#include <HYDROData_Iterator.h>
#include <HYDROData_Tool.h>
#include <HYDROData_InterpolatorsFactory.h>
+#include <HYDROData_StricklerTable.h>
+#include <HYDROData_LandCoverMap.h>
#include <TDataStd_Real.hxx>
#include <TDataStd_Integer.hxx>
#include <QFile>
#include <QStringList>
#include <QTextStream>
+#include <QColor>
-IMPLEMENT_STANDARD_HANDLE(HYDROData_Document,MMgt_TShared)
IMPLEMENT_STANDARD_RTTIEXT(HYDROData_Document,MMgt_TShared)
#define PYTHON_DOC_NAME "hydro_doc"
using namespace std;
-typedef QMap<Standard_Integer,Handle_HYDROData_Entity> MapOfOrdered;
-typedef QMap<QString,Handle_HYDROData_Entity> MapOfUnordered;
+typedef QMap<Standard_Integer, Handle(HYDROData_Entity)> MapOfOrdered;
+typedef QMap<QString, Handle(HYDROData_Entity)> MapOfUnordered;
Handle(HYDROData_Document) HYDROData_Document::Document(const int theStudyID)
{
}
}
-bool HYDROData_Document::DumpToPython( const QString& theFileName,
+bool HYDROData_Document::DumpToPython( const QString& thePyScriptPath,
const bool theIsMultiFile ) const
{
// Try to open the file
- QFile aFile( theFileName );
+ QFile aFile( thePyScriptPath );
if ( !aFile.open( QIODevice::WriteOnly ) )
return false;
MapOfTreatedObjects aTreatedObjects;
// Dump header for python script
- QStringList aHeaderDump = DumpToPython( aTreatedObjects, theIsMultiFile );
+ QStringList aHeaderDump = DumpToPython( thePyScriptPath, aTreatedObjects, theIsMultiFile );
if ( aHeaderDump.isEmpty() )
return false;
// Dump the local CS data to Python
UpdateLCSFields();
- QString aLCS = QString( "%1.SetLocalCS( %2, %3 )" ).arg( GetDocPyName() ).arg( myLX ).arg( myLY );
+ QString aLCS = QString( "%1.SetLocalCS( %2, %3 )" ).arg( GetDocPyName() ).arg( myLX, 0, 'f', 3 ).arg( myLY, 0, 'f', 3 );
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_STRICKLER_TABLE );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_POLYLINEXY );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_BATHYMETRY );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_PROFILE );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_POLYLINE );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_IMMERSIBLE_ZONE );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_STREAM );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_CHANNEL );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_DIGUE );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_OBSTACLE );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_LAND_COVER_MAP );
- aRes = aRes && dumpPartitionToPython( aFile, theIsMultiFile, aTreatedObjects, KIND_CALCULATION );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_IMAGE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_STRICKLER_TABLE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_POLYLINEXY );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_BATHYMETRY );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_PROFILE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_POLYLINE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_IMMERSIBLE_ZONE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_STREAM );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_CHANNEL );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_DIGUE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_OBSTACLE );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_LAND_COVER_MAP );
+ aRes = aRes && dumpPartitionToPython( aFile, thePyScriptPath, theIsMultiFile, aTreatedObjects, KIND_CALCULATION );
// Dump code to close python fuction
if ( aRes && theIsMultiFile )
return aDocName;
}
-QStringList HYDROData_Document::DumpToPython( MapOfTreatedObjects& theTreatedObjects,
+QStringList HYDROData_Document::DumpToPython( const QString& thePyScriptPath,
+ MapOfTreatedObjects& theTreatedObjects,
const bool theIsMultiFile ) const
{
QString aDocName = GetDocPyName();
aResScript << QString( "import salome" );
aResScript << QString( "" );
aResScript << QString( "def RebuildData( theStudy ):" );
- aResScript << QString( " %1 = HYDROData_Document.Document( theStudy._get_StudyId() );" ).arg( aDocName );
+ aResScript << QString( " %1 = HYDROData_Document.Document( theStudy._get_StudyId() )" ).arg( aDocName );
}
else
{
aResScript << QString( "" );
- aResScript << QString( "%1 = HYDROData_Document.Document( theStudy._get_StudyId() );" ).arg( aDocName );
+ aResScript << QString( "%1 = HYDROData_Document.Document( theStudy._get_StudyId() )" ).arg( aDocName );
}
return aResScript;
}
bool HYDROData_Document::dumpPartitionToPython( QFile& theFile,
+ const QString& thePyScriptPath,
const bool theIsMultiFile,
MapOfTreatedObjects& theTreatedObjects,
const ObjectKind& theObjectKind ) const
theTreatedObjects.insert( anObjName, anObject );
- QStringList anObjDump = anObject->DumpToPython( theTreatedObjects );
+ QStringList anObjDump = anObject->DumpToPython( thePyScriptPath, theTreatedObjects );
if ( theIsMultiFile )
{
}
}
-void HYDROData_Document::Show( const Handle_HYDROData_Entity& theObject )
+void HYDROData_Document::Show( const Handle(HYDROData_Entity)& theObject )
{
HYDROData_SequenceOfObjects anOrder;
anOrder.Append( theObject );
return aNames;
}
+
+QColor HYDROData_Document::GetAssociatedColor( const QString& theStricklerType, const Handle(HYDROData_StricklerTable)& theTable ) const
+{
+ if( !theTable.IsNull() && theTable->HasType( theStricklerType ) )
+ return theTable->GetColor( theStricklerType );
+
+ HYDROData_Iterator anIt( this, KIND_STRICKLER_TABLE );
+ for( ; anIt.More(); anIt.Next() )
+ {
+ Handle(HYDROData_StricklerTable) aTable = Handle(HYDROData_StricklerTable)::DownCast( anIt.Current() );
+ if( aTable->HasType( theStricklerType ) )
+ return aTable->GetColor( theStricklerType );
+ }
+ return QColor();
+}
+
+void HYDROData_Document::CollectQGISValues( const QString& theAttrName,
+ QStringList& theAttrValues,
+ QStringList& theStricklerTypes ) const
+{
+ HYDROData_Iterator It( this, KIND_STRICKLER_TABLE );
+ for( ; It.More(); It.Next() )
+ {
+ Handle(HYDROData_StricklerTable) aTable = Handle(HYDROData_StricklerTable)::DownCast( It.Current() );
+ if( !aTable.IsNull() && aTable->GetAttrName()==theAttrName )
+ {
+ theAttrValues.clear();
+ theStricklerTypes = aTable->GetTypes();
+ foreach( QString aType, theStricklerTypes )
+ {
+ QString anAttrValue = aTable->GetAttrValue( aType );
+ theAttrValues.append( anAttrValue );
+ }
+ }
+ }
+}