X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FGEOMGUI%2FGEOM_Displayer.cxx;h=7edbae5b250419101084af6f93bee54c5481c7d6;hb=08a90cb03f6d2befe6f0b923bd690182ded48378;hp=9039393aaa53cb9617b21b0403db0bc7b1789839;hpb=3468a943e05903238dbf37e7925c8e32fcb4241d;p=modules%2Fgeom.git diff --git a/src/GEOMGUI/GEOM_Displayer.cxx b/src/GEOMGUI/GEOM_Displayer.cxx index 9039393aa..7edbae5b2 100644 --- a/src/GEOMGUI/GEOM_Displayer.cxx +++ b/src/GEOMGUI/GEOM_Displayer.cxx @@ -1,4 +1,4 @@ -// Copyright (C) 2007-2011 CEA/DEN, EDF R&D, OPEN CASCADE +// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS @@ -18,6 +18,7 @@ // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com +// // GEOM GEOMGUI : GUI for Geometry component // File : GEOM_Displayer.cxx @@ -27,6 +28,7 @@ #include "GeometryGUI.h" +#include #include #include #include @@ -37,9 +39,13 @@ #include #include +#include #include #include #include +#include + +#include #include #include @@ -47,7 +53,7 @@ #include #include -#include +#include #include #include @@ -73,10 +79,12 @@ #include #include #include +#include #include #include #include #include +#include #include #include #include @@ -87,6 +95,10 @@ #include #include +#include + +#include + // VTK Includes #include #include @@ -102,6 +114,13 @@ #include #endif +// If the next macro is defined, autocolor feature works for all sub-shapes; +// if it is undefined, autocolor feature works for groups only +//#define GENERAL_AUTOCOLOR +// Below macro, when uncommented, switches on simplified (more performant) algorithm +// of auto-color picking up +//#define SIMPLE_AUTOCOLOR + //================================================================ // Function : getActiveStudy // Purpose : Get active study, returns 0 if no open study frame @@ -304,7 +323,11 @@ GEOM_Displayer::GEOM_Displayer( SalomeApp_Study* st ) myShadingColor = SalomeApp_Tools::color( col ); myDisplayMode = resMgr->integerValue("Geometry", "display_mode", 0); + int aType = resMgr->integerValue("Geometry", "type_of_marker", (int)Aspect_TOM_PLUS); + myWidth = resMgr->integerValue("Geometry", "edge_width", -1); + myIsosWidth = resMgr->integerValue("Geometry", "isolines_width", -1); + myTypeOfMarker = (Aspect_TypeOfMarker)(std::min((int)Aspect_TOM_RING3, std::max((int)Aspect_TOM_POINT, aType))); myScaleOfMarker = (resMgr->integerValue("Geometry", "marker_scale", 1)-(int)GEOM::MS_10)*0.5 + 1.0; myScaleOfMarker = std::min(7.0, std::max(1., myScaleOfMarker)); @@ -312,12 +335,24 @@ GEOM_Displayer::GEOM_Displayer( SalomeApp_Study* st ) myColor = -1; // This color is used for shape displaying. If it is equal -1 then // default color is used. + myTexture = ""; myWidth = -1; myType = -1; myToActivate = true; // This parameter is used for activisation/deactivisation of objects to be displayed + + #if OCC_VERSION_LARGE > 0x06050100 // Functionnality available only in OCCT 6.5.2 + // Activate parallel vizualisation only for testing purpose + // and if the corresponding env variable is set to 1 + char* parallel_visu = getenv("PARALLEL_VISU"); + if (parallel_visu && atoi(parallel_visu)) + { + MESSAGE("Parallel visualisation