// Created on: 1997-07-23 // Created by: Henri JEANNIN // Copyright (c) 1997-1999 Matra Datavision // Copyright (c) 1999-2014 OPEN CASCADE SAS // // This file is part of Open CASCADE Technology software library. // // This library is free software; you can redistribute it and/or modify it under // the terms of the GNU Lesser General Public License version 2.1 as published // by the Free Software Foundation, with special exception defined in the file // OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT // distribution for complete text of the license and disclaimer of any warranty. // // Alternatively, this file may be used under the terms of Open CASCADE // commercial license or contractual agreement. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern int ViewerMainLoop(Standard_Integer argc, const char** argv); #include #include #include #define DEFAULT_COLOR Quantity_NOC_GOLDENROD #define DEFAULT_FREEBOUNDARY_COLOR Quantity_NOC_GREEN #define DEFAULT_MATERIAL Graphic3d_NOM_BRASS //======================================================================= //function : GetColorFromName //purpose : get the Quantity_NameOfColor from a string //======================================================================= Quantity_NameOfColor ViewerTest::GetColorFromName (const Standard_CString theName) { Quantity_NameOfColor aColor = DEFAULT_COLOR; Quantity_Color::ColorFromName (theName, aColor); return aColor; } //======================================================================= //function : parseColor //purpose : //======================================================================= Standard_Integer ViewerTest::parseColor (Standard_Integer theArgNb, const char** theArgVec, Quantity_ColorRGBA& theColor, bool theToParseAlpha) { Quantity_NameOfColor aColor = Quantity_NOC_BLACK; if (theArgNb >= 1 && Quantity_Color::ColorFromName (theArgVec[0], aColor)) { theColor = Quantity_ColorRGBA (aColor); if (theArgNb >= 2 && theToParseAlpha) { const TCollection_AsciiString anAlphaStr (theArgVec[1]); if (anAlphaStr.IsRealValue()) { float anAlpha = (float )anAlphaStr.RealValue(); if (anAlpha < 0.0f || anAlpha > 1.0f) { std::cout << "Syntax error: alpha should be within range 0..1!\n"; return 0; } return 2; } } return 1; } else if (theArgNb >= 3) { Graphic3d_Vec4 anRgba; Standard_Integer aNbComps = Min (theArgNb, theToParseAlpha ? 4 : 3); for (int aCompIter = 0; aCompIter < aNbComps; ++aCompIter) { const TCollection_AsciiString anRgbaStr (theArgVec[aCompIter]); if (!anRgbaStr.IsRealValue()) { if (aCompIter == 3) { anRgba.a() = 1.0f; aNbComps = 3; break; } return 0; } anRgba[aCompIter] = (float )anRgbaStr.RealValue(); if (anRgba[aCompIter] < 0.0 || anRgba[aCompIter] > 1.0) { std::cout << "Error: RGBA color values should be within range 0..1!\n"; return 0; } } theColor = Quantity_ColorRGBA (anRgba); return aNbComps; } return 0; } //======================================================================= //function : ParseOnOff //purpose : //======================================================================= Standard_Boolean ViewerTest::ParseOnOff (Standard_CString theArg, Standard_Boolean& theIsOn) { TCollection_AsciiString aFlag(theArg); aFlag.LowerCase(); if (aFlag == "on" || aFlag == "1") { theIsOn = Standard_True; return Standard_True; } else if (aFlag == "off" || aFlag == "0") { theIsOn = Standard_False; return Standard_True; } return Standard_False; } //======================================================================= //function : GetSelectedShapes //purpose : //======================================================================= void ViewerTest::GetSelectedShapes (TopTools_ListOfShape& theSelectedShapes) { for (GetAISContext()->InitSelected(); GetAISContext()->MoreSelected(); GetAISContext()->NextSelected()) { TopoDS_Shape aShape = GetAISContext()->SelectedShape(); if (!aShape.IsNull()) { theSelectedShapes.Append (aShape); } } } //======================================================================= //function : ParseLineType //purpose : //======================================================================= Standard_Boolean ViewerTest::ParseLineType (Standard_CString theArg, Aspect_TypeOfLine& theType) { TCollection_AsciiString aTypeStr (theArg); aTypeStr.LowerCase(); if (aTypeStr == "empty") { theType = Aspect_TOL_EMPTY; } else if (aTypeStr == "solid") { theType = Aspect_TOL_SOLID; } else if (aTypeStr == "dot") { theType = Aspect_TOL_DOT; } else if (aTypeStr == "dash") { theType = Aspect_TOL_DASH; } else if (aTypeStr == "dotdash") { theType = Aspect_TOL_DOTDASH; } else if (aTypeStr.IsIntegerValue()) { const int aTypeInt = aTypeStr.IntegerValue(); if (aTypeInt < -1 || aTypeInt >= Aspect_TOL_USERDEFINED) { return Standard_False; } theType = (Aspect_TypeOfLine )aTypeInt; } else { return Standard_False; } return Standard_True; } //======================================================================= //function : ParseMarkerType //purpose : //======================================================================= Standard_Boolean ViewerTest::ParseMarkerType (Standard_CString theArg, Aspect_TypeOfMarker& theType, Handle(Image_PixMap)& theImage) { theImage.Nullify(); TCollection_AsciiString aTypeStr (theArg); aTypeStr.LowerCase(); if (aTypeStr == "empty") { theType = Aspect_TOM_EMPTY; } else if (aTypeStr == "point" || aTypeStr == "dot" || aTypeStr == ".") { theType = Aspect_TOM_POINT; } else if (aTypeStr == "plus" || aTypeStr == "+") { theType = Aspect_TOM_PLUS; } else if (aTypeStr == "star" || aTypeStr == "*") { theType = Aspect_TOM_STAR; } else if (aTypeStr == "cross" || aTypeStr == "x") { theType = Aspect_TOM_X; } else if (aTypeStr == "circle" || aTypeStr == "o") { theType = Aspect_TOM_O; } else if (aTypeStr == "pointincircle") { theType = Aspect_TOM_O_POINT; } else if (aTypeStr == "plusincircle") { theType = Aspect_TOM_O_PLUS; } else if (aTypeStr == "starincircle") { theType = Aspect_TOM_O_STAR; } else if (aTypeStr == "crossincircle" || aTypeStr == "xcircle") { theType = Aspect_TOM_O_X; } else if (aTypeStr == "ring1") { theType = Aspect_TOM_RING1; } else if (aTypeStr == "ring2") { theType = Aspect_TOM_RING2; } else if (aTypeStr == "ring" || aTypeStr == "ring3") { theType = Aspect_TOM_RING3; } else if (aTypeStr == "ball") { theType = Aspect_TOM_BALL; } else if (aTypeStr.IsIntegerValue()) { const int aTypeInt = aTypeStr.IntegerValue(); if (aTypeInt < -1 || aTypeInt >= Aspect_TOM_USERDEFINED) { return Standard_False; } theType = (Aspect_TypeOfMarker )aTypeInt; } else { theType = Aspect_TOM_USERDEFINED; Handle(Image_AlienPixMap) anImage = new Image_AlienPixMap(); if (!anImage->Load (theArg)) { return Standard_False; } if (anImage->Format() == Image_Format_Gray) { anImage->SetFormat (Image_Format_Alpha); } else if (anImage->Format() == Image_Format_GrayF) { anImage->SetFormat (Image_Format_AlphaF); } theImage = anImage; } return Standard_True; } //======================================================================= //function : ParseShadingModel //purpose : //======================================================================= Standard_Boolean ViewerTest::ParseShadingModel (Standard_CString theArg, Graphic3d_TypeOfShadingModel& theModel) { TCollection_AsciiString aTypeStr (theArg); aTypeStr.LowerCase(); if (aTypeStr == "unlit" || aTypeStr == "color" || aTypeStr == "none") { theModel = Graphic3d_TOSM_UNLIT; } else if (aTypeStr == "flat" || aTypeStr == "facet") { theModel = Graphic3d_TOSM_FACET; } else if (aTypeStr == "gouraud" || aTypeStr == "vertex" || aTypeStr == "vert") { theModel = Graphic3d_TOSM_VERTEX; } else if (aTypeStr == "phong" || aTypeStr == "fragment" || aTypeStr == "frag" || aTypeStr == "pixel") { theModel = Graphic3d_TOSM_FRAGMENT; } else if (aTypeStr == "default" || aTypeStr == "def") { theModel = Graphic3d_TOSM_DEFAULT; } else if (aTypeStr.IsIntegerValue()) { const int aTypeInt = aTypeStr.IntegerValue(); if (aTypeInt <= Graphic3d_TOSM_DEFAULT || aTypeInt >= Graphic3d_TypeOfShadingModel_NB) { return Standard_False; } theModel = (Graphic3d_TypeOfShadingModel)aTypeInt; } else { return Standard_False; } return Standard_True; } //======================================================================= //function : GetTypeNames //purpose : //======================================================================= static const char** GetTypeNames() { static const char* names[14] = {"Point","Axis","Trihedron","PlaneTrihedron", "Line","Circle","Plane", "Shape","ConnectedShape","MultiConn.Shape", "ConnectedInter.","MultiConn.", "Constraint","Dimension"}; static const char** ThePointer = names; return ThePointer; } //======================================================================= //function : GetTypeAndSignfromString //purpose : //======================================================================= void GetTypeAndSignfromString (const char* name,AIS_KindOfInteractive& TheType,Standard_Integer& TheSign) { const char ** thefullnames = GetTypeNames(); Standard_Integer index(-1); for(Standard_Integer i=0;i<=13 && index==-1;i++) if(!strcasecmp(name,thefullnames[i])) index = i; if(index ==-1){ TheType = AIS_KOI_None; TheSign = -1; return; } if(index<=6){ TheType = AIS_KOI_Datum; TheSign = index+1; } else if (index <=9){ TheType = AIS_KOI_Shape; TheSign = index-7; } else if(index<=11){ TheType = AIS_KOI_Object; TheSign = index-10; } else{ TheType = AIS_KOI_Relation; TheSign = index-12; } } #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //============================================================================== // VIEWER OBJECT MANAGEMENT GLOBAL VARIABLES //============================================================================== Standard_EXPORT ViewerTest_DoubleMapOfInteractiveAndName& GetMapOfAIS(){ static ViewerTest_DoubleMapOfInteractiveAndName TheMap; return TheMap; } //======================================================================= //function : Display //purpose : //======================================================================= Standard_Boolean ViewerTest::Display (const TCollection_AsciiString& theName, const Handle(AIS_InteractiveObject)& theObject, const Standard_Boolean theToUpdate, const Standard_Boolean theReplaceIfExists) { ViewerTest_DoubleMapOfInteractiveAndName& aMap = GetMapOfAIS(); Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); if (aCtx.IsNull()) { std::cout << "Error: AIS context is not available.\n"; return Standard_False; } if (aMap.IsBound2 (theName)) { if (!theReplaceIfExists) { std::cout << "Error: other interactive object has been already registered with name: " << theName << ".\n" << "Please use another name.\n"; return Standard_False; } if (Handle(AIS_InteractiveObject) anOldObj = aMap.Find2 (theName)) { aCtx->Remove (anOldObj, theObject.IsNull() && theToUpdate); } aMap.UnBind2 (theName); } if (theObject.IsNull()) { // object with specified name has been already unbound return Standard_True; } // unbind AIS object if it was bound with another name aMap.UnBind1 (theObject); // can be registered without rebinding aMap.Bind (theObject, theName); aCtx->Display (theObject, theToUpdate); return Standard_True; } //! Alias for ViewerTest::Display(), compatibility with old code. Standard_EXPORT Standard_Boolean VDisplayAISObject (const TCollection_AsciiString& theName, const Handle(AIS_InteractiveObject)& theObject, Standard_Boolean theReplaceIfExists = Standard_True) { return ViewerTest::Display (theName, theObject, Standard_True, theReplaceIfExists); } static TColStd_MapOfInteger theactivatedmodes(8); static TColStd_ListOfTransient theEventMgrs; static void VwrTst_InitEventMgr(const Handle(V3d_View)& aView, const Handle(AIS_InteractiveContext)& Ctx) { theEventMgrs.Clear(); theEventMgrs.Prepend(new ViewerTest_EventManager(aView, Ctx)); } static Handle(V3d_View)& a3DView() { static Handle(V3d_View) Viou; return Viou; } Standard_EXPORT Handle(AIS_InteractiveContext)& TheAISContext(){ static Handle(AIS_InteractiveContext) aContext; return aContext; } const Handle(V3d_View)& ViewerTest::CurrentView() { return a3DView(); } void ViewerTest::CurrentView(const Handle(V3d_View)& V) { a3DView() = V; } const Handle(AIS_InteractiveContext)& ViewerTest::GetAISContext() { return TheAISContext(); } void ViewerTest::SetAISContext (const Handle(AIS_InteractiveContext)& aCtx) { TheAISContext() = aCtx; ViewerTest::ResetEventManager(); } Handle(V3d_Viewer) ViewerTest::GetViewerFromContext() { return !TheAISContext().IsNull() ? TheAISContext()->CurrentViewer() : Handle(V3d_Viewer)(); } Handle(V3d_Viewer) ViewerTest::GetCollectorFromContext() { return !TheAISContext().IsNull() ? TheAISContext()->CurrentViewer() : Handle(V3d_Viewer)(); } void ViewerTest::SetEventManager(const Handle(ViewerTest_EventManager)& EM){ theEventMgrs.Prepend(EM); } void ViewerTest::UnsetEventManager() { theEventMgrs.RemoveFirst(); } void ViewerTest::ResetEventManager() { const Handle(V3d_View) aView = ViewerTest::CurrentView(); VwrTst_InitEventMgr(aView, ViewerTest::GetAISContext()); } Handle(ViewerTest_EventManager) ViewerTest::CurrentEventManager() { Handle(ViewerTest_EventManager) EM; if(theEventMgrs.IsEmpty()) return EM; Handle(Standard_Transient) Tr = theEventMgrs.First(); EM = Handle(ViewerTest_EventManager)::DownCast (Tr); return EM; } //======================================================================= //function : Get Context and active view //purpose : //======================================================================= static Standard_Boolean getCtxAndView (Handle(AIS_InteractiveContext)& theCtx, Handle(V3d_View)& theView) { theCtx = ViewerTest::GetAISContext(); theView = ViewerTest::CurrentView(); if (theCtx.IsNull() || theView.IsNull()) { std::cout << "Error: cannot find an active view!\n"; return Standard_False; } return Standard_True; } //============================================================================== //function : Clear //purpose : Remove all the object from the viewer //============================================================================== void ViewerTest::Clear() { if (a3DView().IsNull()) { return; } NCollection_Sequence aListRemoved; for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anObjIter (GetMapOfAIS()); anObjIter.More(); anObjIter.Next()) { const Handle(AIS_InteractiveObject) anObj = anObjIter.Key1(); if (anObj->GetContext() != TheAISContext()) { continue; } std::cout << "Remove " << anObjIter.Key2() << std::endl; TheAISContext()->Remove (anObj, Standard_False); aListRemoved.Append (anObj); } TheAISContext()->RebuildSelectionStructs(); TheAISContext()->UpdateCurrentViewer(); if (aListRemoved.Size() == GetMapOfAIS().Extent()) { GetMapOfAIS().Clear(); } else { for (NCollection_Sequence::Iterator anObjIter (aListRemoved); anObjIter.More(); anObjIter.Next()) { GetMapOfAIS().UnBind1 (anObjIter.Value()); } } } //============================================================================== //function : CopyIsoAspect //purpose : Returns copy Prs3d_IsoAspect with new number of isolines. //============================================================================== static Handle(Prs3d_IsoAspect) CopyIsoAspect (const Handle(Prs3d_IsoAspect) &theIsoAspect, const Standard_Integer theNbIsos) { Quantity_Color aColor = theIsoAspect->Aspect()->Color(); Aspect_TypeOfLine aType = theIsoAspect->Aspect()->Type(); Standard_Real aWidth = theIsoAspect->Aspect()->Width(); Handle(Prs3d_IsoAspect) aResult = new Prs3d_IsoAspect(aColor, aType, aWidth, theNbIsos); return aResult; } //============================================================================== //function : visos //purpose : Returns or sets the number of U- and V- isos and isIsoOnPlane flag //Draw arg : [name1 ...] [nbUIsos nbVIsos IsoOnPlane(0|1)] //============================================================================== static int visos (Draw_Interpretor& di, Standard_Integer argc, const char** argv) { if (TheAISContext().IsNull()) { di << argv[0] << " Call 'vinit' before!\n"; return 1; } if (argc <= 1) { di << "Current number of isos : " << TheAISContext()->IsoNumber(AIS_TOI_IsoU) << " " << TheAISContext()->IsoNumber(AIS_TOI_IsoV) << "\n"; di << "IsoOnPlane mode is " << (TheAISContext()->IsoOnPlane() ? "ON" : "OFF") << "\n"; di << "IsoOnTriangulation mode is " << (TheAISContext()->IsoOnTriangulation() ? "ON" : "OFF") << "\n"; return 0; } Standard_Integer aLastInd = argc - 1; Standard_Boolean isChanged = Standard_False; Standard_Integer aNbUIsos = 0; Standard_Integer aNbVIsos = 0; if (aLastInd >= 3) { Standard_Boolean isIsoOnPlane = Standard_False; if (strcmp(argv[aLastInd], "1") == 0) { isIsoOnPlane = Standard_True; isChanged = Standard_True; } else if (strcmp(argv[aLastInd], "0") == 0) { isIsoOnPlane = Standard_False; isChanged = Standard_True; } if (isChanged) { aNbVIsos = Draw::Atoi(argv[aLastInd - 1]); aNbUIsos = Draw::Atoi(argv[aLastInd - 2]); aLastInd -= 3; di << "New number of isos : " << aNbUIsos << " " << aNbVIsos << "\n"; di << "New IsoOnPlane mode is " << (isIsoOnPlane ? "ON" : "OFF") << "\n"; TheAISContext()->IsoOnPlane(isIsoOnPlane); if (aLastInd == 0) { // If there are no shapes provided set the default numbers. TheAISContext()->SetIsoNumber(aNbUIsos, AIS_TOI_IsoU); TheAISContext()->SetIsoNumber(aNbVIsos, AIS_TOI_IsoV); } } } Standard_Integer i; for (i = 1; i <= aLastInd; i++) { TCollection_AsciiString name(argv[i]); Handle(AIS_InteractiveObject) aShape; GetMapOfAIS().Find2(name, aShape); if (aShape.IsNull()) { std::cout << "Syntax error: object '" << name << "' is not found\n"; return 1; } Handle(Prs3d_Drawer) CurDrawer = aShape->Attributes(); Handle(Prs3d_IsoAspect) aUIso = CurDrawer->UIsoAspect(); Handle(Prs3d_IsoAspect) aVIso = CurDrawer->VIsoAspect(); if (isChanged) { CurDrawer->SetUIsoAspect(CopyIsoAspect(aUIso, aNbUIsos)); CurDrawer->SetVIsoAspect(CopyIsoAspect(aVIso, aNbVIsos)); TheAISContext()->SetLocalAttributes (aShape, CurDrawer, Standard_False); TheAISContext()->Redisplay (aShape, Standard_False); } else { di << "Number of isos for " << argv[i] << " : " << aUIso->Number() << " " << aVIso->Number() << "\n"; } } if (isChanged) { TheAISContext()->UpdateCurrentViewer(); } return 0; } static Standard_Integer VDispSensi (Draw_Interpretor& , Standard_Integer theArgNb, Standard_CString* ) { if (theArgNb > 1) { std::cout << "Error: wrong syntax!\n"; return 1; } Handle(AIS_InteractiveContext) aCtx; Handle(V3d_View) aView; if (!getCtxAndView (aCtx, aView)) { return 1; } aCtx->DisplayActiveSensitive (aView); return 0; } static Standard_Integer VClearSensi (Draw_Interpretor& , Standard_Integer theArgNb, Standard_CString* ) { if (theArgNb > 1) { std::cout << "Error: wrong syntax!\n"; return 1; } Handle(AIS_InteractiveContext) aCtx; Handle(V3d_View) aView; if (!getCtxAndView (aCtx, aView)) { return 1; } aCtx->ClearActiveSensitive (aView); return 0; } //============================================================================== //function : VDir //purpose : To list the displayed object with their attributes //============================================================================== static int VDir (Draw_Interpretor& theDI, Standard_Integer , const char** ) { for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { theDI << "\t" << anIter.Key2() << "\n"; } return 0; } //! Auxiliary enumeration enum ViewerTest_StereoPair { ViewerTest_SP_Single, ViewerTest_SP_SideBySide, ViewerTest_SP_OverUnder }; //============================================================================== //function : VDump //purpose : To dump the active view snapshot to image file //============================================================================== static Standard_Integer VDump (Draw_Interpretor& theDI, Standard_Integer theArgNb, Standard_CString* theArgVec) { if (theArgNb < 2) { std::cout << "Error: wrong number of arguments! Image file name should be specified at least.