CS data in internal fields
+ myLX = theLX;
+ myLY = theLY;
+
+ //update all objects in the document
+ HYDROData_Iterator anIterator( this, KIND_UNKNOWN );
+ for( ; anIterator.More(); anIterator.Next() )
+ anIterator.Current()->UpdateLocalCS( aDX, aDY );
+}
+
+void HYDROData_Document::UpdateLCSFields() const
+{
+ if( myLX >= 0 && myLY >= 0 )
+ return;
+
+ double aLX, aLY;
+ GetLocalCS( aLX, aLY );
+ HYDROData_Document* aThat = const_cast<HYDROData_Document*>( this );
+ aThat->myLX = aLX;
+ aThat->myLY = aLY;
}
void HYDROData_Document::Transform( double& X, double& Y, bool IsToLocalCS ) const
{
- if( myLX < 0 || myLY < 0 )
- {
- gp_Pnt2d aLCS = GetLocalCS();
- HYDROData_Document* aThat = const_cast<HYDROData_Document*>( this );
- aThat->myLX = aLCS.X();
- aThat->myLY = aLCS.Y();
- }
+ UpdateLCSFields();
if( IsToLocalCS )
{
X -= myLX;
Transform( X, Y, IsToLocalCS );
thePnt = gp_XYZ( X, Y, Z );
}
+
+void HYDROData_Document::Transform( gp_XY& thePnt, bool IsToLocalCS ) const
+{
+ double X = thePnt.X();
+ double Y = thePnt.Y();
+ Transform( X, Y, IsToLocalCS );
+ thePnt = gp_XY( X, Y );
+}