on"); + BRepMesh_IncrementalMesh::SetParallelDefault(Standard_True); + } + #endif myViewFrame = 0; } @@ -617,12 +652,6 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) PropMap aPropMap; PropMap aDefPropMap; - if(useStudy){ - aPropMap = aStudy->getObjectPropMap(aMgrId,anEntry); - aDefPropMap = getDefaultPropertyMap(SOCC_Viewer::Type()); - MergePropertyMaps(aPropMap, aDefPropMap); - } - //Handle(GEOM_AISShape) AISShape = new GEOM_AISShape( myShape, "" ); Handle(GEOM_AISShape) AISShape; if (myType == GEOM_VECTOR) @@ -636,17 +665,30 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) // Temporary staff: vertex must be infinite for correct visualization AISShape->SetInfiniteState( myShape.Infinite() ); // || myShape.ShapeType() == TopAbs_VERTEX // VSR: 05/04/2010: Fix 20668 (Fit All for points & lines) - // Setup shape properties here ..., e.g. display mode, color, transparency, etc - if(useStudy) { - AISShape->SetDisplayMode( aPropMap.value(DISPLAY_MODE_PROP).toInt() ); - AISShape->SetDisplayVectors(aPropMap.value(VECTOR_MODE_PROP).toInt()); - - //Color property + if(useStudy){ + aPropMap = aStudy->getObjectPropMap(aMgrId,anEntry); + aDefPropMap = getDefaultPropertyMap(SOCC_Viewer::Type()); + Quantity_Color quant_col; if(aPropMap.contains(COLOR_PROP)) { - Quantity_Color quant_col = SalomeApp_Tools::color( aPropMap.value(COLOR_PROP).value()); + quant_col = SalomeApp_Tools::color( aPropMap.value(COLOR_PROP).value()); AISShape->SetShadingColor( quant_col ); } else useObjColor = true; + MergePropertyMaps(aPropMap, aDefPropMap); + if(!useObjColor && aPropMap.contains(COLOR_PROP)) { + quant_col = SalomeApp_Tools::color( aPropMap.value(COLOR_PROP).value()); + AISShape->SetShadingColor( quant_col ); + } + + // Setup shape properties here ..., e.g. display mode, color, transparency, etc + Standard_Boolean isTopLevel = Standard_False; + if(aPropMap.contains(TOP_LEVEL_PROP)) { + isTopLevel = aPropMap.value(TOP_LEVEL_PROP).value(); + } + AISShape->SetDisplayMode( aPropMap.value(DISPLAY_MODE_PROP).toInt() ); + AISShape->setTopLevel(isTopLevel); + + AISShape->SetDisplayVectors(aPropMap.value(VECTOR_MODE_PROP).toInt()); }else { AISShape->SetDisplayMode( myDisplayMode ); AISShape->SetShadingColor( myShadingColor ); @@ -665,7 +707,7 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) QStringList uv = anIsos.split(DIGIT_SEPARATOR); anUIsoNumber = uv[0].toInt(); aVIsoNumber = uv[1].toInt(); - //AISShape->SetTransparency(aPropMap.value(TRANSPARENCY_PROP).toDouble()); + AISShape->SetTransparency(aPropMap.value(TRANSPARENCY_PROP).toDouble()); } else { anUIsoNumber = aResMgr->integerValue("OCCViewer", "iso_number_u", 1); aVIsoNumber = aResMgr->integerValue("OCCViewer", "iso_number_v", 1); @@ -674,10 +716,14 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) Handle(Prs3d_IsoAspect) anAspect = AISShape->Attributes()->UIsoAspect(); anAspect->SetNumber( anUIsoNumber ); anAspect->SetColor( aColor ); - AISShape->Attributes()->SetUIsoAspect( anAspect ); + if(HasIsosWidth()) + anAspect->SetWidth( GetIsosWidth() ); + AISShape->Attributes()->SetUIsoAspect( anAspect ); anAspect = AISShape->Attributes()->VIsoAspect(); anAspect->SetNumber( aVIsoNumber ); + if(HasIsosWidth()) + anAspect->SetWidth( GetIsosWidth() ); anAspect->SetColor( aColor ); AISShape->Attributes()->SetVIsoAspect( anAspect ); @@ -721,7 +767,7 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) useObjMarker = true; } } - } + } else { if ( onlyVertex ) @@ -774,6 +820,7 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) anAspect = AISShape->Attributes()->UnFreeBoundaryAspect(); anAspect->SetColor( aColor ); AISShape->Attributes()->SetUnFreeBoundaryAspect( anAspect ); + AISShape->storeBoundaryColors(); // Set free boundaries aspect col = aResMgr->colorValue( "Geometry", "free_bound_color", QColor( 0, 255, 0 ) ); @@ -791,6 +838,11 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) anAspect->SetColor( aColor ); AISShape->Attributes()->SetWireAspect( anAspect ); + // Set color for edges in shading + col = aResMgr->colorValue( "Geometry", "edges_in_shading_color", QColor( 255, 255, 0 ) ); + aColor = SalomeApp_Tools::color( col ); + AISShape->SetEdgesInShadingColor( aColor ); + // bug [SALOME platform 0019868] // Set deviation angle. Default one is 12 degrees (Prs3d_Drawer.cxx:18) //AISShape->SetOwnDeviationAngle( 10*PI/180 ); @@ -799,6 +851,8 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) double aDC = 0; if(useStudy) { aDC = aPropMap.value(DEFLECTION_COEFF_PROP).toDouble(); + SetWidth(aPropMap.value(EDGE_WIDTH_PROP).toInt()); + SetIsosWidth(aPropMap.value(ISOS_WIDTH_PROP).toInt()); } else { aDC = aResMgr->doubleValue("Geometry", "deflection_coeff", 0.001); @@ -808,7 +862,15 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) AISShape->SetOwnDeviationCoefficient(aDC); } } - + + if ( HasTexture() ) + { + AISShape->SetTextureFileName(TCollection_AsciiString(myTexture.c_str())); + AISShape->SetTextureMapOn(); + AISShape->DisableTextureModulate(); + AISShape->SetDisplayMode(3); + } + if ( HasWidth() ) AISShape->SetWidth( GetWidth() ); @@ -851,7 +913,8 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) anAspect->SetTypeOfMarker( myTypeOfMarker ); AISShape->Attributes()->SetPointAspect( anAspect ); } - } else if(!hasColor) { + aStudy->setObjectProperty( aMgrId, anIO->getEntry(), COLOR_PROP, SalomeApp_Tools::color( aQuanColor ) ); + } else if( !hasColor ) { //In case if color wasn't defined in the property map of the object //and GEOM_Object color also wasn't defined get default color from Resource Mgr. QColor col = aResMgr->colorValue( "Geometry", "shading_color", QColor( 255, 0, 0 ) ); @@ -906,13 +969,46 @@ void GEOM_Displayer::Update( SALOME_OCCPrs* prs ) } } } + + // get material properties, set material + Material_Model material; + if ( useStudy ) { + // Get material property from study and construct material model + material.fromProperties( aPropMap.value(MATERIAL_PROP).toString() ); + } else { + // Get material property from study and construct material model + QString mname = aResMgr->stringValue( "Geometry", "material", "Plastic" ); + material.fromResources( mname ); + } + + aStudy->setObjectProperty( aMgrId, anIO->getEntry(), MATERIAL_PROP, material.toProperties() ); + + // Set material for the selected shape + AISShape->SetMaterial( material.getMaterialOCCAspect() ); + if(HasWidth()) + aStudy->setObjectProperty( aMgrId, anIO->getEntry(), EDGE_WIDTH_PROP, GetWidth() ); + if(HasIsosWidth()) + aStudy->setObjectProperty( aMgrId, anIO->getEntry(), ISOS_WIDTH_PROP, GetIsosWidth() ); } + // AISShape->SetName(???); ??? necessary to set name ??? occPrs->AddObject( AISShape ); - + // In accordance with ToActivate() value object will be activated/deactivated // when it will be displayed occPrs->SetToActivate( ToActivate() ); + + if( AISShape->isTopLevel() && AISShape->topLevelDisplayMode() == GEOM_AISShape::TopShowAdditionalWActor) { + //21671: EDF 1829 GEOM : Bring to front selected objects (continuation): + // Display wireframe presentation additionally + Handle(GEOM_TopWireframeShape) aWirePrs = new GEOM_TopWireframeShape(myShape); + aWirePrs->SetWidth(AISShape->Width()); + if ( !myIO.IsNull() ) { + aWirePrs->setIO( myIO ); + aWirePrs->SetOwner( myIO ); + } + occPrs->AddObject(aWirePrs); + } } } // if presentation is found -> set again shape for it @@ -962,10 +1058,16 @@ void GEOM_Displayer::Update( SALOME_VTKPrs* prs ) return; bool useStudy = false; + bool useObjCol = false; PropMap aPropMap; vtkActorCollection* theActors = 0; + QString anEntry; + if(!myIO.IsNull()) { + anEntry = myIO->getEntry(); + } + if ( myType == GEOM_MARKER && myShape.ShapeType() == TopAbs_FACE ) { //myToActivate = false; // ouv: commented to make the trihedron pickable (see IPAL18657) GEOM_VTKTrihedron* aTrh = GEOM_VTKTrihedron::New(); @@ -994,10 +1096,8 @@ void GEOM_Displayer::Update( SALOME_VTKPrs* prs ) else { PropMap aDefPropMap = getDefaultPropertyMap(SVTK_Viewer::Type()); - QString anEntry; if(!myIO.IsNull()) { aMgrId = getViewManagerId(myViewFrame); - anEntry = myIO->getEntry(); } useStudy = !anEntry.isEmpty() && aMgrId != -1; @@ -1010,6 +1110,8 @@ void GEOM_Displayer::Update( SALOME_VTKPrs* prs ) if(useStudy) { aPropMap = aStudy->getObjectPropMap(aMgrId,anEntry); + if(!aPropMap.contains(COLOR_PROP)) + useObjCol = true; MergePropertyMaps(aPropMap, aDefPropMap); } } @@ -1032,11 +1134,6 @@ void GEOM_Displayer::Update( SALOME_VTKPrs* prs ) aProp->SetColor( aColor.Red(), aColor.Green(), aColor.Blue() ); } - if ( HasWidth() ) - { - aProp->SetLineWidth( GetWidth() ); - } - while ( anActor != NULL ) { SALOME_Actor* GActor = SALOME_Actor::SafeDownCast( anActor ); @@ -1051,56 +1148,112 @@ void GEOM_Displayer::Update( SALOME_VTKPrs* prs ) GEOM_Actor* aGeomGActor = GEOM_Actor::SafeDownCast( anActor ); if ( aGeomGActor != 0 ) - { - if ( aProp ) { - aGeomGActor->SetShadingProperty( aProp ); - aGeomGActor->SetWireframeProperty( aProp ); - } - int aIsos[2]= { 1, 1 }; - if(useStudy) { - QString anIsos = aPropMap.value(ISOS_PROP).toString(); - QStringList uv = anIsos.split(DIGIT_SEPARATOR); - aIsos[0] = uv[0].toInt(); aIsos[1] = uv[1].toInt(); - aGeomGActor->SetNbIsos(aIsos); - aGeomGActor->SetOpacity(1.0 - aPropMap.value(TRANSPARENCY_PROP).toDouble()); - aGeomGActor->SetVectorMode(aPropMap.value(VECTOR_MODE_PROP).toInt()); - aGeomGActor->setDisplayMode(aPropMap.value(DISPLAY_MODE_PROP).toInt()); - aGeomGActor->SetDeflection(aPropMap.value(DEFLECTION_COEFF_PROP).toDouble()); - - vtkFloatingPointType aColor[3] = {1.,0.,0.