\n"; return 1; } Standard_Integer anArgIter = 1; Standard_CString aFilePath = theArgVec[anArgIter++]; ViewerTest_StereoPair aStereoPair = ViewerTest_SP_Single; V3d_ImageDumpOptions aParams; aParams.BufferType = Graphic3d_BT_RGB; aParams.StereoOptions = V3d_SDO_MONO; for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArg (theArgVec[anArgIter]); anArg.LowerCase(); if (anArg == "-buffer") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at '" << anArg << "'\n"; return 1; } TCollection_AsciiString aBufArg (theArgVec[anArgIter]); aBufArg.LowerCase(); if (aBufArg == "rgba") { aParams.BufferType = Graphic3d_BT_RGBA; } else if (aBufArg == "rgb") { aParams.BufferType = Graphic3d_BT_RGB; } else if (aBufArg == "depth") { aParams.BufferType = Graphic3d_BT_Depth; } else { std::cout << "Error: unknown buffer '" << aBufArg << "'\n"; return 1; } } else if (anArg == "-stereo") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at '" << anArg << "'\n"; return 1; } TCollection_AsciiString aStereoArg (theArgVec[anArgIter]); aStereoArg.LowerCase(); if (aStereoArg == "l" || aStereoArg == "left") { aParams.StereoOptions = V3d_SDO_LEFT_EYE; } else if (aStereoArg == "r" || aStereoArg == "right") { aParams.StereoOptions = V3d_SDO_RIGHT_EYE; } else if (aStereoArg == "mono") { aParams.StereoOptions = V3d_SDO_MONO; } else if (aStereoArg == "blended" || aStereoArg == "blend" || aStereoArg == "stereo") { aParams.StereoOptions = V3d_SDO_BLENDED; } else if (aStereoArg == "sbs" || aStereoArg == "sidebyside") { aStereoPair = ViewerTest_SP_SideBySide; } else if (aStereoArg == "ou" || aStereoArg == "overunder") { aStereoPair = ViewerTest_SP_OverUnder; } else { std::cout << "Error: unknown stereo format '" << aStereoArg << "'\n"; return 1; } } else if (anArg == "-rgba" || anArg == "rgba") { aParams.BufferType = Graphic3d_BT_RGBA; } else if (anArg == "-rgb" || anArg == "rgb") { aParams.BufferType = Graphic3d_BT_RGB; } else if (anArg == "-depth" || anArg == "depth") { aParams.BufferType = Graphic3d_BT_Depth; } else if (anArg == "-width" || anArg == "width" || anArg == "sizex") { if (aParams.Width != 0) { std::cout << "Error: wrong syntax at " << theArgVec[anArgIter] << "\n"; return 1; } else if (++anArgIter >= theArgNb) { std::cout << "Error: integer value is expected right after 'width'\n"; return 1; } aParams.Width = Draw::Atoi (theArgVec[anArgIter]); } else if (anArg == "-height" || anArg == "height" || anArg == "-sizey") { if (aParams.Height != 0) { std::cout << "Error: wrong syntax at " << theArgVec[anArgIter] << "\n"; return 1; } else if (++anArgIter >= theArgNb) { std::cout << "Error: integer value is expected right after 'height'\n"; return 1; } aParams.Height = Draw::Atoi (theArgVec[anArgIter]); } else if (anArg == "-tile" || anArg == "-tilesize") { if (++anArgIter >= theArgNb) { std::cout << "Error: integer value is expected right after 'tileSize'\n"; return 1; } aParams.TileSize = Draw::Atoi (theArgVec[anArgIter]); } else { std::cout << "Error: unknown argument '" << theArgVec[anArgIter] << "'\n"; return 1; } } if ((aParams.Width <= 0 && aParams.Height > 0) || (aParams.Width > 0 && aParams.Height <= 0)) { std::cout << "Error: dimensions " << aParams.Width << "x" << aParams.Height << " are incorrect\n"; return 1; } Handle(V3d_View) aView = ViewerTest::CurrentView(); if (aView.IsNull()) { std::cout << "Error: cannot find an active view!\n"; return 1; } if (aParams.Width <= 0 || aParams.Height <= 0) { aView->Window()->Size (aParams.Width, aParams.Height); } Image_AlienPixMap aPixMap; Image_Format aFormat = Image_Format_UNKNOWN; switch (aParams.BufferType) { case Graphic3d_BT_RGB: aFormat = Image_Format_RGB; break; case Graphic3d_BT_RGBA: aFormat = Image_Format_RGBA; break; case Graphic3d_BT_Depth: aFormat = Image_Format_GrayF; break; case Graphic3d_BT_RGB_RayTraceHdrLeft: aFormat = Image_Format_RGBF; break; } switch (aStereoPair) { case ViewerTest_SP_Single: { if (!aView->ToPixMap (aPixMap, aParams)) { theDI << "Fail: view dump failed!\n"; return 0; } else if (aPixMap.SizeX() != Standard_Size(aParams.Width) || aPixMap.SizeY() != Standard_Size(aParams.Height)) { theDI << "Fail: dumped dimensions " << (Standard_Integer )aPixMap.SizeX() << "x" << (Standard_Integer )aPixMap.SizeY() << " are lesser than requested " << aParams.Width << "x" << aParams.Height << "\n"; } break; } case ViewerTest_SP_SideBySide: { if (!aPixMap.InitZero (aFormat, aParams.Width * 2, aParams.Height)) { theDI << "Fail: not enough memory for image allocation!\n"; return 0; } Image_PixMap aPixMapL, aPixMapR; aPixMapL.InitWrapper (aPixMap.Format(), aPixMap.ChangeData(), aParams.Width, aParams.Height, aPixMap.SizeRowBytes()); aPixMapR.InitWrapper (aPixMap.Format(), aPixMap.ChangeData() + aPixMap.SizePixelBytes() * aParams.Width, aParams.Width, aParams.Height, aPixMap.SizeRowBytes()); aParams.StereoOptions = V3d_SDO_LEFT_EYE; Standard_Boolean isOk = aView->ToPixMap (aPixMapL, aParams); aParams.StereoOptions = V3d_SDO_RIGHT_EYE; isOk = isOk && aView->ToPixMap (aPixMapR, aParams); if (!isOk) { theDI << "Fail: view dump failed!\n"; return 0; } break; } case ViewerTest_SP_OverUnder: { if (!aPixMap.InitZero (aFormat, aParams.Width, aParams.Height * 2)) { theDI << "Fail: not enough memory for image allocation!\n"; return 0; } Image_PixMap aPixMapL, aPixMapR; aPixMapL.InitWrapper (aPixMap.Format(), aPixMap.ChangeData(), aParams.Width, aParams.Height, aPixMap.SizeRowBytes()); aPixMapR.InitWrapper (aPixMap.Format(), aPixMap.ChangeData() + aPixMap.SizeRowBytes() * aParams.Height, aParams.Width, aParams.Height, aPixMap.SizeRowBytes()); aParams.StereoOptions = V3d_SDO_LEFT_EYE; Standard_Boolean isOk = aView->ToPixMap (aPixMapL, aParams); aParams.StereoOptions = V3d_SDO_RIGHT_EYE; isOk = isOk && aView->ToPixMap (aPixMapR, aParams); if (!isOk) { theDI << "Fail: view dump failed!\n"; return 0; } break; } } if (!aPixMap.Save (aFilePath)) { theDI << "Fail: image can not be saved!\n"; } return 0; } enum TypeOfDispOperation { TypeOfDispOperation_SetDispMode, TypeOfDispOperation_UnsetDispMode }; //! Displays,Erase... static void VwrTst_DispErase (const Handle(AIS_InteractiveObject)& thePrs, const Standard_Integer theMode, const TypeOfDispOperation theType, const Standard_Boolean theToUpdate) { Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); switch (theType) { case TypeOfDispOperation_SetDispMode: { if (!thePrs.IsNull()) { aCtx->SetDisplayMode (thePrs, theMode, theToUpdate); } else { aCtx->SetDisplayMode ((AIS_DisplayMode )theMode, theToUpdate); } break; } case TypeOfDispOperation_UnsetDispMode: { if (!thePrs.IsNull()) { aCtx->UnsetDisplayMode (thePrs, theToUpdate); } else { aCtx->SetDisplayMode (AIS_WireFrame, theToUpdate); } break; } } } //======================================================================= //function : //purpose : //======================================================================= static int VDispMode (Draw_Interpretor& , Standard_Integer argc, const char** argv) { if (argc < 1 || argc > 3) { std::cout << "Syntax error: wrong number of arguments\n"; return 1; } TypeOfDispOperation aType = TCollection_AsciiString (argv[0]) == "vunsetdispmode" ? TypeOfDispOperation_UnsetDispMode : TypeOfDispOperation_SetDispMode; Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); if (aType == TypeOfDispOperation_UnsetDispMode) { if (argc == 1) { if (aCtx->NbSelected() == 0) { VwrTst_DispErase (Handle(AIS_InteractiveObject)(), -1, TypeOfDispOperation_UnsetDispMode, Standard_False); } else { for (aCtx->InitSelected(); aCtx->MoreSelected(); aCtx->NextSelected()) { VwrTst_DispErase (aCtx->SelectedInteractive(), -1, TypeOfDispOperation_UnsetDispMode, Standard_False); } } aCtx->UpdateCurrentViewer(); } else { TCollection_AsciiString aName = argv[1]; Handle(AIS_InteractiveObject) aPrs; if (GetMapOfAIS().Find2 (aName, aPrs) && !aPrs.IsNull()) { VwrTst_DispErase (aPrs, -1, TypeOfDispOperation_UnsetDispMode, Standard_True); } } } else if (argc == 2) { Standard_Integer aDispMode = Draw::Atoi (argv[1]); if (aCtx->NbSelected() == 0 && aType == TypeOfDispOperation_SetDispMode) { VwrTst_DispErase (Handle(AIS_InteractiveObject)(), aDispMode, TypeOfDispOperation_SetDispMode, Standard_True); } for (aCtx->InitSelected(); aCtx->MoreSelected(); aCtx->NextSelected()) { VwrTst_DispErase (aCtx->SelectedInteractive(), aDispMode, aType, Standard_False); } aCtx->UpdateCurrentViewer(); } else { Handle(AIS_InteractiveObject) aPrs; TCollection_AsciiString aName (argv[1]); if (GetMapOfAIS().Find2 (aName, aPrs) && !aPrs.IsNull()) { VwrTst_DispErase (aPrs, Draw::Atoi(argv[2]), aType, Standard_True); } } return 0; } //======================================================================= //function : //purpose : //======================================================================= static int VSubInt(Draw_Interpretor& di, Standard_Integer argc, const char** argv) { if(argc==1) return 1; Standard_Integer On = Draw::Atoi(argv[1]); const Handle(AIS_InteractiveContext)& Ctx = ViewerTest::GetAISContext(); if(argc==2) { TCollection_AsciiString isOnOff = On == 1 ? "on" : "off"; di << "Sub intensite is turned " << isOnOff << " for " << Ctx->NbSelected() << "objects\n"; for (Ctx->InitSelected(); Ctx->MoreSelected(); Ctx->NextSelected()) { if(On==1) { Ctx->SubIntensityOn (Ctx->SelectedInteractive(), Standard_False); } else { Ctx->SubIntensityOff (Ctx->SelectedInteractive(), Standard_False); } } Ctx->UpdateCurrentViewer(); } else { Handle(AIS_InteractiveObject) IO; TCollection_AsciiString name = argv[2]; if (GetMapOfAIS().Find2 (name, IO) && !IO.IsNull()) { if(On==1) Ctx->SubIntensityOn(IO, Standard_True); else Ctx->SubIntensityOff(IO, Standard_True); } else return 1; } return 0; } //! Auxiliary class to iterate presentations from different collections. class ViewTest_PrsIter { public: //! Create and initialize iterator object. ViewTest_PrsIter (const TCollection_AsciiString& theName) : mySource (IterSource_All) { NCollection_Sequence aNames; if (!theName.IsEmpty()) aNames.Append (theName); Init (aNames); } //! Create and initialize iterator object. ViewTest_PrsIter (const NCollection_Sequence& theNames) : mySource (IterSource_All) { Init (theNames); } //! Initialize the iterator. void Init (const NCollection_Sequence& theNames) { Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); mySeq = theNames; mySelIter.Nullify(); myCurrent.Nullify(); myCurrentTrs.Nullify(); if (!mySeq.IsEmpty()) { mySource = IterSource_List; mySeqIter = NCollection_Sequence::Iterator (mySeq); } else if (aCtx->NbSelected() > 0) { mySource = IterSource_Selected; mySelIter = aCtx; mySelIter->InitSelected(); } else { mySource = IterSource_All; myMapIter.Initialize (GetMapOfAIS()); } initCurrent(); } const TCollection_AsciiString& CurrentName() const { return myCurrentName; } const Handle(AIS_InteractiveObject)& Current() const { return myCurrent; } const Handle(Standard_Transient)& CurrentTrs() const { return myCurrentTrs; } //! @return true if iterator points to valid object within collection Standard_Boolean More() const { switch (mySource) { case IterSource_All: return myMapIter.More(); case IterSource_List: return mySeqIter.More(); case IterSource_Selected: return mySelIter->MoreSelected(); } return Standard_False; } //! Go to the next item. void Next() { myCurrentName.Clear(); myCurrentTrs.Nullify(); myCurrent.Nullify(); switch (mySource) { case IterSource_All: { myMapIter.Next(); break; } case IterSource_List: { mySeqIter.Next(); break; } case IterSource_Selected: { mySelIter->NextSelected(); break; } } initCurrent(); } private: void initCurrent() { switch (mySource) { case IterSource_All: { if (myMapIter.More()) { myCurrentName = myMapIter.Key2(); myCurrentTrs = myMapIter.Key1(); myCurrent = Handle(AIS_InteractiveObject)::DownCast (myCurrentTrs); } break; } case IterSource_List: { if (mySeqIter.More()) { if (!GetMapOfAIS().IsBound2 (mySeqIter.Value())) { std::cout << "Error: object " << mySeqIter.Value() << " is not displayed!\n"; return; } myCurrentName = mySeqIter.Value(); myCurrentTrs = GetMapOfAIS().Find2 (mySeqIter.Value()); myCurrent = Handle(AIS_InteractiveObject)::DownCast (myCurrentTrs); } break; } case IterSource_Selected: { if (mySelIter->MoreSelected()) { myCurrentName = GetMapOfAIS().Find1 (mySelIter->SelectedInteractive()); myCurrent = mySelIter->SelectedInteractive(); } break; } } } private: enum IterSource { IterSource_All, IterSource_List, IterSource_Selected }; private: Handle(AIS_InteractiveContext) mySelIter; //!< iterator for current (selected) objects (IterSource_Selected) ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName myMapIter; //!< iterator for map of all objects (IterSource_All) NCollection_Sequence mySeq; NCollection_Sequence::Iterator mySeqIter; TCollection_AsciiString myCurrentName;//!< current item name Handle(Standard_Transient) myCurrentTrs; //!< current item (as transient object) Handle(AIS_InteractiveObject) myCurrent; //!< current item IterSource mySource; //!< iterated collection }; //! Parse interior style name. static bool parseInteriorStyle (const TCollection_AsciiString& theArg, Aspect_InteriorStyle& theStyle) { TCollection_AsciiString anArg (theArg); anArg.LowerCase(); if (anArg == "empty") { theStyle = Aspect_IS_EMPTY; } else if (anArg == "hollow") { theStyle = Aspect_IS_HOLLOW; } else if (anArg == "solid") { theStyle = Aspect_IS_SOLID; } else if (anArg == "hatch") { theStyle = Aspect_IS_HATCH; } else if (anArg == "hiddenline" || anArg == "hidden-line" || anArg == "hidden_line") { theStyle = Aspect_IS_HIDDENLINE; } else if (anArg == "point") { theStyle = Aspect_IS_POINT; } else if (theArg.IsIntegerValue()) { const Standard_Integer anIntStyle = theArg.IntegerValue(); if (anIntStyle < Aspect_IS_EMPTY || anIntStyle > Aspect_IS_POINT) { return false; } theStyle = (Aspect_InteriorStyle)anIntStyle; } else { return false; } return true; } //! Auxiliary structure for VAspects struct ViewerTest_AspectsChangeSet { Standard_Integer ToSetVisibility; Standard_Integer Visibility; Standard_Integer ToSetColor; Quantity_Color Color; Standard_Integer ToSetLineWidth; Standard_Real LineWidth; Standard_Integer ToSetTypeOfLine; Aspect_TypeOfLine TypeOfLine; Standard_Integer ToSetTypeOfMarker; Aspect_TypeOfMarker TypeOfMarker; Handle(Image_PixMap) MarkerImage; Standard_Integer ToSetMarkerSize; Standard_Real MarkerSize; Standard_Integer ToSetTransparency; Standard_Real Transparency; Standard_Integer ToSetAlphaMode; Graphic3d_AlphaMode AlphaMode; Standard_ShortReal AlphaCutoff; Standard_Integer ToSetMaterial; Graphic3d_NameOfMaterial Material; TCollection_AsciiString MatName; NCollection_Sequence SubShapes; Standard_Integer ToSetShowFreeBoundary; Standard_Integer ToSetFreeBoundaryWidth; Standard_Real FreeBoundaryWidth; Standard_Integer ToSetFreeBoundaryColor; Quantity_Color FreeBoundaryColor; Standard_Integer ToEnableIsoOnTriangulation; Standard_Integer ToSetFaceBoundaryDraw; Standard_Integer ToSetFaceBoundaryUpperContinuity; GeomAbs_Shape FaceBoundaryUpperContinuity; Standard_Integer ToSetFaceBoundaryColor; Quantity_Color FaceBoundaryColor; Standard_Integer ToSetFaceBoundaryWidth; Standard_Real FaceBoundaryWidth; Standard_Integer ToSetTypeOfFaceBoundaryLine; Aspect_TypeOfLine TypeOfFaceBoundaryLine; Standard_Integer ToSetMaxParamValue; Standard_Real MaxParamValue; Standard_Integer ToSetSensitivity; Standard_Integer SelectionMode; Standard_Integer Sensitivity; Standard_Integer ToSetHatch; Standard_Integer StdHatchStyle; TCollection_AsciiString PathToHatchPattern; Standard_Integer ToSetShadingModel; Graphic3d_TypeOfShadingModel ShadingModel; TCollection_AsciiString ShadingModelName; Standard_Integer ToSetInterior; Aspect_InteriorStyle InteriorStyle; Standard_Integer ToSetDrawSilhouette; Standard_Integer ToSetDrawEdges; Standard_Integer ToSetQuadEdges; Standard_Integer ToSetEdgeColor; Quantity_ColorRGBA EdgeColor; Standard_Integer ToSetEdgeWidth; Standard_Real EdgeWidth; Standard_Integer ToSetTypeOfEdge; Aspect_TypeOfLine TypeOfEdge; //! Empty constructor ViewerTest_AspectsChangeSet() : ToSetVisibility (0), Visibility (1), ToSetColor (0), Color (DEFAULT_COLOR), ToSetLineWidth (0), LineWidth (1.0), ToSetTypeOfLine (0), TypeOfLine (Aspect_TOL_SOLID), ToSetTypeOfMarker (0), TypeOfMarker (Aspect_TOM_PLUS), ToSetMarkerSize (0), MarkerSize (1.0), ToSetTransparency (0), Transparency (0.0), ToSetAlphaMode (0), AlphaMode (Graphic3d_AlphaMode_BlendAuto), AlphaCutoff (0.5f), ToSetMaterial (0), Material (Graphic3d_NOM_DEFAULT), ToSetShowFreeBoundary (0), ToSetFreeBoundaryWidth (0), FreeBoundaryWidth (1.0), ToSetFreeBoundaryColor (0), FreeBoundaryColor (DEFAULT_FREEBOUNDARY_COLOR), ToEnableIsoOnTriangulation (0), // ToSetFaceBoundaryDraw (0), ToSetFaceBoundaryUpperContinuity (0), FaceBoundaryUpperContinuity(GeomAbs_CN), ToSetFaceBoundaryColor (0), FaceBoundaryColor (Quantity_NOC_BLACK), ToSetFaceBoundaryWidth (0), FaceBoundaryWidth (1.0f), ToSetTypeOfFaceBoundaryLine(0), TypeOfFaceBoundaryLine (Aspect_TOL_SOLID), // ToSetMaxParamValue (0), MaxParamValue (500000), ToSetSensitivity (0), SelectionMode (-1), Sensitivity (-1), ToSetHatch (0), StdHatchStyle (-1), ToSetShadingModel (0), ShadingModel (Graphic3d_TOSM_DEFAULT), ToSetInterior (0), InteriorStyle (Aspect_IS_SOLID), ToSetDrawSilhouette (0), ToSetDrawEdges (0), ToSetQuadEdges (0), ToSetEdgeColor (0), ToSetEdgeWidth (0), EdgeWidth (1.0), ToSetTypeOfEdge (0), TypeOfEdge (Aspect_TOL_SOLID) {} //! @return true if no changes have been requested Standard_Boolean IsEmpty() const { return ToSetVisibility == 0 && ToSetLineWidth == 0 && ToSetTransparency == 0 && ToSetAlphaMode == 0 && ToSetColor == 0 && ToSetMaterial == 0 && ToSetShowFreeBoundary == 0 && ToSetFreeBoundaryColor == 0 && ToSetFreeBoundaryWidth == 0 && ToEnableIsoOnTriangulation == 0 && ToSetFaceBoundaryDraw == 0 && ToSetFaceBoundaryUpperContinuity == 0 && ToSetFaceBoundaryColor == 0 && ToSetFaceBoundaryWidth == 0 && ToSetTypeOfFaceBoundaryLine == 0 && ToSetMaxParamValue == 0 && ToSetSensitivity == 0 && ToSetHatch == 0 && ToSetShadingModel == 0 && ToSetInterior == 0 && ToSetDrawSilhouette == 0 && ToSetDrawEdges == 0 && ToSetQuadEdges == 0 && ToSetEdgeColor == 0 && ToSetEdgeWidth == 0 && ToSetTypeOfEdge == 0; } //! @return true if properties are valid Standard_Boolean Validate() const { Standard_Boolean isOk = Standard_True; if (Visibility != 0 && Visibility != 1) { std::cout << "Error: the visibility should be equal to 0 or 1 (0 - invisible; 1 - visible) (specified " << Visibility << ")\n"; isOk = Standard_False; } if (LineWidth <= 0.0 || LineWidth > 10.0) { std::cout << "Error: the width should be within [1; 10] range (specified " << LineWidth << ")\n"; isOk = Standard_False; } if (Transparency < 0.0 || Transparency > 1.0) { std::cout << "Error: the transparency should be within [0; 1] range (specified " << Transparency << ")\n"; isOk = Standard_False; } if (ToSetAlphaMode == 1 && (AlphaCutoff <= 0.0f || AlphaCutoff >= 1.0f)) { std::cout << "Error: alpha cutoff value should be within (0; 1) range (specified " << AlphaCutoff << ")\n"; isOk = Standard_False; } if (ToSetMaterial == 1 && Material == Graphic3d_NOM_DEFAULT) { std::cout << "Error: unknown material " << MatName << ".\n"; isOk = Standard_False; } if (FreeBoundaryWidth <= 0.0 || FreeBoundaryWidth > 10.0) { std::cout << "Error: the free boundary width should be within [1; 10] range (specified " << FreeBoundaryWidth << ")\n"; isOk = Standard_False; } if (MaxParamValue < 0.0) { std::cout << "Error: the max parameter value should be greater than zero (specified " << MaxParamValue << ")\n"; isOk = Standard_False; } if (Sensitivity <= 0 && ToSetSensitivity) { std::cout << "Error: sensitivity parameter value should be positive (specified " << Sensitivity << ")\n"; isOk = Standard_False; } if (ToSetHatch == 1 && StdHatchStyle < 0 && PathToHatchPattern == "") { std::cout << "Error: hatch style must be specified\n"; isOk = Standard_False; } if (ToSetShadingModel == 1 && (ShadingModel < Graphic3d_TOSM_DEFAULT || ShadingModel > Graphic3d_TOSM_FRAGMENT)) { std::cout << "Error: unknown shading model " << ShadingModelName << ".