// Created on: 1996-12-11 // Created by: Robert COUBLANC // Copyright (c) 1996-1999 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. #ifndef _AIS_InteractiveObject_HeaderFile #define _AIS_InteractiveObject_HeaderFile #include #include #include #include #include #include #include #include class AIS_InteractiveContext; class Graphic3d_MaterialAspect; class Prs3d_Presentation; class Prs3d_BasicAspect; class Bnd_Box; //! Defines a class of objects with display and selection services. //! Entities which are visualized and selected are //! Interactive Objects. You can make use of classes of //! standard Interactive Objects for which all necessary //! methods have already been programmed, or you can //! implement your own classes of Interactive Objects. //! Specific attributes of entities such as arrow aspect for //! dimensions must be loaded in a Drawer. This Drawer //! is then applied to the Interactive Object in view. //! There are four types of Interactive Object in AIS: the //! construction element or Datum, the Relation, which //! includes both dimensions and constraints, the Object, //! and finally, when the object is of an unknown type, the None type. //! Inside these categories, a signature, or index, //! provides the possibility of additional characterization. //! By default, the Interactive Object has a None type //! and a signature of 0. If you want to give a particular //! type and signature to your interactive object, you must //! redefine the methods, Signature and Type. //! Warning //! In the case of attribute methods, methods for //! standard attributes are virtual. They must be //! redefined by the inheriting classes. Setcolor for a //! point and Setcolor for a plane, for example, do not //! affect the same attributes in the Drawer. class AIS_InteractiveObject : public SelectMgr_SelectableObject { friend class AIS_InteractiveContext; DEFINE_STANDARD_RTTIEXT(AIS_InteractiveObject, SelectMgr_SelectableObject) public: //! Returns the kind of Interactive Object: //! - None //! - Datum //! - Relation //! - Object //! By default, the interactive object has a None type. //! Because specific shapes entail different behavior //! according to their sub-shapes, you may need to //! create a Local Context. This will allow you to //! specify the additional characteristics which you //! need to handle these shapes. Standard_EXPORT virtual AIS_KindOfInteractive Type() const; //! Specifies additional characteristics of Interactive //! Objects. A signature is, in fact, an index with integer //! values assigned different properties. //! This method is frequently used in conjuction with //! Type to give a particular type and signature to an //! Interactive Object. By default, the Interactive Object //! has a None type and a signature of 0. Among the //! datums, this signature is attributed to the shape //! The remaining datums have the following default signatures: //! - Point signature 1 //! - Axis signature 2 //! - Trihedron signature 3 //! - PlaneTrihedron signature 4 //! - Line signature 5 //! - Circle signature 6 //! - Plane signature 7. Standard_EXPORT virtual Standard_Integer Signature() const; //! Informs the graphic context that the interactive Object //! may be decomposed into sub-shapes for dynamic selection. //! The most used Interactive Object is AIS_Shape. //! Activation methods for standard selection modes are //! proposed in the Interactive Context. These include //! selection by vertex or by edges. For datums with the //! same behavior as AIS_Shape, such as vetices and //! edges, we must redefine the virtual method so that //! AcceptShapeDecomposition returns false. //! Rule for selection : //! Mode 0 : Selection of the interactive Object itself //! Mode 1 : Selection of vertices //! Mode 2 : Selection Of Edges //! Mode 3 : Selection Of Wires //! Mode 4 : Selection Of Faces ... virtual Standard_Boolean AcceptShapeDecomposition() const { return Standard_False; } //! change the current facing model apply on polygons for //! SetColor(), SetTransparency(), SetMaterial() methods //! default facing model is Aspect_TOFM_TWO_SIDE. This mean that attributes is //! applying both on the front and back face. Standard_EXPORT void SetCurrentFacingModel (const Aspect_TypeOfFacingModel aModel = Aspect_TOFM_BOTH_SIDE); //! Returns the current facing model