}; - if(aPropMap.contains(COLOR_PROP)) { - QColor c = aPropMap.value(COLOR_PROP).value(); - aColor[0] = c.red()/255.; aColor[1] = c.green()/255.; aColor[2] = c.blue()/255.; - } else { //Get Color from geom object - Handle( SALOME_InteractiveObject ) anIO = aGeomGActor->getIO(); - if ( !anIO.IsNull() ) { - _PTR(SObject) SO ( aStudy->studyDS()->FindObjectID( anIO->getEntry() ) ); - if ( SO ) { - // get CORBA reference to data object - CORBA::Object_var object = GeometryGUI::ClientSObjectToObject(SO); - if ( !CORBA::is_nil( object ) ) { - // downcast to GEOM object - GEOM::GEOM_Object_var aGeomObject = GEOM::GEOM_Object::_narrow( object ); - bool hasColor = false; - SALOMEDS::Color aSColor = getColor(aGeomObject,hasColor); - if(hasColor) { - aColor[0] = aSColor.R; aColor[1] = aSColor.G; aColor[2] = aSColor.B; - } else { - SUIT_ResourceMgr* aResMgr = SUIT_Session::session()->resourceMgr(); - if(aResMgr) { - QColor c = aResMgr->colorValue( "Geometry", "shading_color", QColor( 255, 0, 0 ) ); - aColor[0] = c.red()/255.; aColor[1] = c.green()/255.; aColor[2] = c.blue()/255.; - aStudy->setObjectProperty( aMgrId, anIO->getEntry(), COLOR_PROP, c ); - } + { + if ( aProp ) { + aGeomGActor->SetShadingProperty( aProp ); + aGeomGActor->SetWireframeProperty( aProp ); + } + + // Set color for edges in shading + SUIT_ResourceMgr* aResMgr = SUIT_Session::session()->resourceMgr(); + if(aResMgr) { + QColor c = aResMgr->colorValue( "Geometry", "edges_in_shading_color", QColor( 255, 255, 0 ) ); + aGeomGActor->SetEdgesInShadingColor( c.red()/255., c.green()/255., c.blue()/255. ); + } + + int aIsos[2]= { 1, 1 }; + if(useStudy) { + QString anIsos = aPropMap.value(ISOS_PROP).toString(); + QStringList uv = anIsos.split(DIGIT_SEPARATOR); + aIsos[0] = uv[0].toInt(); aIsos[1] = uv[1].toInt(); + aGeomGActor->SetNbIsos(aIsos); + aGeomGActor->SetOpacity(1.0 - aPropMap.value(TRANSPARENCY_PROP).toDouble()); + SetWidth(aPropMap.value(EDGE_WIDTH_PROP).toInt()); + SetIsosWidth(aPropMap.value(ISOS_WIDTH_PROP).toInt()); + aGeomGActor->SetVectorMode(aPropMap.value(VECTOR_MODE_PROP).toInt()); + int aDispModeId = aPropMap.value(DISPLAY_MODE_PROP).toInt(); + // Specially processing of 'Shading with edges' mode from preferences, + // because there is the following enum in VTK viewer: + // Points - 0, Wireframe - 1, Surface - 2, Insideframe - 3, SurfaceWithEdges - 4 + // (see VTKViewer::Representation enum) and the following enum in GEOM_Actor: + // eWireframe - 0, eShading - 1, eShadingWithEdges - 3 + if ( aDispModeId == 2 ) + // this is 'Shading with edges' mode => do the correct mapping to EDisplayMode + // enum in GEOM_Actor (and further to VTKViewer::Representation enum) + aDispModeId++; + aGeomGActor->setDisplayMode(aDispModeId); + aGeomGActor->SetDeflection(aPropMap.value(DEFLECTION_COEFF_PROP).toDouble()); + + // Create material model + Material_Model material; + material.fromProperties( aPropMap.value(MATERIAL_PROP).toString() ); + // Set material properties for the object + aStudy->setObjectProperty( aMgrId, anEntry, MATERIAL_PROP, material.toProperties() ); + // Set the same front and back materials for the selected shape + std::vector aProps; + aProps.push_back( material.getMaterialVTKProperty() ); + aGeomGActor->SetMaterial(aProps); + + vtkFloatingPointType aColor[3] = {1.,0.,0.