\n"; isOk = Standard_False; } return isOk; } //! Apply aspects to specified drawer. bool Apply (const Handle(Prs3d_Drawer)& theDrawer) { bool toRecompute = false; const Handle(Prs3d_Drawer)& aDefDrawer = ViewerTest::GetAISContext()->DefaultDrawer(); if (ToSetShowFreeBoundary != 0) { theDrawer->SetFreeBoundaryDraw (ToSetShowFreeBoundary == 1); toRecompute = true; } if (ToSetFreeBoundaryWidth != 0) { if (ToSetFreeBoundaryWidth != -1 || theDrawer->HasOwnFreeBoundaryAspect()) { if (!theDrawer->HasOwnFreeBoundaryAspect()) { Handle(Prs3d_LineAspect) aBoundaryAspect = new Prs3d_LineAspect (Quantity_NOC_RED, Aspect_TOL_SOLID, 1.0); *aBoundaryAspect->Aspect() = *theDrawer->FreeBoundaryAspect()->Aspect(); theDrawer->SetFreeBoundaryAspect (aBoundaryAspect); toRecompute = true; } theDrawer->FreeBoundaryAspect()->SetWidth (FreeBoundaryWidth); } } if (ToSetFreeBoundaryColor != 0) { Handle(Prs3d_LineAspect) aBoundaryAspect = new Prs3d_LineAspect (Quantity_NOC_RED, Aspect_TOL_SOLID, 1.0); *aBoundaryAspect->Aspect() = *theDrawer->FreeBoundaryAspect()->Aspect(); aBoundaryAspect->SetColor (FreeBoundaryColor); theDrawer->SetFreeBoundaryAspect (aBoundaryAspect); toRecompute = true; } if (ToSetTypeOfLine != 0) { if (ToSetTypeOfLine != -1 || theDrawer->HasOwnLineAspect() || theDrawer->HasOwnWireAspect() || theDrawer->HasOwnFreeBoundaryAspect() || theDrawer->HasOwnUnFreeBoundaryAspect() || theDrawer->HasOwnSeenLineAspect()) { toRecompute = theDrawer->SetOwnLineAspects() || toRecompute; theDrawer->LineAspect()->SetTypeOfLine (TypeOfLine); theDrawer->WireAspect()->SetTypeOfLine (TypeOfLine); theDrawer->FreeBoundaryAspect()->SetTypeOfLine (TypeOfLine); theDrawer->UnFreeBoundaryAspect()->SetTypeOfLine (TypeOfLine); theDrawer->SeenLineAspect()->SetTypeOfLine (TypeOfLine); } } if (ToSetTypeOfMarker != 0) { if (ToSetTypeOfMarker != -1 || theDrawer->HasOwnPointAspect()) { toRecompute = theDrawer->SetupOwnPointAspect (aDefDrawer) || toRecompute; theDrawer->PointAspect()->SetTypeOfMarker (TypeOfMarker); theDrawer->PointAspect()->Aspect()->SetMarkerImage (MarkerImage.IsNull() ? Handle(Graphic3d_MarkerImage)() : new Graphic3d_MarkerImage (MarkerImage)); } } if (ToSetMarkerSize != 0) { if (ToSetMarkerSize != -1 || theDrawer->HasOwnPointAspect()) { toRecompute = theDrawer->SetupOwnPointAspect (aDefDrawer) || toRecompute; theDrawer->PointAspect()->SetScale (MarkerSize); toRecompute = true; } } if (ToSetMaxParamValue != 0) { if (ToSetMaxParamValue != -1 || theDrawer->HasOwnMaximalParameterValue()) { theDrawer->SetMaximalParameterValue (MaxParamValue); toRecompute = true; } } if (ToSetFaceBoundaryDraw != 0) { if (ToSetFaceBoundaryDraw != -1 || theDrawer->HasOwnFaceBoundaryDraw()) { toRecompute = true; theDrawer->SetFaceBoundaryDraw (ToSetFaceBoundaryDraw == 1); } } if (ToSetFaceBoundaryUpperContinuity != 0) { if (ToSetFaceBoundaryUpperContinuity != -1 || theDrawer->HasOwnFaceBoundaryUpperContinuity()) { toRecompute = true; if (ToSetFaceBoundaryUpperContinuity == -1) { theDrawer->UnsetFaceBoundaryUpperContinuity(); } else { theDrawer->SetFaceBoundaryUpperContinuity (FaceBoundaryUpperContinuity); } } } if (ToSetFaceBoundaryColor != 0) { if (ToSetFaceBoundaryColor != -1 || theDrawer->HasOwnFaceBoundaryAspect()) { if (ToSetFaceBoundaryColor == -1) { toRecompute = true; theDrawer->SetFaceBoundaryAspect (Handle(Prs3d_LineAspect)()); } else { toRecompute = theDrawer->SetupOwnFaceBoundaryAspect (aDefDrawer) || toRecompute; theDrawer->FaceBoundaryAspect()->SetColor (FaceBoundaryColor); } } } if (ToSetFaceBoundaryWidth != 0) { if (ToSetFaceBoundaryWidth != -1 || theDrawer->HasOwnFaceBoundaryAspect()) { toRecompute = theDrawer->SetupOwnFaceBoundaryAspect (aDefDrawer) || toRecompute; theDrawer->FaceBoundaryAspect()->SetWidth (FaceBoundaryWidth); } } if (ToSetTypeOfFaceBoundaryLine != 0) { if (ToSetTypeOfFaceBoundaryLine != -1 || theDrawer->HasOwnFaceBoundaryAspect()) { toRecompute = theDrawer->SetupOwnFaceBoundaryAspect (aDefDrawer) || toRecompute; theDrawer->FaceBoundaryAspect()->SetTypeOfLine (TypeOfFaceBoundaryLine); } } if (ToSetShadingModel != 0) { if (ToSetShadingModel != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetShadingModel (ShadingModel); } } if (ToSetAlphaMode != 0) { if (ToSetAlphaMode != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetAlphaMode (AlphaMode, AlphaCutoff); } } if (ToSetHatch != 0) { if (ToSetHatch != -1 || theDrawer->HasOwnShadingAspect()) { theDrawer->SetupOwnShadingAspect (aDefDrawer); Handle(Graphic3d_AspectFillArea3d) anAsp = theDrawer->ShadingAspect()->Aspect(); if (ToSetHatch == -1) { anAsp->SetInteriorStyle (Aspect_IS_SOLID); } else { anAsp->SetInteriorStyle (Aspect_IS_HATCH); if (!PathToHatchPattern.IsEmpty()) { Handle(Image_AlienPixMap) anImage = new Image_AlienPixMap(); if (anImage->Load (TCollection_AsciiString (PathToHatchPattern.ToCString()))) { anAsp->SetHatchStyle (new Graphic3d_HatchStyle (anImage)); } else { std::cout << "Error: cannot load the following image: " << PathToHatchPattern << "\n"; } } else if (StdHatchStyle != -1) { anAsp->SetHatchStyle (new Graphic3d_HatchStyle ((Aspect_HatchStyle)StdHatchStyle)); } } toRecompute = true; } } if (ToSetInterior != 0) { if (ToSetInterior != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetInteriorStyle (InteriorStyle); if (InteriorStyle == Aspect_IS_HATCH && theDrawer->ShadingAspect()->Aspect()->HatchStyle().IsNull()) { theDrawer->ShadingAspect()->Aspect()->SetHatchStyle (Aspect_HS_VERTICAL); } } } if (ToSetDrawSilhouette != 0) { if (ToSetDrawSilhouette != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetDrawSilhouette (ToSetDrawSilhouette == 1); } } if (ToSetDrawEdges != 0) { if (ToSetDrawEdges != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetDrawEdges (ToSetDrawEdges == 1); } } if (ToSetQuadEdges != 0) { if (ToSetQuadEdges != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetSkipFirstEdge (ToSetQuadEdges == 1); } } if (ToSetEdgeWidth != 0) { if (ToSetEdgeWidth != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetEdgeWidth (EdgeWidth); } } if (ToSetTypeOfEdge != 0) { if (ToSetTypeOfEdge != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; theDrawer->ShadingAspect()->Aspect()->SetEdgeLineType (TypeOfEdge); if (ToSetInterior == 0) { theDrawer->ShadingAspect()->Aspect()->SetDrawEdges (ToSetTypeOfEdge == 1 && TypeOfEdge != Aspect_TOL_EMPTY); } } } if (ToSetEdgeColor != 0) { if (ToSetEdgeColor != -1 || theDrawer->HasOwnShadingAspect()) { toRecompute = theDrawer->SetupOwnShadingAspect (aDefDrawer) || toRecompute; if (ToSetEdgeColor == -1) { theDrawer->ShadingAspect()->Aspect()->SetEdgeColor (theDrawer->ShadingAspect()->Aspect()->InteriorColor()); } else { theDrawer->ShadingAspect()->Aspect()->SetEdgeColor (EdgeColor); } } } return toRecompute; } }; //============================================================================== //function : VAspects //purpose : //============================================================================== static Standard_Integer VAspects (Draw_Interpretor& /*theDI*/, Standard_Integer theArgNb, const char** theArgVec) { TCollection_AsciiString aCmdName (theArgVec[0]); const Handle(AIS_InteractiveContext)& aCtx = ViewerTest::GetAISContext(); ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); if (aCtx.IsNull()) { std::cerr << "Error: no active view!\n"; return 1; } Standard_Integer anArgIter = 1; Standard_Boolean isDefaults = Standard_False; NCollection_Sequence aNames; for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArg = theArgVec[anArgIter]; if (anUpdateTool.parseRedrawMode (anArg)) { continue; } else if (!anArg.IsEmpty() && anArg.Value (1) != '-') { aNames.Append (anArg); } else { if (anArg == "-defaults") { isDefaults = Standard_True; ++anArgIter; } break; } } if (!aNames.IsEmpty() && isDefaults) { std::cout << "Error: wrong syntax. If -defaults is used there should not be any objects' names!\n"; return 1; } NCollection_Sequence aChanges; aChanges.Append (ViewerTest_AspectsChangeSet()); ViewerTest_AspectsChangeSet* aChangeSet = &aChanges.ChangeLast(); // parse syntax of legacy commands bool toParseAliasArgs = false; if (aCmdName == "vsetwidth") { if (aNames.IsEmpty() || !aNames.Last().IsRealValue()) { std::cout << "Error: not enough arguments!\n"; return 1; } aChangeSet->ToSetLineWidth = 1; aChangeSet->LineWidth = aNames.Last().RealValue(); aNames.Remove (aNames.Length()); } else if (aCmdName == "vunsetwidth") { aChangeSet->ToSetLineWidth = -1; } else if (aCmdName == "vsetcolor") { if (aNames.IsEmpty()) { std::cout << "Error: not enough arguments!\n"; return 1; } aChangeSet->ToSetColor = 1; Quantity_NameOfColor aColor = Quantity_NOC_BLACK; Standard_Boolean isOk = Standard_False; if (Quantity_Color::ColorFromName (aNames.Last().ToCString(), aColor)) { aChangeSet->Color = aColor; aNames.Remove (aNames.Length()); isOk = Standard_True; } else if (aNames.Length() >= 3) { const char* anArgVec[3] = { aNames.Value (aNames.Upper() - 2).ToCString(), aNames.Value (aNames.Upper() - 1).ToCString(), aNames.Value (aNames.Upper() - 0).ToCString(), }; Standard_Integer aNbParsed = ViewerTest::ParseColor (3, anArgVec, aChangeSet->Color); isOk = aNbParsed == 3; aNames.Remove (aNames.Length()); aNames.Remove (aNames.Length()); aNames.Remove (aNames.Length()); } if (!isOk) { std::cout << "Error: not enough arguments!\n"; return 1; } } else if (aCmdName == "vunsetcolor") { aChangeSet->ToSetColor = -1; } else if (aCmdName == "vsettransparency") { if (aNames.IsEmpty() || !aNames.Last().IsRealValue()) { std::cout << "Error: not enough arguments!\n"; return 1; } aChangeSet->ToSetTransparency = 1; aChangeSet->Transparency = aNames.Last().RealValue(); aNames.Remove (aNames.Length()); } else if (aCmdName == "vunsettransparency") { aChangeSet->ToSetTransparency = -1; } else if (aCmdName == "vsetmaterial") { if (aNames.IsEmpty()) { std::cout << "Error: not enough arguments!\n"; return 1; } aChangeSet->ToSetMaterial = 1; aChangeSet->MatName = aNames.Last(); aChangeSet->Material = Graphic3d_MaterialAspect::MaterialFromName (aChangeSet->MatName.ToCString()); aNames.Remove (aNames.Length()); } else if (aCmdName == "vunsetmaterial") { aChangeSet->ToSetMaterial = -1; } else if (aCmdName == "vsetinteriorstyle") { if (aNames.IsEmpty() || !aNames.Last().IsRealValue()) { std::cout << "Error: not enough arguments!\n"; return 1; } aChangeSet->ToSetInterior = 1; if (!parseInteriorStyle (aNames.Last(), aChangeSet->InteriorStyle)) { std::cout << "Error: wrong syntax at " << aNames.Last() << "\n"; return 1; } aNames.Remove (aNames.Length()); } else if (aCmdName == "vsetedgetype") { aChangeSet->ToSetDrawEdges = 1; toParseAliasArgs = true; } else if (aCmdName == "vunsetedgetype") { aChangeSet->ToSetDrawEdges = -1; aChangeSet->ToSetEdgeColor = -1; aChangeSet->ToSetTypeOfEdge = -1; aChangeSet->TypeOfEdge = Aspect_TOL_SOLID; } else if (aCmdName == "vshowfaceboundary") { aChangeSet->ToSetFaceBoundaryDraw = 1; toParseAliasArgs = true; if (aNames.Size() >= 2 && aNames.Value (2).IsIntegerValue()) { if (aNames.Size() == 7) { if (ViewerTest::ParseLineType (aNames.Value (7).ToCString(), aChangeSet->TypeOfFaceBoundaryLine)) { aChangeSet->ToSetTypeOfFaceBoundaryLine = 1; aNames.Remove (7); } } if (aNames.Size() == 6 && aNames.Value (6).IsRealValue()) { aChangeSet->ToSetFaceBoundaryWidth = 1; aChangeSet->FaceBoundaryWidth = aNames.Value (6).RealValue(); aNames.Remove (6); } if (aNames.Size() == 5 && aNames.Value (3).IsIntegerValue() && aNames.Value (4).IsIntegerValue() && aNames.Value (5).IsIntegerValue()) { aChangeSet->ToSetFaceBoundaryColor = 1; aChangeSet->FaceBoundaryColor = Quantity_Color (aNames.Value (3).IntegerValue() / 255.0, aNames.Value (4).IntegerValue() / 255.0, aNames.Value (5).IntegerValue() / 255.0, Quantity_TOC_RGB); aNames.Remove (5); aNames.Remove (4); aNames.Remove (3); } if (aNames.Size() == 2) { toParseAliasArgs = false; aChangeSet->ToSetFaceBoundaryDraw = aNames.Value (2).IntegerValue() == 1 ? 1 : -1; aNames.Remove (2); } } } else if (anArgIter >= theArgNb) { std::cout << "Error: not enough arguments!\n"; return 1; } if (!aChangeSet->IsEmpty() && !toParseAliasArgs) { anArgIter = theArgNb; } for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArg = theArgVec[anArgIter]; anArg.LowerCase(); if (anArg == "-setwidth" || anArg == "-width" || anArg == "-setlinewidth" || anArg == "-linewidth" || anArg == "-setedgewidth" || anArg == "-setedgeswidth" || anArg == "-edgewidth" || anArg == "-edgeswidth" || anArg == "-setfaceboundarywidth" || anArg == "-setboundarywidth" || anArg == "-faceboundarywidth" || anArg == "-boundarywidth") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } const Standard_Real aWidth = Draw::Atof (theArgVec[anArgIter]); if (anArg == "-setedgewidth" || anArg == "-setedgeswidth" || anArg == "-edgewidth" || anArg == "-edgeswidth" || aCmdName == "vsetedgetype") { aChangeSet->ToSetEdgeWidth = 1; aChangeSet->EdgeWidth = aWidth; } else if (anArg == "-setfaceboundarywidth" || anArg == "-setboundarywidth" || anArg == "-faceboundarywidth" || anArg == "-boundarywidth" || aCmdName == "vshowfaceboundary") { aChangeSet->ToSetFaceBoundaryWidth = 1; aChangeSet->FaceBoundaryWidth = aWidth; } else { aChangeSet->ToSetLineWidth = 1; aChangeSet->LineWidth = aWidth; } } else if (anArg == "-unsetwidth" || anArg == "-unsetlinewidth" || anArg == "-unsetedgewidth") { if (anArg == "-unsetedgewidth") { aChangeSet->ToSetEdgeWidth = -1; aChangeSet->EdgeWidth = 1.0; } else { aChangeSet->ToSetLineWidth = -1; aChangeSet->LineWidth = 1.0; } } else if (anArg == "-settransp" || anArg == "-settransparency" || anArg == "-transparency" || anArg == "-transp") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetTransparency = 1; aChangeSet->Transparency = Draw::Atof (theArgVec[anArgIter]); if (aChangeSet->Transparency >= 0.0 && aChangeSet->Transparency <= Precision::Confusion()) { aChangeSet->ToSetTransparency = -1; aChangeSet->Transparency = 0.0; } } else if (anArg == "-setalphamode" || anArg == "-alphamode") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetAlphaMode = 1; aChangeSet->AlphaCutoff = 0.5f; { TCollection_AsciiString aParam (theArgVec[anArgIter]); aParam.LowerCase(); if (aParam == "opaque") { aChangeSet->AlphaMode = Graphic3d_AlphaMode_Opaque; } else if (aParam == "mask") { aChangeSet->AlphaMode = Graphic3d_AlphaMode_Mask; } else if (aParam == "blend") { aChangeSet->AlphaMode = Graphic3d_AlphaMode_Blend; } else if (aParam == "blendauto" || aParam == "auto") { aChangeSet->AlphaMode = Graphic3d_AlphaMode_BlendAuto; } else { std::cout << "Error: wrong syntax at " << aParam << "\n"; return 1; } } if (anArgIter + 1 < theArgNb && theArgVec[anArgIter + 1][0] != '-') { TCollection_AsciiString aParam2 (theArgVec[anArgIter + 1]); if (aParam2.IsRealValue()) { aChangeSet->AlphaCutoff = (float )aParam2.RealValue(); ++anArgIter; } } } else if (anArg == "-setvis" || anArg == "-setvisibility" || anArg == "-visibility") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetVisibility = 1; aChangeSet->Visibility = Draw::Atoi (theArgVec[anArgIter]); } else if (anArg == "-setalpha" || anArg == "-alpha") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetTransparency = 1; aChangeSet->Transparency = Draw::Atof (theArgVec[anArgIter]); if (aChangeSet->Transparency < 0.0 || aChangeSet->Transparency > 1.0) { std::cout << "Error: the transparency should be within [0; 1] range (specified " << aChangeSet->Transparency << ")\n"; return 1; } aChangeSet->Transparency = 1.0 - aChangeSet->Transparency; if (aChangeSet->Transparency >= 0.0 && aChangeSet->Transparency <= Precision::Confusion()) { aChangeSet->ToSetTransparency = -1; aChangeSet->Transparency = 0.0; } } else if (anArg == "-unsettransp" || anArg == "-unsettransparency" || anArg == "-unsetalpha" || anArg == "-opaque") { aChangeSet->ToSetTransparency = -1; aChangeSet->Transparency = 0.0; } else if (anArg == "-setcolor" || anArg == "-color" || anArg == "-setfaceboundarycolor" || anArg == "-setboundarycolor" || anArg == "-faceboundarycolor" || anArg == "-boundarycolor") { Quantity_Color aColor; Standard_Integer aNbParsed = ViewerTest::ParseColor (theArgNb - anArgIter - 1, theArgVec + anArgIter + 1, aColor); if (aNbParsed == 0) { std::cout << "Syntax error at '" << anArg << "'\n"; return 1; } anArgIter += aNbParsed; if (aCmdName == "vsetedgetype") { aChangeSet->ToSetEdgeColor = 1; aChangeSet->EdgeColor = Quantity_ColorRGBA (aColor); } else if (aCmdName == "vshowfaceboundary" || anArg == "-setfaceboundarycolor" || anArg == "-setboundarycolor" || anArg == "-faceboundarycolor" || anArg == "-boundarycolor") { aChangeSet->ToSetFaceBoundaryColor = 1; aChangeSet->FaceBoundaryColor = aColor; } else { aChangeSet->ToSetColor = 1; aChangeSet->Color = aColor; } } else if (anArg == "-setlinetype" || anArg == "-linetype" || anArg == "-setedgetype" || anArg == "-setedgestype" || anArg == "-edgetype" || anArg == "-edgestype" || anArg == "-setfaceboundarystyle" || anArg == "-faceboundarystyle" || anArg == "-boundarystyle" || anArg == "-setfaceboundarytype" || anArg == "-faceboundarytype" || anArg == "-setboundarytype" || anArg == "-boundarytype" || anArg == "-type") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } Aspect_TypeOfLine aLineType = Aspect_TOL_EMPTY; if (!ViewerTest::ParseLineType (theArgVec[anArgIter], aLineType)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } if (anArg == "-setedgetype" || anArg == "-setedgestype" || anArg == "-edgetype" || anArg == "-edgestype" || aCmdName == "vsetedgetype") { aChangeSet->TypeOfEdge = aLineType; aChangeSet->ToSetTypeOfEdge = 1; } else if (anArg == "-setfaceboundarystyle" || anArg == "-faceboundarystyle" || anArg == "-boundarystyle" || anArg == "-setfaceboundarytype" || anArg == "-faceboundarytype" || anArg == "-setboundarytype" || anArg == "-boundarytype" || aCmdName == "vshowfaceboundary") { aChangeSet->TypeOfFaceBoundaryLine = aLineType; aChangeSet->ToSetTypeOfFaceBoundaryLine = 1; } else { aChangeSet->TypeOfLine = aLineType; aChangeSet->ToSetTypeOfLine = 1; } } else if (anArg == "-unsetlinetype" || anArg == "-unsetedgetype" || anArg == "-unsetedgestype") { if (anArg == "-unsetedgetype" || anArg == "-unsetedgestype") { aChangeSet->ToSetTypeOfEdge = -1; } else { aChangeSet->ToSetTypeOfLine = -1; } } else if (anArg == "-setmarkertype" || anArg == "-markertype" || anArg == "-setpointtype" || anArg == "-pointtype") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } if (!ViewerTest::ParseMarkerType (theArgVec[anArgIter], aChangeSet->TypeOfMarker, aChangeSet->MarkerImage)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetTypeOfMarker = 1; } else if (anArg == "-unsetmarkertype" || anArg == "-unsetpointtype") { aChangeSet->ToSetTypeOfMarker = -1; } else if (anArg == "-setmarkersize" || anArg == "-markersize" || anArg == "-setpointsize" || anArg == "-pointsize") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetMarkerSize = 1; aChangeSet->MarkerSize = Draw::Atof (theArgVec[anArgIter]); } else if (anArg == "-unsetmarkersize" || anArg == "-unsetpointsize") { aChangeSet->ToSetMarkerSize = -1; aChangeSet->MarkerSize = 1.0; } else if (anArg == "-unsetcolor") { aChangeSet->ToSetColor = -1; aChangeSet->Color = DEFAULT_COLOR; } else if (anArg == "-setmat" || anArg == "-mat" || anArg == "-setmaterial" || anArg == "-material") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetMaterial = 1; aChangeSet->MatName = theArgVec[anArgIter]; aChangeSet->Material = Graphic3d_MaterialAspect::MaterialFromName (aChangeSet->MatName.ToCString()); } else if (anArg == "-unsetmat" || anArg == "-unsetmaterial") { aChangeSet->ToSetMaterial = -1; aChangeSet->Material = Graphic3d_NOM_DEFAULT; } else if (anArg == "-subshape" || anArg == "-subshapes") { if (isDefaults) { std::cout << "Error: wrong syntax. -subshapes can not be used together with -defaults call!\n"; return 1; } if (aNames.IsEmpty()) { std::cout << "Error: main objects should specified explicitly when -subshapes is used!\n"; return 1; } aChanges.Append (ViewerTest_AspectsChangeSet()); aChangeSet = &aChanges.ChangeLast(); for (++anArgIter; anArgIter < theArgNb; ++anArgIter) { Standard_CString aSubShapeName = theArgVec[anArgIter]; if (*aSubShapeName == '-') { --anArgIter; break; } TopoDS_Shape aSubShape = DBRep::Get (aSubShapeName); if (aSubShape.IsNull()) { std::cerr << "Error: shape " << aSubShapeName << " doesn't found!\n"; return 1; } aChangeSet->SubShapes.Append (aSubShape); } if (aChangeSet->SubShapes.IsEmpty()) { std::cerr << "Error: empty list is specified after -subshapes!\n"; return 1; } } else if (anArg == "-setfreeboundary" || anArg == "-freeboundary" || anArg == "-setfb" || anArg == "-fb") { bool toEnable = true; if (!ViewerTest::ParseOnOff (anArgIter + 1 < theArgNb ? theArgVec[anArgIter + 1] : "", toEnable)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } ++anArgIter; aChangeSet->ToSetShowFreeBoundary = toEnable ? 