which is in effect. Standard_EXPORT Aspect_TypeOfFacingModel CurrentFacingModel() const; //! Only the interactive object knowns which Drawer attribute is affected by the color, if any //! (ex: for a wire,it's the wireaspect field of the drawer, but for a vertex, only the point aspect field is affected by the color). //! WARNING : Do not forget to set the corresponding fields here (hasOwnColor and myDrawer->SetColor()) Standard_EXPORT virtual void SetColor (const Quantity_Color& theColor); //! Removes color settings. Only the Interactive Object //! knows which Drawer attribute is affected by the color //! setting. For a wire, for example, wire aspect is the //! attribute affected. For a vertex, however, only point //! aspect is affected by the color setting. Standard_EXPORT virtual void UnsetColor(); //! Allows you to provide the setting aValue for width. //! Only the Interactive Object knows which Drawer //! attribute is affected by the width setting. Standard_EXPORT virtual void SetWidth (const Standard_Real aValue); Standard_EXPORT virtual void UnsetWidth(); //! Returns true if the class of objects accepts the display mode aMode. //! The interactive context can have a default mode of //! representation for the set of Interactive Objects. This //! mode may not be accepted by a given class of //! objects. Consequently, this virtual method allowing us //! to get information about the class in question must be implemented. Standard_EXPORT virtual Standard_Boolean AcceptDisplayMode (const Standard_Integer aMode) const; //! Returns the default display mode. This method is to //! be implemented when the main mode is not mode 0. Standard_EXPORT virtual Standard_Integer DefaultDisplayMode() const; //! Updates the active presentation; if = Standard_True //! all the presentations inside are recomputed. //! IMPORTANT: It is preferable to call Redisplay method of //! corresponding AIS_InteractiveContext instance for cases when it //! is accessible. This method just redirects call to myCTXPtr, //! so this class field must be up to date for proper result. Standard_EXPORT void Redisplay (const Standard_Boolean AllModes = Standard_False); //! Sets the infinite state flag aFlage. //! if = True , the interactiveObject is //! considered as infinite, i.e. its graphic presentations //! are not taken in account for View FitAll... Standard_EXPORT void SetInfiniteState (const Standard_Boolean aFlag = Standard_True); //! Returns true if the interactive object is infinite. In this //! case, its graphic presentations are not taken into //! account in the fit-all view. Standard_Boolean IsInfinite() const { return myInfiniteState; } //! Indicates whether the Interactive Object has a pointer to an interactive context. Standard_Boolean HasInteractiveContext() const { return myCTXPtr != NULL; } //! Returns the context pointer to the interactive context. Standard_EXPORT Handle(AIS_InteractiveContext) GetContext() const; //! Sets the interactive context aCtx and provides a link //! to the default drawing tool or "Drawer" if there is none. Standard_EXPORT virtual void SetContext (const Handle(AIS_InteractiveContext)& aCtx); //! Returns true if the object has an owner attributed to it. //! The owner can be a shape for a set of sub-shapes or //! a sub-shape for sub-shapes which it is composed of, //! and takes the form of a transient. Standard_EXPORT Standard_Boolean HasOwner() const; //! Returns the owner of the Interactive Object. //! The owner can be a shape for a set of sub-shapes or //! a sub-shape for sub-shapes which it is composed of, //! and takes the form of a transient. //! There are two types of owners: //! - Direct owners, decomposition shapes such as //! edges, wires, and faces. //! - Users, presentable objects connecting to sensitive //! primitives, or a shape which has been decomposed. const Handle(Standard_Transient)& GetOwner() const { return myOwner; } //! Allows you to attribute the owner theApplicativeEntity to //! an Interactive Object. This can be a shape for a set of //! sub-shapes or a sub-shape for sub-shapes which it //! is composed of. The owner takes the form of a transient. void SetOwner (const Handle(Standard_Transient)& theApplicativeEntity) { myOwner = theApplicativeEntity; } //! Each Interactive Object has methods which allow us //! to attribute an Owner to it