}; + if ( useObjCol ) { //Get Color from geom object + Handle( SALOME_InteractiveObject ) anIO = aGeomGActor->getIO(); + if ( !anIO.IsNull() ) { + _PTR(SObject) SO ( aStudy->studyDS()->FindObjectID( anIO->getEntry() ) ); + if ( SO ) { + // get CORBA reference to data object + CORBA::Object_var object = GeometryGUI::ClientSObjectToObject(SO); + if ( !CORBA::is_nil( object ) ) { + // downcast to GEOM object + GEOM::GEOM_Object_var aGeomObject = GEOM::GEOM_Object::_narrow( object ); + bool hasColor = false; + SALOMEDS::Color aSColor = getColor(aGeomObject,hasColor); + if(hasColor) { + aColor[0] = aSColor.R; aColor[1] = aSColor.G; aColor[2] = aSColor.B; + } else { + SUIT_ResourceMgr* aResMgr = SUIT_Session::session()->resourceMgr(); + if(aResMgr) { + QColor c = aResMgr->colorValue( "Geometry", "shading_color", QColor( 255, 0, 0 ) ); + aColor[0] = c.red()/255.; aColor[1] = c.green()/255.; aColor[2] = c.blue()/255.; } } + aStudy->setObjectProperty( aMgrId, anIO->getEntry(), COLOR_PROP, QColor( aColor[0] *255, aColor[1] * 255, aColor[2]* 255) ); } } } + } else { + QColor c = aPropMap.value(COLOR_PROP).value(); + aColor[0] = c.red()/255.; aColor[1] = c.green()/255.; aColor[2] = c.blue()/255.; + } + + if ( !material.isPhysical() ) aGeomGActor->SetColor(aColor[0],aColor[1],aColor[2]); + } + else { + SUIT_ResourceMgr* aResMgr = SUIT_Session::session()->resourceMgr(); + if ( aResMgr ) { + // Create material model + Material_Model material; + // Get material name from resources + QString mname = aResMgr->stringValue( "Geometry", "material", "Plastic" ); + material.fromResources( mname ); + // Set material properties for the object + aStudy->setObjectProperty( aMgrId, anEntry, MATERIAL_PROP, material.toProperties() ); + // Set material for the selected shape + std::vector aProps; + aProps.push_back( material.getMaterialVTKProperty() ); + aGeomGActor->SetMaterial(aProps); } } + } + if ( aGeomGActor ) + { + if ( HasWidth() ) + aGeomGActor->SetWidth( GetWidth() ); + if ( HasIsosWidth() ) + aGeomGActor->SetIsosWidth( GetIsosWidth() ); + } + if ( myToActivate ) GActor->PickableOn(); else @@ -1518,6 +1671,31 @@ void GEOM_Displayer::UnsetColor() myShadingColor = SalomeApp_Tools::color( col ); } +//================================================================= +/*! + * GEOM_Displayer::SetTexture + * Set color for shape displaying. If it is equal -1 then default color is used. + * Available values are from Quantity_NameOfColor enumeration + */ +//================================================================= +void GEOM_Displayer::SetTexture( const std::string& texureFileName ) +{ + if(texureFileName!