1 : -1; } else if (anArg == "-setfreeboundarywidth" || anArg == "-freeboundarywidth" || anArg == "-setfbwidth" || anArg == "-fbwidth") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetFreeBoundaryWidth = 1; aChangeSet->FreeBoundaryWidth = Draw::Atof (theArgVec[anArgIter]); } else if (anArg == "-unsetfreeboundarywidth" || anArg == "-unsetfbwidth") { aChangeSet->ToSetFreeBoundaryWidth = -1; aChangeSet->FreeBoundaryWidth = 1.0; } else if (anArg == "-setfreeboundarycolor" || anArg == "-freeboundarycolor" || anArg == "-setfbcolor" || anArg == "-fbcolor") { Standard_Integer aNbParsed = ViewerTest::ParseColor (theArgNb - anArgIter - 1, theArgVec + anArgIter + 1, aChangeSet->FreeBoundaryColor); if (aNbParsed == 0) { std::cout << "Syntax error at '" << anArg << "'\n"; return 1; } anArgIter += aNbParsed; aChangeSet->ToSetFreeBoundaryColor = 1; } else if (anArg == "-unsetfreeboundarycolor" || anArg == "-unsetfbcolor") { aChangeSet->ToSetFreeBoundaryColor = -1; aChangeSet->FreeBoundaryColor = DEFAULT_FREEBOUNDARY_COLOR; } else if (anArg == "-setisoontriangulation" || anArg == "-isoontriangulation" || anArg == "-setisoontriang" || anArg == "-isoontriang") { bool toEnable = true; if (!ViewerTest::ParseOnOff (anArgIter + 1 < theArgNb ? theArgVec[anArgIter + 1] : "", toEnable)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } ++anArgIter; aChangeSet->ToEnableIsoOnTriangulation = toEnable ? 1 : -1; } else if (anArg == "-setfaceboundarydraw" || anArg == "-setdrawfaceboundary" || anArg == "-setdrawfaceboundaries" || anArg == "-setshowfaceboundary" || anArg == "-setshowfaceboundaries" || anArg == "-setdrawfaceedges" || anArg == "-faceboundarydraw" || anArg == "-drawfaceboundary" || anArg == "-drawfaceboundaries" || anArg == "-showfaceboundary" || anArg == "-showfaceboundaries" || anArg == "-drawfaceedges" || anArg == "-faceboundary" || anArg == "-faceboundaries" || anArg == "-faceedges") { bool toEnable = true; if (!ViewerTest::ParseOnOff (anArgIter + 1 < theArgNb ? theArgVec[anArgIter + 1] : "", toEnable)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } ++anArgIter; aChangeSet->ToSetFaceBoundaryDraw = toEnable ? 1 : -1; } else if (anArg == "-unsetfaceboundary" || anArg == "-unsetboundary") { aChangeSet->ToSetFaceBoundaryDraw = -1; aChangeSet->ToSetFaceBoundaryColor = -1; } else if (anArg == "-setmostcontinuity" || anArg == "-mostcontinuity") { TCollection_AsciiString aClassArg (anArgIter + 1 < theArgNb ? theArgVec[anArgIter + 1] : ""); aClassArg.LowerCase(); GeomAbs_Shape aClass = GeomAbs_CN; if (aClassArg == "c0" || aClassArg == "0") { aClass = GeomAbs_C0; } else if (aClassArg == "c1" || aClassArg == "1") { aClass = GeomAbs_C1; } else if (aClassArg == "c2" || aClassArg == "2") { aClass = GeomAbs_C2; } else if (aClassArg == "c3" || aClassArg == "3") { aClass = GeomAbs_C3; } else if (aClassArg == "cn" || aClassArg == "n") { aClass = GeomAbs_CN; } else { std::cout << "Syntax error at '" << anArg << "'\n"; return 1; } ++anArgIter; aChangeSet->ToSetFaceBoundaryUpperContinuity = 1; aChangeSet->FaceBoundaryUpperContinuity = aClass; } else if (anArg == "-setmaxparamvalue" || anArg == "-maxparamvalue") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetMaxParamValue = 1; aChangeSet->MaxParamValue = Draw::Atof (theArgVec[anArgIter]); } else if (anArg == "-setsensitivity" || anArg == "-sensitivity") { if (isDefaults) { std::cout << "Error: wrong syntax. -setSensitivity can not be used together with -defaults call!\n"; return 1; } if (aNames.IsEmpty()) { std::cout << "Error: object and selection mode should specified explicitly when -setSensitivity is used!\n"; return 1; } if (anArgIter + 2 >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetSensitivity = 1; aChangeSet->SelectionMode = Draw::Atoi (theArgVec[++anArgIter]); aChangeSet->Sensitivity = Draw::Atoi (theArgVec[++anArgIter]); } else if (anArg == "-sethatch" || anArg == "-hatch") { if (isDefaults) { std::cout << "Error: wrong syntax. -setHatch can not be used together with -defaults call!\n"; return 1; } if (aNames.IsEmpty()) { std::cout << "Error: object should be specified explicitly when -setHatch is used!\n"; return 1; } aChangeSet->ToSetHatch = 1; TCollection_AsciiString anArgHatch (theArgVec[++anArgIter]); if (anArgHatch.Length() <= 2) { const Standard_Integer anIntStyle = Draw::Atoi (anArgHatch.ToCString()); if (anIntStyle < 0 || anIntStyle >= Aspect_HS_NB) { std::cout << "Error: hatch style is out of range [0, " << (Aspect_HS_NB - 1) << "]!\n"; return 1; } aChangeSet->StdHatchStyle = anIntStyle; } else { aChangeSet->PathToHatchPattern = anArgHatch; } } else if (anArg == "-setshadingmodel" || anArg == "-setshading" || anArg == "-shadingmodel" || anArg == "-shading") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetShadingModel = 1; aChangeSet->ShadingModelName = theArgVec[anArgIter]; if (!ViewerTest::ParseShadingModel (theArgVec[anArgIter], aChangeSet->ShadingModel)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } } else if (anArg == "-unsetshadingmodel") { aChangeSet->ToSetShadingModel = -1; aChangeSet->ShadingModel = Graphic3d_TOSM_DEFAULT; } else if (anArg == "-setinterior" || anArg == "-setinteriorstyle" || anArg == "-interior" || anArg == "-interiorstyle") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aChangeSet->ToSetInterior = 1; if (!parseInteriorStyle (theArgVec[anArgIter], aChangeSet->InteriorStyle)) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } } else if (anArg == "-unsetinterior") { aChangeSet->ToSetInterior = -1; aChangeSet->InteriorStyle = Aspect_IS_SOLID; } else if (anArg == "-setdrawoutline" || anArg == "-setdrawsilhouette" || anArg == "-setoutline" || anArg == "-setsilhouette" || anArg == "-outline" || anArg == "-outlined" || anArg == "-silhouette") { bool toDrawOutline = true; if (anArgIter + 1 < theArgNb && ViewerTest::ParseOnOff (theArgVec[anArgIter + 1], toDrawOutline)) { ++anArgIter; } aChangeSet->ToSetDrawSilhouette = toDrawOutline ? 1 : -1; } else if (anArg == "-setdrawedges" || anArg == "-setdrawedge" || anArg == "-drawedges" || anArg == "-drawedge" || anArg == "-edges") { bool toDrawEdges = true; if (anArgIter + 1 < theArgNb && ViewerTest::ParseOnOff (theArgVec[anArgIter + 1], toDrawEdges)) { ++anArgIter; } aChangeSet->ToSetDrawEdges = toDrawEdges ? 1 : -1; } else if (anArg == "-setquadedges" || anArg == "-setquads" || anArg == "-quads" || anArg == "-skipfirstedge") { bool isQuadMode = true; if (anArgIter + 1 < theArgNb && ViewerTest::ParseOnOff (theArgVec[anArgIter + 1], isQuadMode)) { ++anArgIter; } aChangeSet->ToSetQuadEdges = isQuadMode ? 1 : -1; } else if (anArg == "-setedgecolor" || anArg == "-setedgescolor" || anArg == "-edgecolor" || anArg == "-edgescolor") { Standard_Integer aNbParsed = ViewerTest::ParseColor (theArgNb - anArgIter - 1, theArgVec + anArgIter + 1, aChangeSet->EdgeColor); if (aNbParsed == 0) { std::cout << "Syntax error at '" << anArg << "'\n"; return 1; } anArgIter += aNbParsed; aChangeSet->ToSetEdgeColor = 1; } else if (anArg == "-unset") { aChangeSet->ToSetVisibility = 1; aChangeSet->Visibility = 1; aChangeSet->ToSetLineWidth = -1; aChangeSet->LineWidth = 1.0; aChangeSet->ToSetTypeOfLine = -1; aChangeSet->TypeOfLine = Aspect_TOL_SOLID; aChangeSet->ToSetTypeOfMarker = -1; aChangeSet->TypeOfMarker = Aspect_TOM_PLUS; aChangeSet->ToSetMarkerSize = -1; aChangeSet->MarkerSize = 1.0; aChangeSet->ToSetTransparency = -1; aChangeSet->Transparency = 0.0; aChangeSet->ToSetAlphaMode = -1; aChangeSet->AlphaMode = Graphic3d_AlphaMode_BlendAuto; aChangeSet->AlphaCutoff = 0.5f; aChangeSet->ToSetColor = -1; aChangeSet->Color = DEFAULT_COLOR; aChangeSet->ToSetMaterial = -1; aChangeSet->Material = Graphic3d_NOM_DEFAULT; aChangeSet->ToSetShowFreeBoundary = -1; aChangeSet->ToSetFreeBoundaryColor = -1; aChangeSet->FreeBoundaryColor = DEFAULT_FREEBOUNDARY_COLOR; aChangeSet->ToSetFreeBoundaryWidth = -1; aChangeSet->FreeBoundaryWidth = 1.0; aChangeSet->ToEnableIsoOnTriangulation = -1; // aChangeSet->ToSetFaceBoundaryDraw = -1; aChangeSet->ToSetFaceBoundaryUpperContinuity = -1; aChangeSet->FaceBoundaryUpperContinuity = GeomAbs_CN; aChangeSet->ToSetFaceBoundaryColor = -1; aChangeSet->FaceBoundaryColor = Quantity_NOC_BLACK; aChangeSet->ToSetFaceBoundaryWidth = -1; aChangeSet->FaceBoundaryWidth = 1.0f; aChangeSet->ToSetTypeOfFaceBoundaryLine = -1; aChangeSet->TypeOfFaceBoundaryLine = Aspect_TOL_SOLID; // aChangeSet->ToSetHatch = -1; aChangeSet->StdHatchStyle = -1; aChangeSet->PathToHatchPattern.Clear(); aChangeSet->ToSetShadingModel = -1; aChangeSet->ShadingModel = Graphic3d_TOSM_DEFAULT; aChangeSet->ToSetInterior = -1; aChangeSet->InteriorStyle = Aspect_IS_SOLID; aChangeSet->ToSetDrawSilhouette = -1; aChangeSet->ToSetDrawEdges = -1; aChangeSet->ToSetQuadEdges = -1; aChangeSet->ToSetEdgeColor = -1; aChangeSet->EdgeColor = Quantity_ColorRGBA (DEFAULT_COLOR); aChangeSet->ToSetEdgeWidth = -1; aChangeSet->EdgeWidth = 1.0; aChangeSet->ToSetTypeOfEdge = -1; aChangeSet->TypeOfEdge = Aspect_TOL_SOLID; } else { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } } for (NCollection_Sequence::Iterator aChangesIter (aChanges); aChangesIter.More(); aChangesIter.Next()) { if (!aChangesIter.Value().Validate()) { return 1; } } // special case for -defaults parameter. // all changed values will be set to DefaultDrawer. if (isDefaults) { const Handle(Prs3d_Drawer)& aDrawer = aCtx->DefaultDrawer(); aChangeSet->Apply (aDrawer); if (aChangeSet->ToSetLineWidth != 0) { aDrawer->LineAspect()->SetWidth (aChangeSet->LineWidth); aDrawer->WireAspect()->SetWidth (aChangeSet->LineWidth); aDrawer->UnFreeBoundaryAspect()->SetWidth (aChangeSet->LineWidth); aDrawer->SeenLineAspect()->SetWidth (aChangeSet->LineWidth); } if (aChangeSet->ToSetColor != 0) { aDrawer->ShadingAspect()->SetColor (aChangeSet->Color); aDrawer->LineAspect()->SetColor (aChangeSet->Color); aDrawer->UnFreeBoundaryAspect()->SetColor (aChangeSet->Color); aDrawer->SeenLineAspect()->SetColor (aChangeSet->Color); aDrawer->WireAspect()->SetColor (aChangeSet->Color); aDrawer->PointAspect()->SetColor (aChangeSet->Color); } if (aChangeSet->ToSetTransparency != 0) { aDrawer->ShadingAspect()->SetTransparency (aChangeSet->Transparency); } if (aChangeSet->ToSetMaterial != 0) { aDrawer->ShadingAspect()->SetMaterial (aChangeSet->Material); } if (aChangeSet->ToEnableIsoOnTriangulation != 0) { aDrawer->SetIsoOnTriangulation (aChangeSet->ToEnableIsoOnTriangulation == 1); } // redisplay all objects in context for (ViewTest_PrsIter aPrsIter (aNames); aPrsIter.More(); aPrsIter.Next()) { Handle(AIS_InteractiveObject) aPrs = aPrsIter.Current(); if (!aPrs.IsNull()) { aCtx->Redisplay (aPrs, Standard_False); } } return 0; } for (ViewTest_PrsIter aPrsIter (aNames); aPrsIter.More(); aPrsIter.Next()) { const TCollection_AsciiString& aName = aPrsIter.CurrentName(); Handle(AIS_InteractiveObject) aPrs = aPrsIter.Current(); if (aPrs.IsNull()) { return 1; } Handle(Prs3d_Drawer) aDrawer = aPrs->Attributes(); Handle(AIS_ColoredShape) aColoredPrs; Standard_Boolean toDisplay = Standard_False; Standard_Boolean toRedisplay = Standard_False; if (aChanges.Length() > 1 || aChangeSet->ToSetVisibility == 1) { Handle(AIS_Shape) aShapePrs = Handle(AIS_Shape)::DownCast (aPrs); if (aShapePrs.IsNull()) { std::cout << "Error: an object " << aName << " is not an AIS_Shape presentation!\n"; return 1; } aColoredPrs = Handle(AIS_ColoredShape)::DownCast (aShapePrs); if (aColoredPrs.IsNull()) { aColoredPrs = new AIS_ColoredShape (aShapePrs); if (aShapePrs->HasDisplayMode()) { aColoredPrs->SetDisplayMode (aShapePrs->DisplayMode()); } aColoredPrs->SetLocalTransformation (aShapePrs->LocalTransformation()); aCtx->Remove (aShapePrs, Standard_False); GetMapOfAIS().UnBind2 (aName); GetMapOfAIS().Bind (aColoredPrs, aName); toDisplay = Standard_True; aShapePrs = aColoredPrs; aPrs = aColoredPrs; } } if (!aPrs.IsNull()) { NCollection_Sequence::Iterator aChangesIter (aChanges); aChangeSet = &aChangesIter.ChangeValue(); if (aChangeSet->ToSetVisibility == 1) { Handle(AIS_ColoredDrawer) aColDrawer = aColoredPrs->CustomAspects (aColoredPrs->Shape()); aColDrawer->SetHidden (aChangeSet->Visibility == 0); } else if (aChangeSet->ToSetMaterial == 1) { aCtx->SetMaterial (aPrs, aChangeSet->Material, Standard_False); } else if (aChangeSet->ToSetMaterial == -1) { aCtx->UnsetMaterial (aPrs, Standard_False); } if (aChangeSet->ToSetColor == 1) { aCtx->SetColor (aPrs, aChangeSet->Color, Standard_False); } else if (aChangeSet->ToSetColor == -1) { aCtx->UnsetColor (aPrs, Standard_False); } if (aChangeSet->ToSetTransparency == 1) { aCtx->SetTransparency (aPrs, aChangeSet->Transparency, Standard_False); } else if (aChangeSet->ToSetTransparency == -1) { aCtx->UnsetTransparency (aPrs, Standard_False); } if (aChangeSet->ToSetLineWidth == 1) { aCtx->SetWidth (aPrs, aChangeSet->LineWidth, Standard_False); } else if (aChangeSet->ToSetLineWidth == -1) { aCtx->UnsetWidth (aPrs, Standard_False); } else if (aChangeSet->ToEnableIsoOnTriangulation != 0) { aCtx->IsoOnTriangulation (aChangeSet->ToEnableIsoOnTriangulation == 1, aPrs); toRedisplay = Standard_True; } else if (aChangeSet->ToSetSensitivity != 0) { aCtx->SetSelectionSensitivity (aPrs, aChangeSet->SelectionMode, aChangeSet->Sensitivity); } if (!aDrawer.IsNull()) { toRedisplay = aChangeSet->Apply (aDrawer) || toRedisplay; } for (aChangesIter.Next(); aChangesIter.More(); aChangesIter.Next()) { aChangeSet = &aChangesIter.ChangeValue(); for (NCollection_Sequence::Iterator aSubShapeIter (aChangeSet->SubShapes); aSubShapeIter.More(); aSubShapeIter.Next()) { const TopoDS_Shape& aSubShape = aSubShapeIter.Value(); if (!aChangeSet->IsEmpty()) { Handle(AIS_ColoredDrawer) aCurColDrawer = aColoredPrs->CustomAspects (aSubShape); aChangeSet->Apply (aCurColDrawer); } if (aChangeSet->ToSetVisibility == 1) { Handle(AIS_ColoredDrawer) aCurColDrawer = aColoredPrs->CustomAspects (aSubShape); aCurColDrawer->SetHidden (aChangeSet->Visibility == 0); } if (aChangeSet->ToSetColor == 1) { aColoredPrs->SetCustomColor (aSubShape, aChangeSet->Color); } if (aChangeSet->ToSetTransparency == 1) { aColoredPrs->SetCustomTransparency (aSubShape, aChangeSet->Transparency); } if (aChangeSet->ToSetLineWidth == 1) { aColoredPrs->SetCustomWidth (aSubShape, aChangeSet->LineWidth); } if (aChangeSet->ToSetColor == -1 || aChangeSet->ToSetLineWidth == -1) { aColoredPrs->UnsetCustomAspects (aSubShape, Standard_True); } if (aChangeSet->ToSetSensitivity != 0) { aCtx->SetSelectionSensitivity (aPrs, aChangeSet->SelectionMode, aChangeSet->Sensitivity); } } } if (toDisplay) { aCtx->Display (aPrs, Standard_False); } if (toRedisplay) { aCtx->Redisplay (aPrs, Standard_False); } else if (!aColoredPrs.IsNull()) { aCtx->Redisplay (aColoredPrs, Standard_False); } else { aPrs->SynchronizeAspects(); } } } return 0; } //============================================================================== //function : VDonly2 //author : ege //purpose : Display only a selected or named object // if there is no selected or named object s, nothing is done //============================================================================== static int VDonly2 (Draw_Interpretor& , Standard_Integer theArgNb, const char** theArgVec) { const Handle(AIS_InteractiveContext)& aCtx = ViewerTest::GetAISContext(); ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); if (aCtx.IsNull()) { std::cerr << "Error: no active view!\n"; return 1; } Standard_Integer anArgIter = 1; for (; anArgIter < theArgNb; ++anArgIter) { if (!anUpdateTool.parseRedrawMode (theArgVec[anArgIter])) { break; } } NCollection_Map aDispSet; if (anArgIter >= theArgNb) { // display only selected objects if (aCtx->NbSelected() < 1) { return 0; } for (aCtx->InitSelected(); aCtx->MoreSelected(); aCtx->NextSelected()) { aDispSet.Add (aCtx->SelectedInteractive()); } } else { // display only specified objects for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString aName = theArgVec[anArgIter]; Handle(AIS_InteractiveObject) aShape; if (GetMapOfAIS().Find2 (aName, aShape) && !aShape.IsNull()) { aCtx->Display (aShape, Standard_False); aDispSet.Add (aShape); } } } // weed out other objects for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { if (aDispSet.Contains (anIter.Key1())) { continue; } if (Handle(AIS_InteractiveObject) aShape = anIter.Key1()) { aCtx->Erase (aShape, Standard_False); } } return 0; } //============================================================================== //function : VRemove //purpose : Removes selected or named objects. // If there is no selected or named objects, // all objects in the viewer can be removed with argument -all. // If -context is in arguments, the object is not deleted from the map of // objects (deleted only from the current context). //============================================================================== int VRemove (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec) { const Handle(AIS_InteractiveContext)& aCtx = ViewerTest::GetAISContext(); ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); if (aCtx.IsNull()) { std::cerr << "Error: no active view!\n"; return 1; } Standard_Boolean isContextOnly = Standard_False; Standard_Boolean toRemoveAll = Standard_False; Standard_Boolean toPrintInfo = Standard_True; Standard_Integer anArgIter = 1; for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArg = theArgVec[anArgIter]; anArg.LowerCase(); if (anArg == "-context") { isContextOnly = Standard_True; } else if (anArg == "-all") { toRemoveAll = Standard_True; } else if (anArg == "-noinfo") { toPrintInfo = Standard_False; } else if (anUpdateTool.parseRedrawMode (anArg)) { continue; } else { break; } } if (toRemoveAll && anArgIter < theArgNb) { std::cerr << "Error: wrong syntax!\n"; return 1; } NCollection_List anIONameList; if (toRemoveAll) { for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { anIONameList.Append (anIter.Key2()); } } else if (anArgIter < theArgNb) // removed objects names are in argument list { for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString aName = theArgVec[anArgIter]; Handle(AIS_InteractiveObject) anIO; if (!GetMapOfAIS().Find2 (aName, anIO)) { theDI << aName << " was not bound to some object.\n"; continue; } if (anIO->GetContext() != aCtx) { theDI << aName << " was not displayed in current context.\n"; theDI << "Please activate view with this object displayed and try again.\n"; continue; } anIONameList.Append (aName); continue; } } else if (aCtx->NbSelected() > 0) { for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { if (!aCtx->IsSelected (anIter.Key1())) { continue; } anIONameList.Append (anIter.Key2()); continue; } } // Unbind all removed objects from the map of displayed IO. for (NCollection_List::Iterator anIter (anIONameList); anIter.More(); anIter.Next()) { const Handle(AIS_InteractiveObject) anIO = GetMapOfAIS().Find2 (anIter.Value()); aCtx->Remove (anIO, Standard_False); if (toPrintInfo) { theDI << anIter.Value() << " was removed\n"; } if (!isContextOnly) { GetMapOfAIS().UnBind2 (anIter.Value()); } } return 0; } //============================================================================== //function : VErase //purpose : Erase some selected or named objects // if there is no selected or named objects, the whole viewer is erased //============================================================================== int VErase (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec) { const Handle(AIS_InteractiveContext)& aCtx = ViewerTest::GetAISContext(); const Handle(V3d_View)& aView = ViewerTest::CurrentView(); ViewerTest_AutoUpdater anUpdateTool (aCtx, aView); if (aCtx.IsNull()) { std::cerr << "Error: no active view!\n"; return 1; } const Standard_Boolean toEraseAll = TCollection_AsciiString (theArgNb > 0 ? theArgVec[0] : "") == "veraseall"; Standard_Integer anArgIter = 1; Standard_Boolean toEraseInView = Standard_False; TColStd_SequenceOfAsciiString aNamesOfEraseIO; for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArgCase (theArgVec[anArgIter]); anArgCase.LowerCase(); if (anUpdateTool.parseRedrawMode (anArgCase)) { continue; } else if (anArgCase == "-view" || anArgCase == "-inview") { toEraseInView = Standard_True; } else { aNamesOfEraseIO.Append (theArgVec[anArgIter]); } } if (!aNamesOfEraseIO.IsEmpty() && toEraseAll) { std::cerr << "Error: wrong syntax, " << theArgVec[0] << " too much arguments.