in the form of a Transient. //! This method removes the owner from the graphic entity. Standard_EXPORT void ClearOwner(); //! Returns true if the Interactive Object has a display //! mode setting. Otherwise, it is displayed in Neutral Point. Standard_Boolean HasDisplayMode() const { return myDrawer->DisplayMode() != -1; } //! Sets the display mode aMode for the interactive object. //! An object can have its own temporary display mode, //! which is different from that proposed by the interactive context. //! The range of possibilities currently proposed is the following: //! - AIS_WireFrame //! - AIS_Shaded //! This range can, however, be extended through the creation of new display modes. Standard_EXPORT void SetDisplayMode (const Standard_Integer aMode); //! Removes display mode settings from the interactive object. void UnsetDisplayMode() { myDrawer->SetDisplayMode (-1); } //! Returns the display mode setting of the Interactive Object. //! The range of possibilities is the following: //! - AIS_WireFrame //! - AIS_Shaded //! This range can, however, be extended through the //! creation of new display modes. Standard_Integer DisplayMode() const { return myDrawer->DisplayMode(); } //! Returns true if the Interactive Object is in highlight mode. Standard_Boolean HasHilightMode() const { return !myHilightDrawer.IsNull() && myHilightDrawer->DisplayMode() != -1; } //! Returns highlight display mode. //! This is obsolete method for backward compatibility - use ::HilightAttributes() and ::DynamicHilightAttributes() instead. Standard_Integer HilightMode() const { return !myHilightDrawer.IsNull() ? myHilightDrawer->DisplayMode() : -1; } //! Sets highlight display mode. //! This is obsolete method for backward compatibility - use ::HilightAttributes() and ::DynamicHilightAttributes() instead. void SetHilightMode (const Standard_Integer theMode) { if (myHilightDrawer.IsNull()) { myHilightDrawer = new Prs3d_Drawer(); myHilightDrawer->Link (myDrawer); myHilightDrawer->SetAutoTriangulation (Standard_False); myHilightDrawer->SetColor (Quantity_NOC_GRAY80); myHilightDrawer->SetZLayer(Graphic3d_ZLayerId_UNKNOWN); } if (myDynHilightDrawer.IsNull()) { myDynHilightDrawer = new Prs3d_Drawer(); myDynHilightDrawer->Link (myDrawer); myDynHilightDrawer->SetColor (Quantity_NOC_CYAN1); myDynHilightDrawer->SetAutoTriangulation (Standard_False); myDynHilightDrawer->SetZLayer(Graphic3d_ZLayerId_Top); } myHilightDrawer ->SetDisplayMode (theMode); myDynHilightDrawer->SetDisplayMode (theMode); } //! Unsets highlight display mode. void UnsetHilightMode() { if (!myHilightDrawer.IsNull()) { myHilightDrawer->SetDisplayMode (-1); } if (!myDynHilightDrawer.IsNull()) { myDynHilightDrawer->SetDisplayMode (-1); } } //! Returns true if the Interactive Object has color. Standard_Boolean HasColor() const { return hasOwnColor; } //! Returns the color setting of the Interactive Object. virtual void Color (Quantity_Color& theColor) const { theColor = myDrawer->Color(); } //! Returns true if the Interactive Object has width. Standard_Boolean HasWidth() const { return myOwnWidth != 0.0; } //! Returns the width setting of the Interactive Object. Standard_Real Width() const { return myOwnWidth; } //! Returns true if the Interactive Object has a setting for material. Standard_Boolean HasMaterial() const { return hasOwnMaterial; } //! Returns the current material setting. //! This will be on of the following materials: //! - Brass //! - Bronze //! - Gold //! - Pewter //! - Silver //! - Stone. Standard_EXPORT virtual Graphic3d_NameOfMaterial Material() const; //! Sets the material aMat defining this display attribute //! for the interactive object. //! Material aspect determines shading aspect, color and //! transparency of visible entities. Standard_EXPORT virtual void SetMaterial (const Graphic3d_MaterialAspect& aName); //! Removes the setting for material. Standard_EXPORT virtual void UnsetMaterial(); //! Attributes a setting aValue for transparency. //! The transparency value should be between 0.0 and 1.0. //! At 0.0 an object will be totally opaque, and at 1.0, fully transparent. //! Warning At a value of 1.0, there may be nothing visible. Standard_EXPORT virtual void SetTransparency (const Standard_Real aValue = 0.6); //! Returns true if there is a transparency setting. Standard_Boolean IsTransparent() const { return myDrawer->Transparency() > 0.005f; } //! Returns the transparency setting. //! This will be between 0.0 and 1.0. //! At 0.0 an object will be totally opaque, and at 1.0, fully transparent. Standard_EXPORT virtual Standard_Real Transparency() const; //! Removes the transparency setting. The object is opaque by default. Standard_EXPORT virtual void UnsetTransparency(); //! Clears settings provided by the drawing tool aDrawer. Standard_EXPORT virtual void UnsetAttributes() Standard_OVERRIDE; //! Returns TRUE when this object has a presentation //! in the current DisplayMode() Standard_EXPORT Standard_Boolean HasPresentation() const; //! Returns the current presentation of this object //! according to the current DisplayMode() Standard_EXPORT Handle(Prs3d_Presentation) Presentation() const; //! Sets the graphic basic aspect to the current presentation. Standard_EXPORT void SetAspect (const Handle(Prs3d_BasicAspect)& anAspect); //! Sets up polygon offsets for this object. //! It modifies all existing presentations of (if any), //! so it is reasonable to call this method after has been displayed. //! Otherwise, Compute() method should pass Graphic3d_AspectFillArea3d //! aspect from to Graphic3d_Group to make polygon offsets work. //! //! parameter can contain various combinations of //! Aspect_PolygonOffsetMode enumeration elements (Aspect_POM_None means //! that polygon offsets are not changed). //! If is different from Aspect_POM_Off and Aspect_POM_None, then and //! arguments are used by graphic renderer to calculate a depth offset value: //! //! offset = * m + * r, where //! m - maximum depth slope for the polygon currently being displayed, //! r - minimum window coordinates depth resolution (implementation-specific). //! //! Deafult settings for OCC 3D viewer: mode = Aspect_POM_Fill, factor = 1., units = 0. //! //! Negative offset values move polygons closer to the viewport, //! while positive values shift polygons away. //! Consult OpenGL reference for details (glPolygonOffset function description). //! //! NOTE: This method has a side effect - it creates own shading aspect //! if not yet created, so it is better to set up object material, //! color, etc. first. Standard_EXPORT virtual void SetPolygonOffsets (const Standard_Integer aMode, const Standard_ShortReal aFactor = 1.0, const Standard_ShortReal aUnits = 0.0); //! Returns Standard_True if has non-null shading aspect Standard_EXPORT virtual Standard_Boolean HasPolygonOffsets() const; //! Retrieves current polygon offsets settings from . Standard_EXPORT virtual void PolygonOffsets (Standard_Integer& aMode, Standard_ShortReal& aFactor, Standard_ShortReal& aUnits) const; //! Returns bounding box of object correspondingly to its current display mode. Standard_EXPORT virtual void BoundingBox (Bnd_Box& theBndBox) Standard_OVERRIDE; //! Enables or disables on-triangulation build of isolines according to the flag given. Standard_EXPORT void SetIsoOnTriangulation (const Standard_Boolean theIsEnabled); //! Synchronize presentation aspects after their modification. //! //! This method should be called after modifying primitive aspect properties (material, texture, shader) //! so that modifications will take effect on already computed presentation groups (thus avoiding re-displaying the object). Standard_EXPORT void SynchronizeAspects(); private: Standard_EXPORT virtual Standard_Boolean RecomputeEveryPrs() const; Standard_EXPORT void MustRecomputePrs (const Standard_Integer aMode) const; Standard_EXPORT const TColStd_ListOfInteger& ListOfRecomputeModes() const; Standard_EXPORT void SetRecomputeOk(); protected: //! The TypeOfPresention3d means that the interactive object //! may have a presentation dependant of the view of Display. Standard_EXPORT AIS_InteractiveObject(const PrsMgr_TypeOfPresentation3d aTypeOfPresentation3d = PrsMgr_TOP_AllView); private: AIS_InteractiveContext* myCTXPtr; Handle(Standard_Transient) myOwner; protected: TColStd_ListOfInteger myToRecomputeModes; Standard_Real myOwnWidth; Aspect_TypeOfFacingModel myCurrentFacingModel; Standard_Boolean myInfiniteState; Standard_Boolean hasOwnColor; Standard_Boolean hasOwnMaterial; Standard_Boolean myRecomputeEveryPrs; }; DEFINE_STANDARD_HANDLE(AIS_InteractiveObject, SelectMgr_SelectableObject) #endif // _AIS_InteractiveObject_HeaderFile