="") + { + myTexture = texureFileName; + } +} + +bool GEOM_Displayer::HasTexture() const +{ + return myTexture != ""; +} + +std::string GEOM_Displayer::GetTexture() const +{ + return myTexture; +} + //================================================================= /*! * GEOM_Displayer::SetWidth @@ -1544,6 +1722,23 @@ void GEOM_Displayer::UnsetWidth() myWidth = -1; } + +int GEOM_Displayer::GetIsosWidth() const +{ + return myIsosWidth; +} + +void GEOM_Displayer::SetIsosWidth(const int width) +{ + myIsosWidth = width; +} + +bool GEOM_Displayer::HasIsosWidth() const +{ + return myIsosWidth != -1; +} + + //================================================================= /*! * GEOM_Displayer::SetToActivate @@ -1635,6 +1830,40 @@ int GEOM_Displayer::UnsetDisplayMode() return aPrevMode; } +SALOMEDS::Color GEOM_Displayer::getPredefinedUniqueColor() +{ + static QList colors; + + if ( colors.isEmpty() ) { + const int rfactor = 4; // red color component split factor, must be > 0 + const int gfactor = 4; // green color component split factor, must be > 0 + const int bfactor = 3; // blue color component split factor, must be > 0 + // - + // total number of pre-defined colors is defined as + // nbcolors = rfactor * gfactor * bfactor + // NB: all three factors should not have same values + // otherwise all colors will be greyish + + for ( int g = 0; g < gfactor; g++ ) { + for ( int r = 0; r < rfactor; r++ ) { + for ( int b = 0; b < bfactor; b++ ) + colors.append( QColor( qRgb( r * 255 / (rfactor-1), g * 255 / (gfactor-1), b * 255 / (bfactor-1) ) ) ); + } + } + } + + static int currentColor = 0; + + SALOMEDS::Color color; + color.R = (double)colors[currentColor].red() / 255.0; + color.G = (double)colors[currentColor].green() / 255.0; + color.B = (double)colors[currentColor].blue() / 255.0; + + currentColor = (currentColor+1) % colors.count(); + + return color; +} + SALOMEDS::Color GEOM_Displayer::getUniqueColor( const QList& theReservedColors ) { int aHue = -1; @@ -1739,6 +1968,24 @@ PropMap GEOM_Displayer::getDefaultPropertyMap(const QString& viewer_type) { aDefaultMap.insert( DEFLECTION_COEFF_PROP , aDC); + //8. Material + Material_Model material; + QString mname = aResMgr->stringValue( "Geometry", "material", "Plastic" ); + material.fromResources( mname ); + aDefaultMap.insert( MATERIAL_PROP, material.toProperties() ); + + //9. Width of the edges + aDefaultMap.insert( EDGE_WIDTH_PROP , aResMgr->integerValue("Geometry", "edge_width", 1)); + + + //10. Width of iso-lines + aDefaultMap.insert( ISOS_WIDTH_PROP , aResMgr->integerValue("Geometry", "isolines_width", 1)); + + if(viewer_type == SOCC_Viewer::Type()) { + + aDefaultMap.insert(TOP_LEVEL_PROP, Standard_False); + } + return aDefaultMap; } @@ -1768,6 +2015,26 @@ bool GEOM_Displayer::MergePropertyMaps(PropMap& theOrigin, PropMap& theDefault) theOrigin.insert(DEFLECTION_COEFF_PROP, theDefault.value(DEFLECTION_COEFF_PROP)); nbInserted++; } + if(!theOrigin.contains(MATERIAL_PROP)) { + theOrigin.insert(MATERIAL_PROP, theDefault.value(MATERIAL_PROP)); + nbInserted++; + } + + if(!theOrigin.contains(EDGE_WIDTH_PROP)) { + theOrigin.insert(EDGE_WIDTH_PROP, theDefault.value(EDGE_WIDTH_PROP)); + nbInserted++; + } + + if(!theOrigin.contains(ISOS_WIDTH_PROP)) { + theOrigin.insert(ISOS_WIDTH_PROP, theDefault.value(ISOS_WIDTH_PROP)); + nbInserted++; + } + + if(!theOrigin.contains(COLOR_PROP)) { + theOrigin.insert(COLOR_PROP, theDefault.value(COLOR_PROP)); + nbInserted++; + } + return (nbInserted > 0); } @@ -1777,48 +2044,50 @@ SALOMEDS::Color GEOM_Displayer::getColor(GEOM::GEOM_Object_var