\n"; return 1; } if (!aNamesOfEraseIO.IsEmpty()) { // Erase named objects for (Standard_Integer anIter = 1; anIter <= aNamesOfEraseIO.Length(); ++anIter) { TCollection_AsciiString aName = aNamesOfEraseIO.Value (anIter); Handle(AIS_InteractiveObject) anIO; if (!GetMapOfAIS().Find2 (aName, anIO)) { continue; } theDI << aName << " "; if (!anIO.IsNull()) { if (toEraseInView) { aCtx->SetViewAffinity (anIO, aView, Standard_False); } else { aCtx->Erase (anIO, Standard_False); } } } } else if (!toEraseAll && aCtx->NbSelected() > 0) { // Erase selected objects for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { const Handle(AIS_InteractiveObject) anIO = anIter.Key1(); if (!anIO.IsNull() && aCtx->IsSelected (anIO)) { theDI << anIter.Key2() << " "; if (toEraseInView) { aCtx->SetViewAffinity (anIO, aView, Standard_False); } } } if (!toEraseInView) { aCtx->EraseSelected (Standard_False); } } else { // Erase all objects for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { Handle(AIS_InteractiveObject) anIO = anIter.Key1(); if (!anIO.IsNull()) { if (toEraseInView) { aCtx->SetViewAffinity (anIO, aView, Standard_False); } else { aCtx->Erase (anIO, Standard_False); } } } } return 0; } //============================================================================== //function : VDisplayAll //purpose : Display all the objects of the Map //============================================================================== static int VDisplayAll (Draw_Interpretor& , Standard_Integer theArgNb, const char** theArgVec) { const Handle(AIS_InteractiveContext)& aCtx = ViewerTest::GetAISContext(); ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); if (aCtx.IsNull()) { std::cerr << "Error: no active view!\n"; return 1; } Standard_Integer anArgIter = 1; for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArgCase (theArgVec[anArgIter]); anArgCase.LowerCase(); if (anUpdateTool.parseRedrawMode (anArgCase)) { continue; } else { break; } } if (anArgIter < theArgNb) { std::cout << theArgVec[0] << "Error: wrong syntax\n"; return 1; } for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { aCtx->Erase (anIter.Key1(), Standard_False); } for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { aCtx->Display (anIter.Key1(), Standard_False); } return 0; } //! Auxiliary method to check if presentation exists inline Standard_Integer checkMode (const Handle(AIS_InteractiveContext)& theCtx, const Handle(AIS_InteractiveObject)& theIO, const Standard_Integer theMode) { if (theIO.IsNull() || theCtx.IsNull()) { return -1; } if (theMode != -1) { if (theCtx->MainPrsMgr()->HasPresentation (theIO, theMode)) { return theMode; } } else if (theCtx->MainPrsMgr()->HasPresentation (theIO, theIO->DisplayMode())) { return theIO->DisplayMode(); } else if (theCtx->MainPrsMgr()->HasPresentation (theIO, theCtx->DisplayMode())) { return theCtx->DisplayMode(); } return -1; } enum ViewerTest_BndAction { BndAction_Hide, BndAction_Show, BndAction_Print }; //! Auxiliary method to print bounding box of presentation inline void bndPresentation (Draw_Interpretor& theDI, const Handle(PrsMgr_PresentationManager)& theMgr, const Handle(AIS_InteractiveObject)& theObj, const Standard_Integer theDispMode, const TCollection_AsciiString& theName, const ViewerTest_BndAction theAction, const Handle(Prs3d_Drawer)& theStyle) { switch (theAction) { case BndAction_Hide: { theMgr->Unhighlight (theObj); break; } case BndAction_Show: { theMgr->Color (theObj, theStyle, theDispMode); break; } case BndAction_Print: { Bnd_Box aBox; for (PrsMgr_Presentations::Iterator aPrsIter (theObj->Presentations()); aPrsIter.More(); aPrsIter.Next()) { if (aPrsIter.Value().Mode() != theDispMode) continue; aBox = aPrsIter.Value().Presentation()->Presentation()->MinMaxValues(); } gp_Pnt aMin = aBox.CornerMin(); gp_Pnt aMax = aBox.CornerMax(); theDI << theName << "\n" << aMin.X() << " " << aMin.Y() << " " << aMin.Z() << " " << aMax.X() << " " << aMax.Y() << " " << aMax.Z() << "\n"; break; } } } //============================================================================== //function : VBounding //purpose : //============================================================================== int VBounding (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec) { Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); if (aCtx.IsNull()) { std::cout << "Error: no active view!\n"; return 1; } ViewerTest_BndAction anAction = BndAction_Show; Standard_Integer aMode = -1; Handle(Prs3d_Drawer) aStyle; Standard_Integer anArgIter = 1; for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString anArg (theArgVec[anArgIter]); anArg.LowerCase(); if (anArg == "-print") { anAction = BndAction_Print; } else if (anArg == "-show") { anAction = BndAction_Show; } else if (anArg == "-hide") { anAction = BndAction_Hide; } else if (anArg == "-mode") { if (++anArgIter >= theArgNb) { std::cout << "Error: wrong syntax at " << anArg << "\n"; return 1; } aMode = Draw::Atoi (theArgVec[anArgIter]); } else if (!anUpdateTool.parseRedrawMode (anArg)) { break; } } if (anAction == BndAction_Show) { aStyle = new Prs3d_Drawer(); aStyle->SetMethod (Aspect_TOHM_BOUNDBOX); aStyle->SetColor (Quantity_NOC_GRAY99); } Standard_Integer aHighlightedMode = -1; if (anArgIter < theArgNb) { // has a list of names for (; anArgIter < theArgNb; ++anArgIter) { TCollection_AsciiString aName = theArgVec[anArgIter]; Handle(AIS_InteractiveObject) anIO; if (!GetMapOfAIS().Find2 (aName, anIO)) { std::cout << "Error: presentation " << aName << " does not exist\n"; return 1; } aHighlightedMode = checkMode (aCtx, anIO, aMode); if (aHighlightedMode == -1) { std::cout << "Error: object " << aName << " has no presentation with mode " << aMode << std::endl; return 1; } bndPresentation (theDI, aCtx->MainPrsMgr(), anIO, aHighlightedMode, aName, anAction, aStyle); } } else if (aCtx->NbSelected() > 0) { // remove all currently selected objects for (aCtx->InitSelected(); aCtx->MoreSelected(); aCtx->NextSelected()) { Handle(AIS_InteractiveObject) anIO = aCtx->SelectedInteractive(); aHighlightedMode = checkMode (aCtx, anIO, aMode); if (aHighlightedMode != -1) { bndPresentation (theDI, aCtx->MainPrsMgr(), anIO, aHighlightedMode, GetMapOfAIS().IsBound1 (anIO) ? GetMapOfAIS().Find1 (anIO) : "", anAction, aStyle); } } } else { // all objects for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anIter (GetMapOfAIS()); anIter.More(); anIter.Next()) { Handle(AIS_InteractiveObject) anIO = anIter.Key1(); aHighlightedMode = checkMode (aCtx, anIO, aMode); if (aHighlightedMode != -1) { bndPresentation (theDI, aCtx->MainPrsMgr(), anIO, aHighlightedMode, anIter.Key2(), anAction, aStyle); } } } return 0; } //============================================================================== //function : VTexture //purpose : //============================================================================== Standard_Integer VTexture (Draw_Interpretor& theDi, Standard_Integer theArgsNb, const char** theArgVec) { const Handle(AIS_InteractiveContext)& aCtx = ViewerTest::GetAISContext(); if (aCtx.IsNull()) { std::cout << "Error: no active view!\n"; return 1; } int toModulate = -1; bool toSetFilter = false; bool toSetAniso = false; bool toSetTrsfAngle = false; bool toSetTrsfTrans = false; bool toSetTrsfScale = false; Standard_ShortReal aTrsfRotAngle = 0.0f; Graphic3d_Vec2 aTrsfTrans (0.0f, 0.0f); Graphic3d_Vec2 aTrsfScale (1.0f, 1.0f); Graphic3d_TypeOfTextureFilter aFilter = Graphic3d_TOTF_NEAREST; Graphic3d_LevelOfTextureAnisotropy anAnisoFilter = Graphic3d_LOTA_OFF; Handle(AIS_InteractiveObject) aTexturedIO; Handle(AIS_Shape) aTexturedShape; Handle(Graphic3d_TextureSet) aTextureSetOld; NCollection_Vector aTextureVecNew; bool toSetGenRepeat = false; bool toSetGenScale = false; bool toSetGenOrigin = false; bool toSetImage = false; bool toComputeUV = false; const TCollection_AsciiString aCommandName (theArgVec[0]); bool toSetDefaults = aCommandName == "vtexdefault"; ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); for (Standard_Integer anArgIter = 1; anArgIter < theArgsNb; ++anArgIter) { const TCollection_AsciiString aName = theArgVec[anArgIter]; TCollection_AsciiString aNameCase = aName; aNameCase.LowerCase(); if (anUpdateTool.parseRedrawMode (aName)) { continue; } else if (aTexturedIO.IsNull()) { const ViewerTest_DoubleMapOfInteractiveAndName& aMapOfIO = GetMapOfAIS(); if (aMapOfIO.IsBound2 (aName)) { aTexturedIO = aMapOfIO.Find2 (aName); aTexturedShape = Handle(AIS_Shape)::DownCast (aTexturedIO); } if (aTexturedIO.IsNull()) { std::cout << "Syntax error: shape " << aName << " does not exists in the viewer.\n"; return 1; } if (aTexturedIO->Attributes()->HasOwnShadingAspect()) { aTextureSetOld = aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureSet(); } } else if (!aTexturedShape.IsNull() && (aNameCase == "-scale" || aNameCase == "-setscale" || aCommandName == "vtexscale")) { if (aCommandName != "vtexscale") { ++anArgIter; } if (anArgIter < theArgsNb) { TCollection_AsciiString aValU (theArgVec[anArgIter]); TCollection_AsciiString aValUCase = aValU; aValUCase.LowerCase(); toSetGenScale = true; if (aValUCase == "off") { aTexturedShape->SetTextureScaleUV (gp_Pnt2d (1.0, 1.0)); continue; } else if (anArgIter + 1 < theArgsNb) { TCollection_AsciiString aValV (theArgVec[anArgIter + 1]); if (aValU.IsRealValue() && aValV.IsRealValue()) { aTexturedShape->SetTextureScaleUV (gp_Pnt2d (aValU.RealValue(), aValV.RealValue())); ++anArgIter; continue; } } } std::cout << "Syntax error: unexpected argument '" << aName << "'\n"; return 1; } else if (!aTexturedShape.IsNull() && (aNameCase == "-origin" || aNameCase == "-setorigin" || aCommandName == "vtexorigin")) { if (aCommandName != "vtexorigin") { ++anArgIter; } if (anArgIter < theArgsNb) { TCollection_AsciiString aValU (theArgVec[anArgIter]); TCollection_AsciiString aValUCase = aValU; aValUCase.LowerCase(); toSetGenOrigin = true; if (aValUCase == "off") { aTexturedShape->SetTextureOriginUV (gp_Pnt2d (0.0, 0.0)); continue; } else if (anArgIter + 1 < theArgsNb) { TCollection_AsciiString aValV (theArgVec[anArgIter + 1]); if (aValU.IsRealValue() && aValV.IsRealValue()) { aTexturedShape->SetTextureOriginUV (gp_Pnt2d (aValU.RealValue(), aValV.RealValue())); ++anArgIter; continue; } } } std::cout << "Syntax error: unexpected argument '" << aName << "'\n"; return 1; } else if (!aTexturedShape.IsNull() && (aNameCase == "-repeat" || aNameCase == "-setrepeat" || aCommandName == "vtexrepeat")) { if (aCommandName != "vtexrepeat") { ++anArgIter; } if (anArgIter < theArgsNb) { TCollection_AsciiString aValU (theArgVec[anArgIter]); TCollection_AsciiString aValUCase = aValU; aValUCase.LowerCase(); toSetGenRepeat = true; if (aValUCase == "off") { aTexturedShape->SetTextureRepeatUV (gp_Pnt2d (1.0, 1.0)); continue; } else if (anArgIter + 1 < theArgsNb) { TCollection_AsciiString aValV (theArgVec[anArgIter + 1]); if (aValU.IsRealValue() && aValV.IsRealValue()) { aTexturedShape->SetTextureRepeatUV (gp_Pnt2d (aValU.RealValue(), aValV.RealValue())); ++anArgIter; continue; } } } std::cout << "Syntax error: unexpected argument '" << aName << "'\n"; return 1; } else if (aNameCase == "-modulate") { bool toModulateBool = true; if (anArgIter + 1 < theArgsNb && ViewerTest::ParseOnOff (theArgVec[anArgIter + 1], toModulateBool)) { ++anArgIter; } toModulate = toModulateBool ? 1 : 0; } else if ((aNameCase == "-setfilter" || aNameCase == "-filter") && anArgIter + 1 < theArgsNb) { TCollection_AsciiString aValue (theArgVec[anArgIter + 1]); aValue.LowerCase(); ++anArgIter; toSetFilter = true; if (aValue == "nearest") { aFilter = Graphic3d_TOTF_NEAREST; } else if (aValue == "bilinear") { aFilter = Graphic3d_TOTF_BILINEAR; } else if (aValue == "trilinear") { aFilter = Graphic3d_TOTF_TRILINEAR; } else { std::cout << "Syntax error: unexpected argument '" << aValue << "'\n"; return 1; } } else if ((aNameCase == "-setaniso" || aNameCase == "-setanisofilter" || aNameCase == "-aniso" || aNameCase == "-anisofilter") && anArgIter + 1 < theArgsNb) { TCollection_AsciiString aValue (theArgVec[anArgIter + 1]); aValue.LowerCase(); ++anArgIter; toSetAniso = true; if (aValue == "off") { anAnisoFilter = Graphic3d_LOTA_OFF; } else if (aValue == "fast") { anAnisoFilter = Graphic3d_LOTA_FAST; } else if (aValue == "middle") { anAnisoFilter = Graphic3d_LOTA_MIDDLE; } else if (aValue == "quality" || aValue == "high") { anAnisoFilter = Graphic3d_LOTA_QUALITY; } else { std::cout << "Syntax error: unexpected argument '" << aValue << "'\n"; return 1; } } else if ((aNameCase == "-rotateangle" || aNameCase == "-rotangle" || aNameCase == "-rotate" || aNameCase == "-angle" || aNameCase == "-trsfangle") && anArgIter + 1 < theArgsNb) { aTrsfRotAngle = Standard_ShortReal (Draw::Atof (theArgVec[anArgIter + 1])); toSetTrsfAngle = true; ++anArgIter; } else if ((aNameCase == "-trsftrans" || aNameCase == "-trsftranslate" || aNameCase == "-translate" || aNameCase == "-translation") && anArgIter + 2 < theArgsNb) { aTrsfTrans.x() = Standard_ShortReal (Draw::Atof (theArgVec[anArgIter + 1])); aTrsfTrans.y() = Standard_ShortReal (Draw::Atof (theArgVec[anArgIter + 2])); toSetTrsfTrans = true; anArgIter += 2; } else if ((aNameCase == "-trsfscale") && anArgIter + 2 < theArgsNb) { aTrsfScale.x() = Standard_ShortReal (Draw::Atof (theArgVec[anArgIter + 1])); aTrsfScale.y() = Standard_ShortReal (Draw::Atof (theArgVec[anArgIter + 2])); toSetTrsfScale = true; anArgIter += 2; } else if (aNameCase == "-default" || aNameCase == "-defaults") { toSetDefaults = true; } else if (aCommandName == "vtexture" && (aTextureVecNew.IsEmpty() || aNameCase.StartsWith ("-tex"))) { Standard_Integer aTexIndex = 0; TCollection_AsciiString aTexName = aName; if (aNameCase.StartsWith ("-tex")) { if (anArgIter + 1 >= theArgsNb || aNameCase.Length() < 5) { std::cout << "Syntax error: invalid argument '" << theArgVec[anArgIter] << "'\n"; return 1; } TCollection_AsciiString aTexIndexStr = aNameCase.SubString (5, aNameCase.Length()); if (!aTexIndexStr.IsIntegerValue()) { std::cout << "Syntax error: invalid argument '" << theArgVec[anArgIter] << "'\n"; return 1; } aTexIndex = aTexIndexStr.IntegerValue(); aTexName = theArgVec[anArgIter + 1]; ++anArgIter; } if (aTexIndex >= Graphic3d_TextureUnit_NB || aTexIndex >= aCtx->CurrentViewer()->Driver()->InquireLimit (Graphic3d_TypeOfLimit_MaxCombinedTextureUnits)) { std::cout << "Error: too many textures specified\n"; return 1; } toSetImage = true; if (aTexName.IsIntegerValue()) { const Standard_Integer aValue = aTexName.IntegerValue(); if (aValue < 0 || aValue >= Graphic3d_Texture2D::NumberOfTextures()) { std::cout << "Syntax error: texture with ID " << aValue << " is undefined!\n"; return 1; } aTextureVecNew.SetValue (aTexIndex, new Graphic3d_Texture2Dmanual (Graphic3d_NameOfTexture2D (aValue))); } else if (aTexName == "?") { const TCollection_AsciiString aTextureFolder = Graphic3d_TextureRoot::TexturesFolder(); theDi << "\n Files in current directory : \n\n"; theDi.Eval ("glob -nocomplain *"); TCollection_AsciiString aCmnd ("glob -nocomplain "); aCmnd += aTextureFolder; aCmnd += "/* "; theDi << "Files in " << aTextureFolder << " : \n\n"; theDi.Eval (aCmnd.ToCString()); return 0; } else if (aTexName != "off") { if (!OSD_File (aTexName).Exists()) { std::cout << "Syntax error: non-existing image file has been specified '" << aTexName << "'.\n"; return 1; } aTextureVecNew.SetValue (aTexIndex, new Graphic3d_Texture2Dmanual (aTexName)); } else { aTextureVecNew.SetValue (aTexIndex, Handle(Graphic3d_Texture2Dmanual)()); } if (aTextureVecNew.Value (aTexIndex)) { aTextureVecNew.ChangeValue(aTexIndex)->GetParams()->SetTextureUnit((Graphic3d_TextureUnit)aTexIndex); } } else { std::cout << "Syntax error: invalid argument '" << theArgVec[anArgIter] << "'\n"; return 1; } } if (toSetImage) { // check if new image set is equal to already set one Standard_Integer aNbChanged = 0; Handle(Graphic3d_TextureSet) aTextureSetNew; if (!aTextureVecNew.IsEmpty()) { aNbChanged = aTextureVecNew.Size(); aTextureSetNew = new Graphic3d_TextureSet (aTextureVecNew.Size()); for (Standard_Integer aTexIter = 0; aTexIter < aTextureSetNew->Size(); ++aTexIter) { Handle(Graphic3d_Texture2Dmanual)& aTextureNew = aTextureVecNew.ChangeValue (aTexIter); Handle(Graphic3d_TextureRoot) aTextureOld; if (!aTextureSetOld.IsNull() && aTexIter < aTextureSetOld->Size()) { aTextureOld = aTextureSetOld->Value (aTexIter); } if (!aTextureOld.IsNull() && !aTextureNew.IsNull()) { *aTextureNew->GetParams() = *aTextureOld->GetParams(); if (Handle(Graphic3d_Texture2Dmanual) anOldManualTex = Handle(Graphic3d_Texture2Dmanual)::DownCast (aTextureOld)) { TCollection_AsciiString aFilePathOld, aFilePathNew; aTextureOld->Path().SystemName (aFilePathOld); aTextureNew->Path().SystemName (aFilePathNew); if (aTextureNew->Name() == anOldManualTex->Name() && aFilePathOld == aFilePathNew && (!aFilePathNew.IsEmpty() || aTextureNew->Name() != Graphic3d_NOT_2D_UNKNOWN)) { --aNbChanged; aTextureNew = anOldManualTex; } } } aTextureSetNew->SetValue (aTexIter, aTextureNew); } } if (aNbChanged == 0 && ((aTextureSetOld.IsNull() && aTextureSetNew.IsNull()) || (aTextureSetOld->Size() == aTextureSetNew->Size()))) { aTextureSetNew = aTextureSetOld; } if (aTexturedIO->Attributes()->SetupOwnShadingAspect (aCtx->DefaultDrawer()) && aTexturedShape.IsNull()) { aTexturedIO->SetToUpdate(); } toComputeUV = !aTextureSetNew.IsNull() && aTextureSetOld.IsNull(); aTexturedIO->Attributes()->ShadingAspect()->Aspect()->SetTextureMapOn (!aTextureSetNew.IsNull()); aTexturedIO->Attributes()->ShadingAspect()->Aspect()->SetTextureSet (aTextureSetNew); aTextureSetOld.Nullify(); } if (toSetDefaults) { if (toModulate != -1) { toModulate = 1; } if (!toSetFilter) { toSetFilter = true; aFilter = Graphic3d_TOTF_BILINEAR; } if (!toSetAniso) { toSetAniso = true; anAnisoFilter = Graphic3d_LOTA_OFF; } if (!toSetTrsfAngle) { toSetTrsfAngle = true; aTrsfRotAngle = 0.0f; } if (!toSetTrsfTrans) { toSetTrsfTrans = true; aTrsfTrans = Graphic3d_Vec2 (0.0f, 0.0f); } if (!toSetTrsfScale) { toSetTrsfScale = true; aTrsfScale = Graphic3d_Vec2 (1.0f, 1.0f); } } if (aCommandName == "vtexture" && theArgsNb == 2) { if (!aTextureSetOld.IsNull()) { //toComputeUV = true; // we can keep UV vertex attributes aTexturedIO->Attributes()->ShadingAspect()->Aspect()->SetTextureMapOff(); aTexturedIO->Attributes()->ShadingAspect()->Aspect()->SetTextureSet (Handle(Graphic3d_TextureSet)()); aTextureSetOld.Nullify(); } } if (aTexturedIO->Attributes()->HasOwnShadingAspect() && !aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap().IsNull()) { if (toModulate != -1) { aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap()->GetParams()->SetModulate (toModulate == 1); } if (toSetTrsfAngle) { aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap()->GetParams()->SetRotation (aTrsfRotAngle); // takes degrees } if (toSetTrsfTrans) { aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap()->GetParams()->SetTranslation (aTrsfTrans); } if (toSetTrsfScale) { aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap()->GetParams()->SetScale (aTrsfScale); } if (toSetFilter) { aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap()->GetParams()->SetFilter (aFilter); } if (toSetAniso) { aTexturedIO->Attributes()->ShadingAspect()->Aspect()->TextureMap()->GetParams()->SetAnisoFilter (anAnisoFilter); } } // set default values if requested if (!toSetGenRepeat && (aCommandName == "vtexrepeat" || toSetDefaults)) { if (!aTexturedShape.IsNull()) { aTexturedShape->SetTextureRepeatUV (gp_Pnt2d (1.0, 1.0)); } toSetGenRepeat = true; } if (!toSetGenOrigin && (aCommandName == "vtexorigin" || toSetDefaults)) { if (!aTexturedShape.IsNull()) { aTexturedShape->SetTextureOriginUV (gp_Pnt2d (0.0, 0.0)); } toSetGenOrigin = true; } if (!toSetGenScale && (aCommandName == "vtexscale" || toSetDefaults)) { if (!aTexturedShape.IsNull()) { aTexturedShape->SetTextureScaleUV (gp_Pnt2d (1.0, 1.0)); } toSetGenScale = true; } if (toSetGenRepeat || toSetGenOrigin || toSetGenScale || toComputeUV) { if (!aTexturedShape.IsNull()) { aTexturedShape->SetToUpdate (AIS_Shaded); if (toSetImage) { if ((aTexturedIO->HasDisplayMode() && aTexturedIO->DisplayMode() != AIS_Shaded) || aCtx->DisplayMode() != AIS_Shaded) { aCtx->SetDisplayMode (aTexturedIO, AIS_Shaded, false); } } } } aCtx->Display (aTexturedIO, false); aTexturedIO->SynchronizeAspects(); return 0; } //! Auxiliary method to parse transformation persistence flags inline Standard_Boolean parseTrsfPersFlag (const TCollection_AsciiString& theFlagString, Graphic3d_TransModeFlags& theFlags) { if (theFlagString == "zoom") { theFlags = Graphic3d_TMF_ZoomPers; } else if (theFlagString == "rotate") { theFlags = Graphic3d_TMF_RotatePers; } else if (theFlagString == "zoomrotate") { theFlags = Graphic3d_TMF_ZoomRotatePers; } else if (theFlagString == "trihedron" || theFlagString == "triedron") { theFlags = Graphic3d_TMF_TriedronPers; } else if (theFlagString == "none") { theFlags = Graphic3d_TMF_None; } else { return Standard_False; } return Standard_True; } //! Auxiliary method to parse transformation persistence flags inline Standard_Boolean parseTrsfPersCorner (const TCollection_AsciiString& theString, Aspect_TypeOfTriedronPosition& theCorner) { TCollection_AsciiString aString (theString); aString.LowerCase(); if (aString == "center") { theCorner = Aspect_TOTP_CENTER; } else if (aString == "top" || aString == "upper") { theCorner = Aspect_TOTP_TOP; } else if (aString == "bottom" || aString == "lower") { theCorner = Aspect_TOTP_BOTTOM; } else if (aString == "left") { theCorner = Aspect_TOTP_LEFT; } else if (aString == "right") { theCorner = Aspect_TOTP_RIGHT; } else if (aString == "topleft" || aString == "leftupper" || aString == "upperleft") { theCorner = Aspect_TOTP_LEFT_UPPER; } else if (aString == "bottomleft" || aString == "leftlower" || aString == "lowerleft") { theCorner = Aspect_TOTP_LEFT_LOWER; } else if (aString == "topright" || aString == "rightupper" || aString == "upperright") { theCorner = Aspect_TOTP_RIGHT_UPPER; } else if (aString == "bottomright" || aString == "lowerright" || aString == "rightlower") { theCorner = Aspect_TOTP_RIGHT_LOWER; } else { return Standard_False; } return Standard_True; } //============================================================================== //function : VDisplay2 //author : ege //purpose : Display an object from its name //============================================================================== static int VDisplay2 (Draw_Interpretor& theDI, Standard_Integer theArgNb, const char** theArgVec) { if (theArgNb < 2) { std::cerr << theArgVec[0] << "Error: wrong number of arguments.\n"; return 1; } Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); if (aCtx.IsNull()) { ViewerTest::ViewerInit(); aCtx = ViewerTest::GetAISContext(); } // Parse input arguments ViewerTest_AutoUpdater anUpdateTool (aCtx, ViewerTest::CurrentView()); Standard_Integer isMutable = -1; Graphic3d_ZLayerId aZLayer = Graphic3d_ZLayerId_UNKNOWN; Standard_Boolean toReDisplay = Standard_False; Standard_Integer isSelectable = -1; Standard_Integer anObjDispMode = -2; Standard_Integer anObjHighMode = -2; Standard_Boolean toSetTrsfPers = Standard_False; Handle(Graphic3d_TransformPers) aTrsfPers; TColStd_SequenceOfAsciiString aNamesOfDisplayIO; AIS_DisplayStatus aDispStatus = AIS_DS_None; Standard_Integer toDisplayInView = Standard_False; for (Standard_Integer anArgIter = 1; anArgIter < theArgNb; ++anArgIter) { const TCollection_AsciiString aName = theArgVec[anArgIter]; TCollection_AsciiString aNameCase = aName; aNameCase.LowerCase(); if (anUpdateTool.parseRedrawMode (aName)) { continue; } else if (aNameCase == "-mutable") { isMutable = 1; } else if (aNameCase == "-neutral") { aDispStatus = AIS_DS_Displayed; } else if (aNameCase == "-immediate" || aNameCase == "-top") { aZLayer = Graphic3d_ZLayerId_Top; } else if (aNameCase == "-topmost") { aZLayer = Graphic3d_ZLayerId_Topmost; } else if (aNameCase == "-osd" || aNameCase == "-toposd" || aNameCase == "-overlay") { aZLayer = Graphic3d_ZLayerId_TopOSD; } else if (aNameCase == "-botosd" || aNameCase == "-underlay") { aZLayer = Graphic3d_ZLayerId_BotOSD; } else if (aNameCase == "-select" || aNameCase == "-selectable") { isSelectable = 1; } else if (aNameCase == "-noselect" || aNameCase == "-noselection") { isSelectable = 0; } else if (aNameCase == "-dispmode" || aNameCase == "-displaymode") { if (++anArgIter >= theArgNb) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } anObjDispMode = Draw::Atoi (theArgVec [anArgIter]); } else if (aNameCase == "-highmode" || aNameCase == "-highlightmode") { if (++anArgIter >= theArgNb) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } anObjHighMode = Draw::Atoi (theArgVec [anArgIter]); } else if (aNameCase == "-3d") { toSetTrsfPers = Standard_True; aTrsfPers.Nullify(); } else if (aNameCase == "-2d" || aNameCase == "-trihedron" || aNameCase == "-triedron") { toSetTrsfPers = Standard_True; aTrsfPers = new Graphic3d_TransformPers (aNameCase == "-2d" ? Graphic3d_TMF_2d : Graphic3d_TMF_TriedronPers, Aspect_TOTP_LEFT_LOWER); if (anArgIter + 1 < theArgNb) { Aspect_TypeOfTriedronPosition aCorner = Aspect_TOTP_CENTER; if (parseTrsfPersCorner (theArgVec[anArgIter + 1], aCorner)) { ++anArgIter; aTrsfPers->SetCorner2d (aCorner); if (anArgIter + 2 < theArgNb) { TCollection_AsciiString anX (theArgVec[anArgIter + 1]); TCollection_AsciiString anY (theArgVec[anArgIter + 2]); if (anX.IsIntegerValue() && anY.IsIntegerValue()) { anArgIter += 2; aTrsfPers->SetOffset2d (Graphic3d_Vec2i (anX.IntegerValue(), anY.IntegerValue())); } } } } } else if (aNameCase == "-trsfpers" || aNameCase == "-pers") { if (++anArgIter >= theArgNb || !aTrsfPers.IsNull()) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } toSetTrsfPers = Standard_True; Graphic3d_TransModeFlags aTrsfPersFlags = Graphic3d_TMF_None; TCollection_AsciiString aPersFlags (theArgVec [anArgIter]); aPersFlags.LowerCase(); if (!parseTrsfPersFlag (aPersFlags, aTrsfPersFlags)) { std::cerr << "Error: wrong transform persistence flags " << theArgVec [anArgIter] << ".\n"; return 1; } if (aTrsfPersFlags == Graphic3d_TMF_TriedronPers) { aTrsfPers = new Graphic3d_TransformPers (Graphic3d_TMF_TriedronPers, Aspect_TOTP_LEFT_LOWER); } else if (aTrsfPersFlags != Graphic3d_TMF_None) { aTrsfPers = new Graphic3d_TransformPers (aTrsfPersFlags, gp_Pnt()); } } else if (aNameCase == "-trsfperspos" || aNameCase == "-perspos") { if (anArgIter + 2 >= theArgNb || aTrsfPers.IsNull()) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } TCollection_AsciiString aX (theArgVec[++anArgIter]); TCollection_AsciiString aY (theArgVec[++anArgIter]); TCollection_AsciiString aZ = "0"; if (!aX.IsRealValue() || !aY.IsRealValue()) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } if (anArgIter + 1 < theArgNb) { TCollection_AsciiString aTemp = theArgVec[anArgIter + 1]; if (aTemp.IsRealValue()) { aZ = aTemp; ++anArgIter; } } const gp_Pnt aPnt (aX.RealValue(), aY.RealValue(), aZ.RealValue()); if (aTrsfPers->IsZoomOrRotate()) { aTrsfPers->SetAnchorPoint (aPnt); } else if (aTrsfPers->IsTrihedronOr2d()) { aTrsfPers = Graphic3d_TransformPers::FromDeprecatedParams (aTrsfPers->Mode(), aPnt); } } else if (aNameCase == "-layer") { if (++anArgIter >= theArgNb) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } TCollection_AsciiString aValue (theArgVec[anArgIter]); if (!aValue.IsIntegerValue()) { std::cerr << "Error: wrong syntax at " << aName << ".\n"; return 1; } aZLayer = aValue.IntegerValue(); } else if (aNameCase == "-view" || aNameCase == "-inview") { toDisplayInView = Standard_True; } else if (aNameCase == "-redisplay") { toReDisplay = Standard_True; } else if (aNameCase == "-erased" || aNameCase == "-load") { aDispStatus = AIS_DS_Erased; } else { aNamesOfDisplayIO.Append (aName); } } if (aNamesOfDisplayIO.IsEmpty()) { std::cerr << theArgVec[0] << "Error: wrong number of arguments.\n"; return 1; } // Display interactive objects for (Standard_Integer anIter = 1; anIter <= aNamesOfDisplayIO.Length(); ++anIter) { const TCollection_AsciiString& aName = aNamesOfDisplayIO.Value (anIter); Handle(AIS_InteractiveObject) aShape; if (!GetMapOfAIS().Find2 (aName, aShape)) { // create the AIS_Shape from a name TopoDS_Shape aDrawShape = DBRep::GetExisting (aName); if (!aDrawShape.IsNull()) { aShape = new AIS_Shape (aDrawShape); if (isMutable != -1) { aShape->SetMutable (isMutable == 1); } if (aZLayer != Graphic3d_ZLayerId_UNKNOWN) { aShape->SetZLayer (aZLayer); } if (toSetTrsfPers) { aCtx->SetTransformPersistence (aShape, aTrsfPers); } if (anObjDispMode != -2) { aShape->SetDisplayMode (anObjDispMode); } if (anObjHighMode != -2) { aShape->SetHilightMode (anObjHighMode); } GetMapOfAIS().Bind (aShape, aName); Standard_Integer aDispMode = aShape->HasDisplayMode() ? aShape->DisplayMode() : (aShape->AcceptDisplayMode (aCtx->DisplayMode()) ? aCtx->DisplayMode() : 0); Standard_Integer aSelMode = -1; if (isSelectable == 1 || (isSelectable == -1 && aCtx->GetAutoActivateSelection())) { aSelMode = aShape->GlobalSelectionMode(); } aCtx->Display (aShape, aDispMode, aSelMode, Standard_False, aDispStatus); if (toDisplayInView) { for (V3d_ListOfViewIterator aViewIter (aCtx->CurrentViewer()->DefinedViewIterator()); aViewIter.More(); aViewIter.Next()) { aCtx->SetViewAffinity (aShape, aViewIter.Value(), Standard_False); } aCtx->SetViewAffinity (aShape, ViewerTest::CurrentView(), Standard_True); } } else { std::cerr << "Error: object with name '" << aName << "' does not exist!\n"; } continue; } if (isMutable != -1) { aShape->SetMutable (isMutable == 1); } if (aZLayer != Graphic3d_ZLayerId_UNKNOWN) { aShape->SetZLayer (aZLayer); } if (toSetTrsfPers) { aCtx->SetTransformPersistence (aShape, aTrsfPers); } if (anObjDispMode != -2) { aShape->SetDisplayMode (anObjDispMode); } if (anObjHighMode != -2) { aShape->SetHilightMode (anObjHighMode); } Standard_Integer aDispMode = aShape->HasDisplayMode() ? aShape->DisplayMode() : (aShape->AcceptDisplayMode (aCtx->DisplayMode()) ? aCtx->DisplayMode() : 0); Standard_Integer aSelMode = -1; if (isSelectable == 1 || (isSelectable == -1 && aCtx->GetAutoActivateSelection())) { aSelMode = aShape->GlobalSelectionMode(); } if (aShape->Type() == AIS_KOI_Datum) { aCtx->Display (aShape, Standard_False); } else { theDI << "Display " << aName << "\n"; // update the Shape in the AIS_Shape TopoDS_Shape aNewShape = DBRep::GetExisting (aName); Handle(AIS_Shape) aShapePrs = Handle(AIS_Shape)::DownCast(aShape); if (!aShapePrs.IsNull()) { if (!aShapePrs->Shape().IsEqual (aNewShape)) { toReDisplay = Standard_True; } aShapePrs->Set (aNewShape); } if (toReDisplay) { aCtx->Redisplay (aShape, Standard_False); } if (aSelMode == -1) { aCtx->Erase (aShape, Standard_False); } aCtx->Display (aShape, aDispMode, aSelMode, Standard_False, aDispStatus); if (toDisplayInView) { aCtx->SetViewAffinity (aShape, ViewerTest::CurrentView(), Standard_True); } } } return 0; } //======================================================================= //function : VNbDisplayed //purpose : Returns number of displayed objects //======================================================================= static Standard_Integer VNbDisplayed (Draw_Interpretor& theDi, Standard_Integer theArgsNb, const char** theArgVec) { if(theArgsNb != 1) { theDi << "Usage : " << theArgVec[0] << "\n"; return 1; } Handle(AIS_InteractiveContext) aContextAIS = ViewerTest::GetAISContext(); if (aContextAIS.IsNull()) { std::cout << theArgVec[0] << "AIS context is not available.\n"; return 1; } Handle(AIS_InteractiveContext) aContext = ViewerTest::GetAISContext(); if(aContext.IsNull()) { theDi << "use 'vinit' command before " << theArgVec[0] << "\n"; return 1; } AIS_ListOfInteractive aListOfIO; aContextAIS->DisplayedObjects (aListOfIO); theDi << aListOfIO.Extent() << "\n"; return 0; } //=============================================================================================== //function : VUpdate //purpose : //=============================================================================================== static int VUpdate (Draw_Interpretor& /*theDi*/, Standard_Integer theArgsNb, const char** theArgVec) { Handle(AIS_InteractiveContext) aContextAIS = ViewerTest::GetAISContext(); if (aContextAIS.IsNull()) { std::cout << theArgVec[0] << "AIS context is not available.\n"; return 1; } if (theArgsNb < 2) { std::cout << theArgVec[0] << ": insufficient arguments. Type help for more information.\n"; return 1; } AIS_ListOfInteractive aListOfIO; for (int anArgIt = 1; anArgIt < theArgsNb; ++anArgIt) { TCollection_AsciiString aName = TCollection_AsciiString (theArgVec[anArgIt]); Handle(AIS_InteractiveObject) anAISObj; GetMapOfAIS().Find2 (aName, anAISObj); if (anAISObj.IsNull()) { std::cout << theArgVec[0] << ": no AIS interactive object named \"" << aName << "\".\n"; return 1; } aListOfIO.Append (anAISObj); } AIS_ListIteratorOfListOfInteractive anIOIt (aListOfIO); for (; anIOIt.More(); anIOIt.Next()) { aContextAIS->Update (anIOIt.Value(), Standard_False); } aContextAIS->UpdateCurrentViewer(); return 0; } //============================================================================== //function : VShading //purpose : Sharpen or roughten the quality of the shading //Draw arg : vshading ShapeName 0.1->0.00001 1 deg-> 30 deg //============================================================================== static int VShading(Draw_Interpretor& ,Standard_Integer argc, const char** argv) { Standard_Real myDevCoef; Handle(AIS_InteractiveObject) TheAisIO; // Verifications const Standard_Boolean HaveToSet = (strcasecmp(argv[0],"vsetshading") == 0); if (argc < 3) { myDevCoef = 0.0008; } else { myDevCoef =Draw::Atof(argv[2]); } TCollection_AsciiString name=argv[1]; GetMapOfAIS().Find2(name, TheAisIO); if (TheAisIO.IsNull()) { TopoDS_Shape aDrawShape = DBRep::GetExisting (name); if (!aDrawShape.IsNull()) { TheAisIO = new AIS_Shape (aDrawShape); } } if (HaveToSet) TheAISContext()->SetDeviationCoefficient(TheAisIO,myDevCoef,Standard_True); else TheAISContext()->SetDeviationCoefficient(TheAisIO,0.0008,Standard_True); TheAISContext()->Redisplay (TheAisIO, Standard_True); return 0; } //! Auxiliary method to print Interactive Object information static void objInfo (const NCollection_Map& theDetected, const Handle(AIS_InteractiveObject)& theObj, Draw_Interpretor& theDI) { if (theObj.IsNull()) { theDI << "NULL presentation\n"; return; } theDI << (TheAISContext()->IsDisplayed (theObj) ? "Displayed" : "Hidden ") << (TheAISContext()->IsSelected (theObj) ? " Selected" : " ") << (theDetected.Contains (theObj) ? " Detected" : " ") << " Type: "; if (theObj->Type() == AIS_KOI_Datum) { // AIS_Datum if (theObj->Signature() == 3) { theDI << " AIS_Trihedron"; } else if (theObj->Signature() == 2) { theDI << " AIS_Axis"; } else if (theObj->Signature() == 6) { theDI << " AIS_Circle"; } else if (theObj->Signature() == 5) { theDI << " AIS_Line"; } else if (theObj->Signature() == 7) { theDI << " AIS_Plane"; } else if (theObj->Signature() == 1) { theDI << " AIS_Point"; } else if (theObj->Signature() == 4) { theDI << " AIS_PlaneTrihedron"; } } // AIS_Shape else if (theObj->Type() == AIS_KOI_Shape && theObj->Signature() == 0) { theDI << " AIS_Shape"; } else if (theObj->Type() == AIS_KOI_Relation) { // AIS_Dimention and AIS_Relation Handle(AIS_Relation) aRelation = Handle(AIS_Relation)::DownCast (theObj); switch (aRelation->KindOfDimension()) { case AIS_KOD_PLANEANGLE: theDI << " AIS_AngleDimension"; break; case AIS_KOD_LENGTH: theDI << " AIS_Chamf2/3dDimension/AIS_LengthDimension"; break; case AIS_KOD_DIAMETER: theDI << " AIS_DiameterDimension"; break; case AIS_KOD_ELLIPSERADIUS: theDI << " AIS_EllipseRadiusDimension"; break; //case AIS_KOD_FILLETRADIUS: theDI << " AIS_FilletRadiusDimension "; break; case AIS_KOD_OFFSET: theDI << " AIS_OffsetDimension"; break; case AIS_KOD_RADIUS: theDI << " AIS_RadiusDimension"; break; default: theDI << " UNKNOWN dimension"; break; } } else { theDI << " UserPrs"; } theDI << " (" << theObj->DynamicType()->Name() << ")"; } //! Print information about locally selected sub-shapes template static void printLocalSelectionInfo (const T& theContext, Draw_Interpretor& theDI) { const Standard_Boolean isGlobalCtx = (theContext->DynamicType() == STANDARD_TYPE(AIS_InteractiveContext)); TCollection_AsciiString aPrevName; for (theContext->InitSelected(); theContext->MoreSelected(); theContext->NextSelected()) { const Handle(AIS_Shape) aShapeIO = Handle(AIS_Shape)::DownCast (theContext->SelectedInteractive()); const Handle(SelectMgr_EntityOwner) anOwner = theContext->SelectedOwner(); if (aShapeIO.IsNull() || anOwner.IsNull()) continue; if (isGlobalCtx) { if (anOwner == aShapeIO->GlobalSelOwner()) continue; } const TopoDS_Shape aSubShape = theContext->SelectedShape(); if (aSubShape.IsNull() || aShapeIO.IsNull() || !GetMapOfAIS().IsBound1 (aShapeIO)) { continue; } const TCollection_AsciiString aParentName = GetMapOfAIS().Find1 (aShapeIO); TopTools_MapOfShape aFilter; Standard_Integer aNumber = 0; const TopoDS_Shape aShape = aShapeIO->Shape(); for (TopExp_Explorer anIter (aShape, aSubShape.ShapeType()); anIter.More(); anIter.Next()) { if (!aFilter.Add (anIter.Current())) { continue; // filter duplicates } ++aNumber; if (!anIter.Current().IsSame (aSubShape)) { continue; } Standard_CString aShapeName = NULL; switch (aSubShape.ShapeType()) { case TopAbs_COMPOUND: aShapeName = " Compound"; break; case TopAbs_COMPSOLID: aShapeName = "CompSolid"; break; case TopAbs_SOLID: aShapeName = " Solid"; break; case TopAbs_SHELL: aShapeName = " Shell"; break; case TopAbs_FACE: aShapeName = " Face"; break; case TopAbs_WIRE: aShapeName = " Wire"; break; case TopAbs_EDGE: aShapeName = " Edge"; break; case TopAbs_VERTEX: aShapeName = " Vertex"; break; default: case TopAbs_SHAPE: aShapeName = " Shape"; break; } if (aParentName != aPrevName) { theDI << "Locally selected sub-shapes within " << aParentName << ":\n"; aPrevName = aParentName; } theDI << " " << aShapeName << " #" << aNumber << "\n"; break; } } } //============================================================================== //function : VState //purpose : //============================================================================== static Standard_Integer VState (Draw_Interpretor& theDI, Standard_Integer theArgNb, Standard_CString* theArgVec) { Handle(AIS_InteractiveContext) aCtx = TheAISContext(); if (aCtx.IsNull()) { std::cerr << "Error: No opened viewer!\n"; return 1; } Standard_Boolean toPrintEntities = Standard_False; Standard_Boolean toCheckSelected = Standard_False; for (Standard_Integer anArgIdx = 1; anArgIdx < theArgNb; ++anArgIdx) { TCollection_AsciiString anOption (theArgVec[anArgIdx]); anOption.LowerCase(); if (anOption == "-detectedentities" || anOption == "-entities") { toPrintEntities = Standard_True; } else if (anOption == "-hasselected") { toCheckSelected = Standard_True; } } if (toCheckSelected) { aCtx->InitSelected(); TCollection_AsciiString hasSelected (static_cast (aCtx->HasSelectedShape())); theDI << "Check if context has selected shape: " << hasSelected << "\n"; return 0; } if (toPrintEntities) { theDI << "Detected entities:\n"; Handle(StdSelect_ViewerSelector3d) aSelector = aCtx->MainSelector(); SelectMgr_SelectingVolumeManager aMgr = aSelector->GetManager(); for (Standard_Integer aPickIter = 1; aPickIter <= aSelector->NbPicked(); ++aPickIter) { const SelectMgr_SortCriterion& aPickData = aSelector->PickedData (aPickIter); const Handle(SelectBasics_SensitiveEntity)& anEntity = aSelector->PickedEntity (aPickIter); Handle(SelectMgr_EntityOwner) anOwner = Handle(SelectMgr_EntityOwner)::DownCast (anEntity->OwnerId()); Handle(AIS_InteractiveObject) anObj = Handle(AIS_InteractiveObject)::DownCast (anOwner->Selectable()); TCollection_AsciiString aName = GetMapOfAIS().Find1 (anObj); aName.LeftJustify (20, ' '); char anInfoStr[512]; Sprintf (anInfoStr, " Depth: %g Distance: %g Point: %g %g %g", aPickData.Depth, aPickData.MinDist, aPickData.Point.X(), aPickData.Point.Y(), aPickData.Point.Z()); theDI << " " << aName << anInfoStr << " (" << anEntity->DynamicType()->Name() << ")" << "\n"; Handle(StdSelect_BRepOwner) aBRepOwner = Handle(StdSelect_BRepOwner)::DownCast (anOwner); if (!aBRepOwner.IsNull()) { theDI << " Detected Shape: " << aBRepOwner->Shape().TShape()->DynamicType()->Name() << "\n"; } Handle(Select3D_SensitiveWire) aWire = Handle(Select3D_SensitiveWire)::DownCast (anEntity); if (!aWire.IsNull()) { Handle(Select3D_SensitiveEntity) aSen = aWire->GetLastDetected(); theDI << " Detected Child: " << aSen->DynamicType()->Name() << "\n"; } Handle(Select3D_SensitivePrimitiveArray) aPrimArr = Handle(Select3D_SensitivePrimitiveArray)::DownCast (anEntity); if (!aPrimArr.IsNull()) { theDI << " Detected Element: " << aPrimArr->LastDetectedElement() << "\n"; } } return 0; } NCollection_Map aDetected; for (aCtx->InitDetected(); aCtx->MoreDetected(); aCtx->NextDetected()) { aDetected.Add (Handle(AIS_InteractiveObject)::DownCast (aCtx->DetectedCurrentOwner()->Selectable())); } const Standard_Boolean toShowAll = (theArgNb >= 2 && *theArgVec[1] == '*'); if (theArgNb >= 2 && !toShowAll) { for (Standard_Integer anArgIter = 1; anArgIter < theArgNb; ++anArgIter) { const TCollection_AsciiString anObjName = theArgVec[anArgIter]; Handle(AIS_InteractiveObject) anObj; if (!GetMapOfAIS().Find2 (anObjName, anObj)) { theDI << anObjName << " doesn't exist!