theGeomObject, bo hasColor = false; SUIT_Session* session = SUIT_Session::session(); - SUIT_Application* app = session->activeApplication(); + SalomeApp_Application* app = dynamic_cast( session->activeApplication() ); if ( app && !theGeomObject->_is_nil()) { SalomeApp_Study* study = dynamic_cast( app->activeStudy() ); if ( study ) { + _PTR(Study) aStudy = study->studyDS(); aSColor = theGeomObject->GetColor(); hasColor = aSColor.R >= 0 && aSColor.G >= 0 && aSColor.B >= 0; - if( !hasColor && theGeomObject->GetType() == GEOM_GROUP ) { // auto color for group - GEOM::GEOM_Gen_var theGeomGen = GeometryGUI::GetGeomGen(); - GEOM::GEOM_IGroupOperations_var anOperations = theGeomGen->GetIGroupOperations( study->id() ); - GEOM::GEOM_Object_var aMainObject = anOperations->GetMainShape( theGeomObject ); - if ( !aMainObject->_is_nil() && aMainObject->GetAutoColor() ) - { - QList aReservedColors; - - SalomeApp_Application* app = dynamic_cast( app ); - CORBA::String_var IOR = app->orb()->object_to_string( aMainObject ); - if ( strcmp(IOR.in(), "") != 0 ) - { - _PTR(Study) aStudy = study->studyDS(); - _PTR(SObject) aMainSObject( aStudy->FindObjectIOR( std::string(IOR) ) ); - _PTR(ChildIterator) it( aStudy->NewChildIterator( aMainSObject ) ); - for( ; it->More(); it->Next() ) - { - _PTR(SObject) aChildSObject( it->Value() ); - GEOM::GEOM_Object_var aChildObject = - GEOM::GEOM_Object::_narrow(GeometryGUI::ClientSObjectToObject(aChildSObject)); - if( CORBA::is_nil( aChildObject ) ) - continue; - - if( aChildObject->GetType() != GEOM_GROUP ) - continue; - - SALOMEDS::Color aReservedColor = aChildObject->GetColor(); - aReservedColors.append( aReservedColor ); - } - } - - aSColor = getUniqueColor( aReservedColors ); - hasColor = true; - } + if ( !hasColor ) { +#ifdef GENERAL_AUTOCOLOR // auto-color for all sub-shapes + bool general_autocolor = true; +#else // auto-color for groups only + bool general_autocolor = false; +#endif // GENERAL_AUTOCOLOR + if ( general_autocolor || theGeomObject->GetType() == GEOM_GROUP ) { + GEOM::GEOM_Object_var aMainObject = theGeomObject->GetMainShape(); + if ( !CORBA::is_nil( aMainObject ) && aMainObject->GetAutoColor() ) { +#ifdef SIMPLE_AUTOCOLOR // simplified algorithm for auto-colors + aSColor = getPredefinedUniqueColor(); + hasColor = true; +#else // old algorithm for auto-colors + QList aReservedColors; + CORBA::String_var IOR = app->orb()->object_to_string( aMainObject ); + _PTR(SObject) aMainSObject( aStudy->FindObjectIOR( IOR.in() ) ); + if ( aMainSObject ) { + _PTR(ChildIterator) it( aStudy->NewChildIterator( aMainSObject ) ); + for ( ; it->More(); it->Next() ) { + _PTR(SObject) aChildSObject( it->Value() ); + GEOM::GEOM_Object_var aChildObject = + GEOM::GEOM_Object::_narrow(GeometryGUI::ClientSObjectToObject(aChildSObject)); + if ( CORBA::is_nil( aChildObject ) ) + continue; + + SALOMEDS::Color aReservedColor = aChildObject->GetColor(); + if ( aReservedColor.R >= 0 && aReservedColor.G >= 0 && aReservedColor.B >= 0 ) + aReservedColors.append( aReservedColor ); + } + } + aSColor = getUniqueColor( aReservedColors ); + hasColor = true; +#endif // SIMPLE_AUTOCOLOR + } + } } } }