\n"; continue; } TCollection_AsciiString aName = anObjName; aName.LeftJustify (20, ' '); theDI << " " << aName << " "; objInfo (aDetected, anObj, theDI); theDI << "\n"; } return 0; } if (aCtx->NbSelected() > 0 && !toShowAll) { NCollection_DataMap anOwnerShapeMap; for (aCtx->InitSelected(); aCtx->MoreSelected(); aCtx->NextSelected()) { const Handle(SelectMgr_EntityOwner) anOwner = aCtx->SelectedOwner(); const Handle(AIS_InteractiveObject) anObj = Handle(AIS_InteractiveObject)::DownCast (anOwner->Selectable()); // handle whole object selection if (anOwner == anObj->GlobalSelOwner()) { TCollection_AsciiString aName = GetMapOfAIS().Find1 (anObj); aName.LeftJustify (20, ' '); theDI << aName << " "; objInfo (aDetected, anObj, theDI); theDI << "\n"; } } // process selected sub-shapes printLocalSelectionInfo (aCtx, theDI); return 0; } theDI << "Neutral-point state:\n"; for (ViewerTest_DoubleMapIteratorOfDoubleMapOfInteractiveAndName anObjIter (GetMapOfAIS()); anObjIter.More(); anObjIter.Next()) { if (anObjIter.Key1().IsNull()) { continue; } TCollection_AsciiString aName = anObjIter.Key2(); aName.LeftJustify (20, ' '); theDI << " " << aName << " "; objInfo (aDetected, anObjIter.Key1(), theDI); theDI << "\n"; } printLocalSelectionInfo (aCtx, theDI); return 0; } //======================================================================= //function : PickShape //purpose : First Activate the rightmode + Put Filters to be able to // pick objets that are of type ... //======================================================================= TopoDS_Shape ViewerTest::PickShape (const TopAbs_ShapeEnum theShapeType, const Standard_Integer theMaxPick) { Handle(TopTools_HArray1OfShape) aResArray = new TopTools_HArray1OfShape (1, 1); PickShapes (theShapeType, aResArray, theMaxPick); return aResArray->First(); } //======================================================================= //function : PickShapes //purpose : //======================================================================= Standard_Boolean ViewerTest::PickShapes (const TopAbs_ShapeEnum theShapeType, Handle(TopTools_HArray1OfShape)& theResArray, const Standard_Integer theMaxPick) { const Standard_Integer aNbToReach = theResArray->Length(); if (aNbToReach > 1) { std::cout << " WARNING : Pick with Shift+ MB1 for Selection of more than 1 object\n"; } // step 1: prepare the data Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); aCtx->RemoveFilters(); AIS_ListOfInteractive aDispObjects; aCtx->DisplayedObjects (aDispObjects); if (theShapeType == TopAbs_SHAPE) { aCtx->AddFilter (new AIS_TypeFilter (AIS_KOI_Shape)); } else { aCtx->AddFilter (new StdSelect_ShapeTypeFilter (theShapeType)); } const Standard_Integer aSelMode = AIS_Shape::SelectionMode (theShapeType); for (AIS_ListOfInteractive::Iterator anObjIter (aDispObjects); anObjIter.More(); anObjIter.Next()) { if (Handle(AIS_Shape) aShapePrs = Handle(AIS_Shape)::DownCast (anObjIter.Value())) { aCtx->SetSelectionModeActive (aShapePrs, aSelMode, true, AIS_SelectionModesConcurrency_Single); } } // step 2 : wait for the selection... Standard_Integer aNbPickGood = 0, aNbPickFail = 0; Standard_Integer argccc = 5; const char *bufff[] = { "A", "B", "C", "D", "E" }; const char **argvvv = (const char** )bufff; for (; aNbPickGood < aNbToReach && aNbPickFail <= theMaxPick; ) { while (ViewerMainLoop (argccc, argvvv)) {} Standard_Integer aNbStored = aCtx->NbSelected(); if (aNbStored != aNbPickGood) { aNbPickGood = aNbStored; } else { ++aNbPickFail; } std::cout << "NbPicked = " << aNbPickGood << " | Nb Pick Fail :" << aNbPickFail << "\n"; } // step3 get result. if (aNbPickFail >= aNbToReach) { return Standard_False; } Standard_Integer anIndex = theResArray->Lower(); for (aCtx->InitSelected(); aCtx->MoreSelected(); aCtx->NextSelected(), ++anIndex) { if (aCtx->HasSelectedShape()) { theResArray->SetValue (anIndex, aCtx->SelectedShape()); } else { Handle(AIS_InteractiveObject) IO = aCtx->SelectedInteractive(); theResArray->SetValue (anIndex, Handle(AIS_Shape)::DownCast (IO)->Shape()); } } aCtx->RemoveFilters(); if (theShapeType != TopAbs_SHAPE) { for (AIS_ListOfInteractive::Iterator anObjIter (aDispObjects); anObjIter.More(); anObjIter.Next()) { if (Handle(AIS_Shape) aShapePrs = Handle(AIS_Shape)::DownCast (anObjIter.Value())) { aCtx->SetSelectionModeActive (aShapePrs, aSelMode, true, AIS_SelectionModesConcurrency_Single); } } } return Standard_True; } //======================================================================= //function : VPickShape //purpose : //======================================================================= static int VPickShape( Draw_Interpretor& di, Standard_Integer argc, const char** argv) { TopAbs_ShapeEnum aShapeType = TopAbs_SHAPE; if (argc != 1) { TCollection_AsciiString aShapeArg (argv[1]); aShapeArg.LowerCase(); aShapeType = TopAbs_COMPOUND; if (aShapeArg == "v" || aShapeArg == "vertex") aShapeType = TopAbs_VERTEX; else if (aShapeArg == "e" || aShapeArg == "edge") aShapeType = TopAbs_EDGE; else if (aShapeArg == "w" || aShapeArg == "wire") aShapeType = TopAbs_WIRE; else if (aShapeArg == "f" || aShapeArg == "face") aShapeType = TopAbs_FACE; else if (aShapeArg == "shape") aShapeType = TopAbs_SHAPE; else if (aShapeArg == "shell") aShapeType = TopAbs_SHELL; else if (aShapeArg == "solid") aShapeType = TopAbs_SOLID; else { std::cout << "Syntax error at '" << argv[1] << "'\n"; return 1; } } static Standard_Integer THE_NB_SHAPES_OF_TYPE[8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; static const TCollection_AsciiString THE_NAME_TYPE[8] = {"COMPS","SOL","SHE","F","W","E","V","SHAP"}; const Standard_Integer aNbToPick = argc > 2 ? argc - 2 : 1; if (aNbToPick == 1) { TopoDS_Shape aPickedShape = ViewerTest::PickShape (aShapeType); if (aPickedShape.IsNull()) { return 1; } TCollection_AsciiString aName; if (argc > 2) { aName = argv[2]; } else { const int aShapeIndex = ++THE_NB_SHAPES_OF_TYPE[Standard_Integer(aShapeType)]; aName = TCollection_AsciiString ("Picked_") + THE_NAME_TYPE[Standard_Integer(aShapeType)] + "_" + aShapeIndex; } DBRep::Set (aName.ToCString(), aPickedShape); Handle(AIS_Shape) aShapePrs = new AIS_Shape (aPickedShape); ViewerTest::Display (aName, aShapePrs, false, true); di << "Name of picked shape: " << aName <<"\n"; } else { TCollection_AsciiString aName (argv[2]); aName.LowerCase(); const Standard_Boolean isAutoNaming = aName == "."; Handle(TopTools_HArray1OfShape) aPickedArray = new TopTools_HArray1OfShape (1, aNbToPick); if (ViewerTest::PickShapes (aShapeType, aPickedArray)) { for (Standard_Integer aPickedIter = aPickedArray->Lower(); aPickedIter <= aPickedArray->Upper(); ++aPickedIter) { TopoDS_Shape aPickedShape = aPickedArray->Value (aPickedIter); aName.Clear(); if (!aPickedShape.IsNull() && isAutoNaming) { const int aShapeIndex = ++THE_NB_SHAPES_OF_TYPE[Standard_Integer(aShapeType)]; aName = TCollection_AsciiString ("Picked_") + THE_NAME_TYPE[Standard_Integer(aShapeType)] + "_" + aShapeIndex; } else { aName = argv[1 + aPickedIter]; } DBRep::Set (aName.ToCString(), aPickedShape); Handle(AIS_Shape) aShapePrs = new AIS_Shape (aPickedShape); di << "Display of picked shape #" << aPickedIter << " - name: " << aName <<"\n"; ViewerTest::Display (aName, aShapePrs, false, true); } } } TheAISContext()->UpdateCurrentViewer(); return 0; } //======================================================================= //function : VSelFilter //purpose : //======================================================================= static int VSelFilter(Draw_Interpretor& , Standard_Integer theArgc, const char** theArgv) { Handle(AIS_InteractiveContext) aContext = ViewerTest::GetAISContext(); if (aContext.IsNull()) { std::cout << "Error: AIS context is not available.\n"; return 1; } for (Standard_Integer anArgIter = 1; anArgIter < theArgc; ++anArgIter) { TCollection_AsciiString anArg (theArgv[anArgIter]); anArg.LowerCase(); if (anArg == "-clear") { aContext->RemoveFilters(); } else if (anArg == "-type" && anArgIter + 1 < theArgc) { TCollection_AsciiString aVal (theArgv[++anArgIter]); TopAbs_ShapeEnum aShapeType = TopAbs_COMPOUND; if (!TopAbs::ShapeTypeFromString (aVal.ToCString(), aShapeType)) { std::cout << "Syntax error: wrong command attribute value '" << aVal << "'\n"; return 1; } Handle(SelectMgr_Filter) aFilter; if (aShapeType == TopAbs_SHAPE) { aFilter = new AIS_TypeFilter (AIS_KOI_Shape); } else { aFilter = new StdSelect_ShapeTypeFilter (aShapeType); } aContext->AddFilter (aFilter); } else { std::cout << "Syntax error: unknown argument '" << theArgv[anArgIter] << "'\n"; return 1; } } return 0; } //======================================================================= //function : VPickSelected //purpose : //======================================================================= static int VPickSelected (Draw_Interpretor& , Standard_Integer theArgNb, const char** theArgs) { static Standard_Integer aCount = 0; TCollection_AsciiString aName = "PickedShape_"; if (theArgNb > 1) { aName = theArgs[1]; } else { aName = aName + aCount++ + "_"; } Standard_Integer anIdx = 0; for (TheAISContext()->InitSelected(); TheAISContext()->MoreSelected(); TheAISContext()->NextSelected(), ++anIdx) { TopoDS_Shape aShape; if (TheAISContext()->HasSelectedShape()) { aShape = TheAISContext()->SelectedShape(); } else { Handle(AIS_InteractiveObject) IO = TheAISContext()->SelectedInteractive(); aShape = Handle(AIS_Shape)::DownCast (IO)->Shape(); } TCollection_AsciiString aCurrentName = aName; if (anIdx > 0) { aCurrentName += anIdx; } DBRep::Set ((aCurrentName).ToCString(), aShape); Handle(AIS_Shape) aNewShape = new AIS_Shape (aShape); GetMapOfAIS().Bind (aNewShape, aCurrentName); TheAISContext()->Display (aNewShape, Standard_False); } TheAISContext()->UpdateCurrentViewer(); return 0; } //======================================================================= //function : list of known objects //purpose : //======================================================================= static int VIOTypes( Draw_Interpretor& di, Standard_Integer , const char** ) { // 1234567890 12345678901234567 123456789 TCollection_AsciiString Colum [3]={"Standard Types","Type Of Object","Signature"}; TCollection_AsciiString BlankLine(64,'_'); Standard_Integer i ; di<<"/n"<DisplayedObjects(TheType,TheSign,LIO); Handle(AIS_InteractiveObject) curio; for(AIS_ListIteratorOfListOfInteractive it(LIO);it.More();it.Next()){ curio = it.Value(); if(dimension_status == -1) TheAISContext()->Erase(curio,Standard_False); else { AIS_KindOfDimension KOD = Handle(AIS_Relation)::DownCast (curio)->KindOfDimension(); if ((dimension_status==0 && KOD == AIS_KOD_NONE)|| (dimension_status==1 && KOD != AIS_KOD_NONE)) TheAISContext()->Erase(curio,Standard_False); } } TheAISContext()->UpdateCurrentViewer(); return 0; } static int VDisplayType(Draw_Interpretor& , Standard_Integer argc, const char** argv) { if(argc!=2) return 1; AIS_KindOfInteractive TheType; Standard_Integer TheSign(-1); GetTypeAndSignfromString(argv[1],TheType,TheSign); // en attendant l'amelioration ais pour les dimensions... // Standard_Integer dimension_status(-1); if(TheType==AIS_KOI_Relation){ dimension_status = TheSign ==1 ? 1 : 0; TheSign=-1; } AIS_ListOfInteractive LIO; TheAISContext()->ObjectsInside(LIO,TheType,TheSign); Handle(AIS_InteractiveObject) curio; for(AIS_ListIteratorOfListOfInteractive it(LIO);it.More();it.Next()){ curio = it.Value(); if(dimension_status == -1) TheAISContext()->Display(curio,Standard_False); else { AIS_KindOfDimension KOD = Handle(AIS_Relation)::DownCast (curio)->KindOfDimension(); if ((dimension_status==0 && KOD == AIS_KOD_NONE)|| (dimension_status==1 && KOD != AIS_KOD_NONE)) TheAISContext()->Display(curio,Standard_False); } } TheAISContext()->UpdateCurrentViewer(); return 0; } static Standard_Integer vr(Draw_Interpretor& , Standard_Integer , const char** a) { ifstream s(a[1]); BRep_Builder builder; TopoDS_Shape shape; BRepTools::Read(shape, s, builder); DBRep::Set(a[1], shape); Handle(AIS_InteractiveContext) Ctx = ViewerTest::GetAISContext(); Handle(AIS_Shape) ais = new AIS_Shape(shape); Ctx->Display (ais, Standard_True); return 0; } //=============================================================================================== //function : VBsdf //purpose : //=============================================================================================== static int VBsdf (Draw_Interpretor& theDI, Standard_Integer theArgsNb, const char** theArgVec) { Handle(V3d_View) aView = ViewerTest::CurrentView(); Handle(V3d_Viewer) aViewer = ViewerTest::GetViewerFromContext(); if (aView.IsNull() || aViewer.IsNull()) { std::cerr << "No active viewer!\n"; return 1; } ViewerTest_CmdParser aCmd; aCmd.AddDescription ("Adjusts parameters of material BSDF:"); aCmd.AddOption ("print|echo|p", "Prints BSDF"); aCmd.AddOption ("noupdate|update", "Suppresses viewer redraw call"); aCmd.AddOption ("kc", "Weight of coat specular/glossy BRDF"); aCmd.AddOption ("kd", "Weight of base diffuse BRDF"); aCmd.AddOption ("ks", "Weight of base specular/glossy BRDF"); aCmd.AddOption ("kt", "Weight of base specular/glossy BTDF"); aCmd.AddOption ("le", "Radiance emitted by surface"); aCmd.AddOption ("coatFresnel|cf", "Fresnel reflectance of coat layer. Allowed formats: Constant R, Schlick R G B, Dielectric N, Conductor N K"); aCmd.AddOption ("baseFresnel|bf", "Fresnel reflectance of base layer. Allowed formats: Constant R, Schlick R G B, Dielectric N, Conductor N K"); aCmd.AddOption ("coatRoughness|cr", "Roughness of coat glossy BRDF"); aCmd.AddOption ("baseRoughness|br", "Roughness of base glossy BRDF"); aCmd.AddOption ("absorpCoeff|af", "Absorption coeff of base transmission BTDF"); aCmd.AddOption ("absorpColor|ac", "Absorption color of base transmission BTDF"); aCmd.AddOption ("normalize|n", "Normalizes BSDF to ensure energy conservation"); aCmd.Parse (theArgsNb, theArgVec); if (aCmd.HasOption ("help")) { theDI.PrintHelp (theArgVec[0]); return 0; } // check viewer update mode ViewerTest_AutoUpdater anUpdateTool (ViewerTest::GetAISContext(), ViewerTest::CurrentView()); for (Standard_Integer anArgIter = 1; anArgIter < theArgsNb; ++anArgIter) { if (anUpdateTool.parseRedrawMode (theArgVec[anArgIter])) { break; } } // find object TCollection_AsciiString aName (aCmd.Arg ("", 0).c_str()); Handle(AIS_InteractiveObject) anIObj; if (!GetMapOfAIS().Find2 (aName, anIObj)) { std::cerr << "Use 'vdisplay' before\n"; return 1; } Graphic3d_MaterialAspect aMaterial = anIObj->Attributes()->ShadingAspect()->Material(); Graphic3d_BSDF aBSDF = aMaterial.BSDF(); if (aCmd.HasOption ("print")) { theDI << "\n" << "Kc: " << aBSDF.Kc.r() << ", " << aBSDF.Kc.g() << ", " << aBSDF.Kc.b() << "\n" << "Kd: " << aBSDF.Kd.r() << ", " << aBSDF.Kd.g() << ", " << aBSDF.Kd.b() << "\n" << "Ks: " << aBSDF.Ks.r() << ", " << aBSDF.Ks.g() << ", " << aBSDF.Ks.b() << "\n" << "Kt: " << aBSDF.Kt.r() << ", " << aBSDF.Kt.g() << ", " << aBSDF.Kt.b() << "\n" << "Le: " << aBSDF.Le.r() << ", " << aBSDF.Le.g() << ", " << aBSDF.Le.b() << "\n"; for (int aLayerID = 0; aLayerID < 2; ++aLayerID) { const Graphic3d_Vec4 aFresnel = aLayerID < 1 ? aBSDF.FresnelCoat.Serialize() : aBSDF.FresnelBase.Serialize(); theDI << (aLayerID < 1 ? "Coat Fresnel: " : "Base Fresnel: "); if (aFresnel.x() >= 0.f) { theDI << "Schlick " << "R = " << aFresnel.r() << ", " << "G = " << aFresnel.g() << ", " << "B = " << aFresnel.b() << "\n"; } else if (aFresnel.x() >= -1.5f) { theDI << "Constant " << aFresnel.z() << "\n"; } else if (aFresnel.x() >= -2.5f) { theDI << "Conductor " << "N = " << aFresnel.y() << ", " << "K = " << aFresnel.z() << "\n"; } else { theDI << "Dielectric " << "N = " << aFresnel.y() << "\n"; } } theDI << "Coat roughness: " << aBSDF.Kc.w() << "\n" << "Base roughness: " << aBSDF.Ks.w() << "\n" << "Absorption coeff: " << aBSDF.Absorption.w() << "\n" << "Absorption color: " << aBSDF.Absorption.r() << ", " << aBSDF.Absorption.g() << ", " << aBSDF.Absorption.b() << "\n"; return 0; } if (aCmd.HasOption ("coatRoughness", 1, Standard_True)) { aBSDF.Kc.w() = aCmd.ArgFloat ("coatRoughness"); } if (aCmd.HasOption ("baseRoughness", 1, Standard_True)) { aBSDF.Ks.w () = aCmd.ArgFloat ("baseRoughness"); } if (aCmd.HasOption ("absorpCoeff", 1, Standard_True)) { aBSDF.Absorption.w() = aCmd.ArgFloat ("absorpCoeff"); } if (aCmd.HasOption ("absorpColor", 3, Standard_True)) { const Graphic3d_Vec3 aRGB = aCmd.ArgVec3f ("absorpColor"); aBSDF.Absorption.r() = aRGB.r(); aBSDF.Absorption.g() = aRGB.g(); aBSDF.Absorption.b() = aRGB.b(); } if (aCmd.HasOption ("kc", 3) || aCmd.HasOption ("kc", 1, Standard_True)) { Graphic3d_Vec3 aKc; if (aCmd.HasOption ("kc", 3)) { aKc = aCmd.ArgVec3f ("kc"); } else { aKc = Graphic3d_Vec3 (aCmd.ArgFloat ("kc")); } aBSDF.Kc.r() = aKc.r(); aBSDF.Kc.g() = aKc.g(); aBSDF.Kc.b() = aKc.b(); } if (aCmd.HasOption ("kd", 3)) { aBSDF.Kd = aCmd.ArgVec3f ("kd"); } else if (aCmd.HasOption ("kd", 1, Standard_True)) { aBSDF.Kd = Graphic3d_Vec3 (aCmd.ArgFloat ("kd")); } if (aCmd.HasOption ("ks", 3) || aCmd.HasOption ("ks", 1, Standard_True)) { Graphic3d_Vec3 aKs; if (aCmd.HasOption ("ks", 3)) { aKs = aCmd.ArgVec3f ("ks"); } else { aKs = Graphic3d_Vec3 (aCmd.ArgFloat ("ks")); } aBSDF.Ks.r() = aKs.r(); aBSDF.Ks.g() = aKs.g(); aBSDF.Ks.b() = aKs.b(); } if (aCmd.HasOption ("kt", 3)) { aBSDF.Kt = aCmd.ArgVec3f ("kt"); } else if (aCmd.HasOption ("kt", 1, Standard_True)) { aBSDF.Kt = Graphic3d_Vec3 (aCmd.ArgFloat ("kt")); } if (aCmd.HasOption ("le", 3)) { aBSDF.Le = aCmd.ArgVec3f ("le"); } else if (aCmd.HasOption ("le", 1, Standard_True)) { aBSDF.Le = Graphic3d_Vec3 (aCmd.ArgFloat ("le")); } const std::string aFresnelErrorMessage = "Error! Wrong Fresnel type. Allowed types are: Constant F, Schlick R G B, Dielectric N, Conductor N K\n"; for (int aLayerID = 0; aLayerID < 2; ++aLayerID) { const std::string aFresnel = aLayerID < 1 ? "baseFresnel" : "coatFresnel"; if (aCmd.HasOption (aFresnel, 4)) // Schlick: type R G B { std::string aFresnelType = aCmd.Arg (aFresnel, 0); std::transform (aFresnelType.begin (), aFresnelType.end (), aFresnelType.begin (), ::LowerCase); if (aFresnelType == "schlick") { Graphic3d_Vec3 aRGB (static_cast (Draw::Atof (aCmd.Arg (aFresnel, 1).c_str())), static_cast (Draw::Atof (aCmd.Arg (aFresnel, 2).c_str())), static_cast (Draw::Atof (aCmd.Arg (aFresnel, 3).c_str()))); aRGB.r() = std::min (std::max (aRGB.r(), 0.f), 1.f); aRGB.g() = std::min (std::max (aRGB.g(), 0.f), 1.f); aRGB.b() = std::min (std::max (aRGB.b(), 0.f), 1.f); (aLayerID < 1 ? aBSDF.FresnelBase : aBSDF.FresnelCoat) = Graphic3d_Fresnel::CreateSchlick (aRGB); } else { theDI << aFresnelErrorMessage.c_str() << "\n"; } } else if (aCmd.HasOption (aFresnel, 3)) // Conductor: type N K { std::string aFresnelType = aCmd.Arg (aFresnel, 0); std::transform (aFresnelType.begin (), aFresnelType.end (), aFresnelType.begin (), ::LowerCase); if (aFresnelType == "conductor") { const float aN = static_cast (Draw::Atof (aCmd.Arg (aFresnel, 1).c_str())); const float aK = static_cast (Draw::Atof (aCmd.Arg (aFresnel, 2).c_str())); (aLayerID < 1 ? aBSDF.FresnelBase : aBSDF.FresnelCoat) = Graphic3d_Fresnel::CreateConductor (aN, aK); } else { theDI << aFresnelErrorMessage.c_str() << "\n"; } } else if (aCmd.HasOption (aFresnel, 2)) // Dielectric or Constant: type N|C { std::string aFresnelType = aCmd.Arg (aFresnel, 0); std::transform (aFresnelType.begin (), aFresnelType.end (), aFresnelType.begin (), ::LowerCase); if (aFresnelType == "constant") { const float aR = static_cast (Draw::Atof (aCmd.Arg (aFresnel, 1).c_str())); (aLayerID < 1 ? aBSDF.FresnelBase : aBSDF.FresnelCoat) = Graphic3d_Fresnel::CreateConstant (aR); } else if (aFresnelType == "dielectric") { const float aN = static_cast (Draw::Atof (aCmd.Arg (aFresnel, 1).c_str())); (aLayerID < 1 ? aBSDF.FresnelBase : aBSDF.FresnelCoat) = Graphic3d_Fresnel::CreateDielectric (aN); } else { theDI << aFresnelErrorMessage.c_str() << "\n"; } } } if (aCmd.HasOption ("normalize")) { aBSDF.Normalize(); } aMaterial.SetBSDF (aBSDF); anIObj->SetMaterial (aMaterial); return 0; } //============================================================================== //function : VLoadSelection //purpose : Adds given objects to map of AIS and loads selection primitives for them //============================================================================== static Standard_Integer VLoadSelection (Draw_Interpretor& /*theDi*/, Standard_Integer theArgNb, const char** theArgVec) { if (theArgNb < 2) { std::cerr << theArgVec[0] << "Error: wrong number of arguments.\n"; return 1; } Handle(AIS_InteractiveContext) aCtx = ViewerTest::GetAISContext(); if (aCtx.IsNull()) { ViewerTest::ViewerInit(); aCtx = ViewerTest::GetAISContext(); } // Parse input arguments for (Standard_Integer anArgIter = 1; anArgIter < theArgNb; ++anArgIter) { const TCollection_AsciiString aName = theArgVec[anArgIter]; Handle(AIS_InteractiveObject) aShape; if (!GetMapOfAIS().Find2 (aName, aShape)) { TopoDS_Shape aDrawShape = DBRep::GetExisting (aName); if (!aDrawShape.IsNull()) { aShape = new AIS_Shape (aDrawShape); GetMapOfAIS().Bind (aShape, aName); } } if (aShape.IsNull()) { std::cout << "Syntax error: presentation '" << aName << "' not found\n"; return 1; } aCtx->Load (aShape, -1); aCtx->Activate (aShape, aShape->GlobalSelectionMode(), Standard_True); } return 0; } //============================================================================== //function : ViewerTest::Commands //purpose : Add all the viewer command in the Draw_Interpretor //============================================================================== void ViewerTest::Commands(Draw_Interpretor& theCommands) { ViewerTest::ViewerCommands(theCommands); ViewerTest::RelationCommands(theCommands); ViewerTest::ObjectCommands(theCommands); ViewerTest::FilletCommands(theCommands); ViewerTest::OpenGlCommands(theCommands); const char *group = "AIS_Display"; // display theCommands.Add("visos", "visos [name1 ...] [nbUIsos nbVIsos IsoOnPlane(0|1)]\n" "\tIf last 3 optional parameters are not set prints numbers of U-, V- isolines and IsoOnPlane.\n", __FILE__, visos, group); theCommands.Add("vdisplay", "vdisplay [-noupdate|-update] [-local] [-mutable] [-neutral]" "\n\t\t: [-trsfPers {zoom|rotate|zoomRotate|none}=none]" "\n\t\t: [-trsfPersPos X Y [Z]] [-3d]" "\n\t\t: [-2d|-trihedron [{top|bottom|left|right|topLeft" "\n\t\t: |topRight|bottomLeft|bottomRight}" "\n\t\t: [offsetX offsetY]]]" "\n\t\t: [-dispMode mode] [-highMode mode]" "\n\t\t: [-layer index] [-top|-topmost|-overlay|-underlay]" "\n\t\t: [-redisplay] [-erased]" "\n\t\t: name1 [name2] ... [name n]" "\n\t\t: Displays named objects." "\n\t\t: Option -local enables displaying of objects in local" "\n\t\t: selection context. Local selection context will be opened" "\n\t\t: if there is not any." "\n\t\t: -noupdate Suppresses viewer redraw call." "\n\t\t: -mutable Enables optimizations for mutable objects." "\n\t\t: -neutral Draws objects in main viewer." "\n\t\t: -erased Loads the object into context, but does not display it." "\n\t\t: -layer Sets z-layer for objects." "\n\t\t: Alternatively -overlay|-underlay|-top|-topmost" "\n\t\t: options can be used for the default z-layers." "\n\t\t: -top Draws object on top of main presentations" "\n\t\t: but below topmost." "\n\t\t: -topmost Draws in overlay for 3D presentations." "\n\t\t: with independent Depth." "\n\t\t: -overlay Draws objects in overlay for 2D presentations." "\n\t\t: (On-Screen-Display)" "\n\t\t: -underlay Draws objects in underlay for 2D presentations." "\n\t\t: (On-Screen-Display)" "\n\t\t: -selectable|-noselect Controls selection of objects." "\n\t\t: -trsfPers Sets a transform persistence flags." "\n\t\t: -trsfPersPos Sets an anchor point for transform persistence." "\n\t\t: -2d Displays object in screen coordinates." "\n\t\t: (DY looks up)" "\n\t\t: -dispmode Sets display mode for objects." "\n\t\t: -highmode Sets hilight mode for objects." "\n\t\t: -redisplay Recomputes presentation of objects.", __FILE__, VDisplay2, group); theCommands.Add ("vnbdisplayed", "vnbdisplayed" "\n\t\t: Returns number of displayed objects", __FILE__, VNbDisplayed, group); theCommands.Add ("vupdate", "vupdate name1 [name2] ... [name n]" "\n\t\t: Updates named objects in interactive context", __FILE__, VUpdate, group); theCommands.Add("verase", "verase [-noupdate|-update] [-local] [name1] ... [name n]" "\n\t\t: Erases selected or named objects." "\n\t\t: If there are no selected or named objects the whole viewer is erased." "\n\t\t: Option -local enables erasing of selected or named objects without" "\n\t\t: closing local selection context.", __FILE__, VErase, group); theCommands.Add("vremove", "vremove [-noupdate|-update] [-context] [-all] [-noinfo] [name1] ... [name n]" "or vremove [-context] -all to remove all objects" "\n\t\t: Removes selected or named objects." "\n\t\t If -context is in arguments, the objects are not deleted" "\n\t\t from the map of objects and names." "\n\t\t: Option -local enables removing of selected or named objects without" "\n\t\t: closing local selection context. Empty local selection context will be" "\n\t\t: closed." "\n\t\t: Option -noupdate suppresses viewer redraw call." "\n\t\t: Option -noinfo suppresses displaying the list of removed objects.", __FILE__, VRemove, group); theCommands.Add("vdonly", "vdonly [-noupdate|-update] [name1] ... [name n]" "\n\t\t: Displays only selected or named objects", __FILE__,VDonly2,group); theCommands.Add("vdisplayall", "vdisplayall" "\n\t\t: Displays all erased interactive objects (see vdir and vstate).", __FILE__, VDisplayAll, group); theCommands.Add("veraseall", "veraseall" "\n\t\t: Erases all objects displayed in the viewer.", __FILE__, VErase, group); theCommands.Add("verasetype", "verasetype " "\n\t\t: Erase all the displayed objects of one given kind (see vtypes)", __FILE__, VEraseType, group); theCommands.Add("vbounding", "vbounding [-noupdate|-update] [-mode] name1 [name2 [...]]" "\n\t\t: [-print] [-hide]" "\n\t\t: Temporarily display bounding box of specified Interactive" "\n\t\t: Objects, or print it to console if -print is specified." "\n\t\t: Already displayed box might be hidden by -hide option.", __FILE__,VBounding,group); theCommands.Add("vdisplaytype", "vdisplaytype : vdisplaytype \n\t display all the objects of one given kind (see vtypes) which are stored the AISContext ", __FILE__,VDisplayType,group); theCommands.Add("vsetdispmode", "vsetdispmode [name] mode(1,2,..)" "\n\t\t: Sets display mode for all, selected or named objects.", __FILE__,VDispMode,group); theCommands.Add("vunsetdispmode", "vunsetdispmode [name]" "\n\t\t: Unsets custom display mode for selected or named objects.", __FILE__,VDispMode,group); theCommands.Add("vdir", "Lists all objects displayed in 3D viewer", __FILE__,VDir,group); #ifdef HAVE_FREEIMAGE #define DUMP_FORMATS "{png|bmp|jpg|gif}" #else #define DUMP_FORMATS "{ppm}" #endif theCommands.Add("vdump", "vdump ." DUMP_FORMATS " [-width Width -height Height]" "\n\t\t: [-buffer rgb|rgba|depth=rgb]" "\n\t\t: [-stereo mono|left|right|blend|sideBySide|overUnder=mono]" "\n\t\t: [-tileSize Size=0]" "\n\t\t: Dumps content of the active view into image file", __FILE__,VDump,group); theCommands.Add("vsub", "vsub 0/1 (off/on) [obj] : Subintensity(on/off) of selected objects", __FILE__,VSubInt,group); theCommands.Add("vaspects", "vaspects [-noupdate|-update] [name1 [name2 [...]] | -defaults]" "\n\t\t: [-setVisibility 0|1]" "\n\t\t: [-setColor ColorName] [-setcolor R G B] [-unsetColor]" "\n\t\t: [-setMaterial MatName] [-unsetMaterial]" "\n\t\t: [-setTransparency Transp] [-unsetTransparency]" "\n\t\t: [-setWidth LineWidth] [-unsetWidth]" "\n\t\t: [-setLineType {solid|dash|dot|dotDash}] [-unsetLineType]" "\n\t\t: [-setMarkerType {.|+|x|O|xcircle|pointcircle|ring1|ring2|ring3|ball|ImagePath}]" "\n\t\t: [-unsetMarkerType]" "\n\t\t: [-setMarkerSize Scale] [-unsetMarkerSize]" "\n\t\t: [-freeBoundary {off/on | 0/1}]" "\n\t\t: [-setFreeBoundaryWidth Width] [-unsetFreeBoundaryWidth]" "\n\t\t: [-setFreeBoundaryColor {ColorName | R G B}] [-unsetFreeBoundaryColor]" "\n\t\t: [-subshapes subname1 [subname2 [...]]]" "\n\t\t: [-isoontriangulation 0|1]" "\n\t\t: [-setMaxParamValue {value}]" "\n\t\t: [-setSensitivity {selection_mode} {value}]" "\n\t\t: [-setShadingModel {color|flat|gouraud|phong}]" "\n\t\t: [-unsetShadingModel]" "\n\t\t: [-setInterior {solid|hatch|hidenline|point}]" "\n\t\t: [-unsetInterior] [-setHatch HatchStyle]" "\n\t\t: [-setFaceBoundaryDraw {0|1}] [-setMostContinuity {c0|c1|c2|c3|cn}" "\n\t\t: [-setFaceBoundaryWidth LineWidth] [-setFaceBoundaryColor R G B] [-setFaceBoundaryType LineType]" "\n\t\t: [-setDrawEdges {0|1}] [-setEdgeType LineType] [-setEdgeColor R G B] [-setQuadEdges {0|1}]" "\n\t\t: [-setDrawSilhouette {0|1}]" "\n\t\t: [-setAlphaMode {opaque|mask|blend|blendauto} [alphaCutOff=0.5]]" "\n\t\t: Manage presentation properties of all, selected or named objects." "\n\t\t: When -subshapes is specified than following properties will be" "\n\t\t: assigned to specified sub-shapes." "\n\t\t: When -defaults is specified than presentation properties will be" "\n\t\t: assigned to all objects that have not their own specified properties" "\n\t\t: and to all objects to be displayed in the future." "\n\t\t: If -defaults is used there should not be any objects' names and -subshapes specifier.", __FILE__,VAspects,group); theCommands.Add("vsetcolor", "vsetcolor [-noupdate|-update] [name] ColorName" "\n\t\t: Sets color for all, selected or named objects." "\n\t\t: Alias for vaspects -setcolor [name] ColorName.", __FILE__,VAspects,group); theCommands.Add("vunsetcolor", "vunsetcolor [-noupdate|-update] [name]" "\n\t\t: Resets color for all, selected or named objects." "\n\t\t: Alias for vaspects -unsetcolor [name].", __FILE__,VAspects,group); theCommands.Add("vsettransparency", "vsettransparency [-noupdate|-update] [name] Coefficient" "\n\t\t: Sets transparency for all, selected or named objects." "\n\t\t: The Coefficient may be between 0.0 (opaque) and 1.0 (fully transparent)." "\n\t\t: Alias for vaspects -settransp [name] Coefficient.", __FILE__,VAspects,group); theCommands.Add("vunsettransparency", "vunsettransparency [-noupdate|-update] [name]" "\n\t\t: Resets transparency for all, selected or named objects." "\n\t\t: Alias for vaspects -unsettransp [name].", __FILE__,VAspects,group); theCommands.Add("vsetmaterial", "vsetmaterial [-noupdate|-update] [name] MaterialName" "\n\t\t: Alias for vaspects -setmaterial [name] MaterialName.", __FILE__,VAspects,group); theCommands.Add("vunsetmaterial", "vunsetmaterial [-noupdate|-update] [name]" "\n\t\t: Alias for vaspects -unsetmaterial [name].", __FILE__,VAspects,group); theCommands.Add("vsetwidth", "vsetwidth [-noupdate|-update] [name] width(0->10)" "\n\t\t: Alias for vaspects -setwidth [name] width.", __FILE__,VAspects,group); theCommands.Add("vunsetwidth", "vunsetwidth [-noupdate|-update] [name]" "\n\t\t: Alias for vaspects -unsetwidth [name].", __FILE__,VAspects,group); theCommands.Add("vsetinteriorstyle", "vsetinteriorstyle [-noupdate|-update] [name] Style" "\n\t\t: Alias for vaspects -setInterior [name] Style.", __FILE__,VAspects,group); theCommands.Add ("vsetedgetype", "vsetedgetype [name] [-type {solid, dash, dot}] [-color R G B] [-width value]" "\n\t\t: Alias for vaspects [name] -setEdgeType Type.", __FILE__, VAspects, group); theCommands.Add ("vunsetedgetype", "vunsetedgetype [name]" "\n\t\t: Alias for vaspects [name] -unsetEdgeType.", __FILE__, VAspects, group); theCommands.Add ("vshowfaceboundary", "vshowfaceboundary [name]" "\n\t\t: Alias for vaspects [name] -setFaceBoundaryDraw on", __FILE__, VAspects, group); theCommands.Add("vsensdis", "vsensdis : Display active entities (sensitive entities of one of the standard types corresponding to active selection modes)." "\n\t\t: Standard entity types are those defined in Select3D package:" "\n\t\t: - sensitive box" "\n\t\t: - sensitive face" "\n\t\t: - sensitive curve" "\n\t\t: - sensitive segment" "\n\t\t: - sensitive circle" "\n\t\t: - sensitive point" "\n\t\t: - sensitive triangulation" "\n\t\t: - sensitive triangle" "\n\t\t: Custom(application - defined) sensitive entity types are not processed by this command.", __FILE__,VDispSensi,group); theCommands.Add("vsensera", "vsensera : erase active entities", __FILE__,VClearSensi,group); theCommands.Add("vsetshading", "vsetshading : vsetshading name Quality(default=0.0008) " "\n\t\t: Sets deflection coefficient that defines the quality of the shape representation in the shading mode.", __FILE__,VShading,group); theCommands.Add("vunsetshading", "vunsetshading :vunsetshading name " "\n\t\t: Sets default deflection coefficient (0.0008) that defines the quality of the shape representation in the shading mode.", __FILE__,VShading,group); theCommands.Add ("vtexture", "vtexture [-noupdate|-update] name [ImageFile|IdOfTexture|off]" "\n\t\t: [-tex0 Image0] [-tex1 Image1] [...]" "\n\t\t: [-origin {u v|off}] [-scale {u v|off}] [-repeat {u v|off}]" "\n\t\t: [-trsfTrans du dv] [-trsfScale su sv] [-trsfAngle Angle]" "\n\t\t: [-modulate {on|off}]" "\n\t\t: [-setFilter {nearest|bilinear|trilinear}]" "\n\t\t: [-setAnisoFilter {off|low|middle|quality}]" "\n\t\t: [-default]" "\n\t\t: The texture can be specified by filepath" "\n\t\t: or as ID (0<=IdOfTexture<=20) specifying one of the predefined textures." "\n\t\t: The options are:" "\n\t\t: -scale Setup texture scaling for generating coordinates; (1, 1) by default" "\n\t\t: -origin Setup texture origin for generating coordinates; (0, 0) by default" "\n\t\t: -repeat Setup texture repeat for generating coordinates; (1, 1) by default" "\n\t\t: -modulate Enable or disable texture color modulation" "\n\t\t: -trsfAngle Setup dynamic texture coordinates transformation - rotation angle" "\n\t\t: -trsfTrans Setup dynamic texture coordinates transformation - translation vector" "\n\t\t: -trsfScale Setup dynamic texture coordinates transformation - scale vector" "\n\t\t: -setFilter Setup texture filter" "\n\t\t: -setAnisoFilter Setup anisotropic filter for texture with mip-levels" "\n\t\t: -default Sets texture mapping default parameters", __FILE__, VTexture, group); theCommands.Add("vtexscale", "vtexscale name ScaleU ScaleV" "\n\t\t: Alias for vtexture name -setScale ScaleU ScaleV.", __FILE__,VTexture,group); theCommands.Add("vtexorigin", "vtexorigin name OriginU OriginV" "\n\t\t: Alias for vtexture name -setOrigin OriginU OriginV.", __FILE__,VTexture,group); theCommands.Add("vtexrepeat", "vtexrepeat name RepeatU RepeatV" "\n\t\t: Alias for vtexture name -setRepeat RepeatU RepeatV.", VTexture,group); theCommands.Add("vtexdefault", "vtexdefault name" "\n\t\t: Alias for vtexture name -default.", VTexture,group); theCommands.Add("vstate", "vstate [-entities] [-hasSelected] [name1] ... [nameN]" "\n\t\t: Reports show/hidden state for selected or named objects" "\n\t\t: -entities - print low-level information about detected entities" "\n\t\t: -hasSelected - prints 1 if context has selected shape and 0 otherwise", __FILE__,VState,group); theCommands.Add("vpickshapes", "vpickshape subtype(VERTEX,EDGE,WIRE,FACE,SHELL,SOLID) [name1 or .] [name2 or .] [name n or .]" "\n\t\t: Hold Ctrl and pick object by clicking Left mouse button." "\n\t\t: Hold also Shift for multiple selection.", __FILE__, VPickShape, group); theCommands.Add("vtypes", "vtypes : list of known types and signatures in AIS - To be Used in vpickobject command for selection with filters", VIOTypes,group); theCommands.Add("vr", "vr filename" "\n\t\t: Reads shape from BREP-format file and displays it in the viewer. ", __FILE__,vr, group); theCommands.Add("vselfilter", "vselfilter [-type {VERTEX|EDGE|WIRE|FACE|SHAPE|SHELL|SOLID}] [-clear]" "\nSets selection shape type filter in context or remove all filters." "\n : Option -type set type of selection filter. Filters are applyed with Or combination." "\n : Option -clear remove all filters in context", __FILE__,VSelFilter,group); theCommands.Add("vpickselected", "vpickselected [name]: extract selected shape.", __FILE__, VPickSelected, group); theCommands.Add ("vloadselection", "vloadselection [-context] [name1] ... [nameN] : allows to load selection" "\n\t\t: primitives for the shapes with names given without displaying them.", __FILE__, VLoadSelection, group); theCommands.Add("vbsdf", "vbsdf [name] [options]" "\nAdjusts parameters of material BSDF:" "\n -help : Shows this message" "\n -print : Print BSDF" "\n -kd : Weight of the Lambertian BRDF" "\n -kr : Weight of the reflection BRDF" "\n -kt : Weight of the transmission BTDF" "\n -ks : Weight of the glossy Blinn BRDF" "\n -le : Self-emitted radiance" "\n -fresnel : Fresnel coefficients; Allowed fresnel formats are: Constant x," "\n Schlick x y z, Dielectric x, Conductor x y" "\n -roughness : Roughness of material (Blinn's exponent)" "\n -absorpcoeff : Absorption coefficient (only for transparent material)" "\n -absorpcolor : Absorption color (only for transparent material)" "\n -normalize : Normalize BSDF coefficients", __FILE__, VBsdf, group); } //===================================================================== //========================= for testing Draft and Rib ================= //===================================================================== #include #include #include #include #include #include #include #include #include #include //#include //#include //======================================================================= //function : IsValid //purpose : //======================================================================= static Standard_Boolean IsValid(const TopTools_ListOfShape& theArgs, const TopoDS_Shape& theResult, const Standard_Boolean closedSolid, const Standard_Boolean GeomCtrl) { OSD_Environment check ("DONT_SWITCH_IS_VALID") ; TCollection_AsciiString checkValid = check.Value(); Standard_Boolean ToCheck = Standard_True; if (!checkValid.IsEmpty()) { #ifdef OCCT_DEBUG cout <<"DONT_SWITCH_IS_VALID positionnee a :"< 4) { // == 5 rev = Draw::Atoi(argv[5]); Rev = (rev)? Standard_True : Standard_False; } TopoDS_Face face2 = TopoDS::Face(Plane); if(!AIS::GetPlaneFromFace(face2, aPln, aSurf, aSurfType, Offset)) { di << "TEST : Can't find plane\n"; return 1; } aDir = aPln.Axis().Direction(); if (!aPln.Direct()) aDir.Reverse(); if (Plane.Orientation() == TopAbs_REVERSED) aDir.Reverse(); di << "TEST : gp::Resolution() = " << gp::Resolution() << "\n"; BRepOffsetAPI_DraftAngle Draft (Solid); if(Abs(anAngle)< Precision::Angular()) { di << "TEST : NULL angle\n"; return 1;} if(Rev) anAngle = - anAngle; Draft.Add (Face, aDir, anAngle, aPln); Draft.Build (); if (!Draft.IsDone()) { di << "TEST : Draft Not DONE \n"; return 1; } TopTools_ListOfShape Larg; Larg.Append(Solid); if (!IsValid(Larg,Draft.Shape(),Standard_True,Standard_False)) { di << "TEST : DesignAlgo returns Not valid\n"; return 1; } Handle(AIS_InteractiveContext) Ctx = ViewerTest::GetAISContext(); Handle(AIS_Shape) ais = new AIS_Shape(Draft.Shape()); if ( !ais.IsNull() ) { ais->SetColor(DEFAULT_COLOR); ais->SetMaterial(DEFAULT_MATERIAL); // Display the AIS_Shape without redraw Ctx->Display(ais, Standard_False); const char *Name = "draft1"; Handle(AIS_InteractiveObject) an_object; if (GetMapOfAIS().Find2(Name, an_object)) { if (!an_object.IsNull()) { Ctx->Remove (an_object, Standard_True); } GetMapOfAIS().UnBind2 (Name); } GetMapOfAIS().Bind(ais, Name); // DBRep::Set("draft", ais->Shape()); } Ctx->Display(ais, Standard_True); return 0; } //============================================================================== //function : splitParameter //purpose : Split parameter string to parameter name and parameter value //============================================================================== Standard_Boolean ViewerTest::SplitParameter (const TCollection_AsciiString& theString, TCollection_AsciiString& theName, TCollection_AsciiString& theValue) { Standard_Integer aParamNameEnd = theString.FirstLocationInSet ("=", 1, theString.Length()); if (aParamNameEnd == 0) { return Standard_False; } TCollection_AsciiString aString (theString); if (aParamNameEnd != 0) { theValue = aString.Split (aParamNameEnd); aString.Split (aString.Length() - 1); theName = aString; } return Standard_True; } //============================================================================ // MyCommands //============================================================================ void ViewerTest::MyCommands( Draw_Interpretor& theCommands) { DrawTrSurf::BasicCommands(theCommands); const char* group = "Check Features Operations commands"; theCommands.Add("Draft","Draft Solid Face Plane Angle Reverse", __FILE__, &TDraft,group); //Draft_Modification } //============================================================================== // ViewerTest::Factory //============================================================================== void ViewerTest::Factory(Draw_Interpretor& theDI) { // definition of Viewer Command ViewerTest::Commands(theDI); #ifdef OCCT_DEBUG theDI << "Draw Plugin : OCC V2d & V3d commands are loaded\n"; #endif } // Declare entry point PLUGINFACTORY DPLUGIN(ViewerTest)