internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="autoDisable") AutoDisable=parser.ParseBoolValue(); else if(id=="bodies") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DRigidBodyNode rb=node as IX3DRigidBodyNode; if(rb==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Bodies.Add(rb); } } else if(id=="constantForceMix") ConstantForceMix=parser.ParseDoubleValue(); else if(id=="contactSurfaceThickness") ContactSurfaceThickness=parser.ParseDoubleValue(); else if(id=="disableAngularSpeed") DisableAngularSpeed=parser.ParseDoubleValue(); else if(id=="disableLinearSpeed") DisableLinearSpeed=parser.ParseDoubleValue(); else if(id=="disableTime") DisableTime=parser.ParseDoubleValue(); else if(id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="errorCorrection") ErrorCorrection=parser.ParseDoubleValue(); else if(id=="gravity") Gravity=parser.ParseSFVec3fValue(); else if(id=="iterations") Iterations=parser.ParseIntValue(); else if(id=="joints") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DRigidJointNode rj=node as X3DRigidJointNode; if(rj==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Joints.Add(rj); } } else if(id=="maxCorrectionSpeed") MaxCorrectionSpeed=parser.ParseDoubleValue(); else if(id=="preferAccuracy") PreferAccuracy=parser.ParseBoolValue(); else if(id=="collider") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Collider=node as IX3DCollisionCollectionNode; if(Collider==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="objectType") { if(wasObjectType) ObjectType.AddRange(parser.ParseSFStringOrMFStringValue()); else ObjectType=parser.ParseSFStringOrMFStringValue(); wasObjectType=true; } else if(id=="pickable") Pickable=parser.ParseBoolValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="collide"||id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else if(id=="proxy") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Proxy=node as X3DChildNode; if(Proxy==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="isPickable") IsPickable=parser.ParseBoolValue(); else if(id=="viewport") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Viewport=node as X3DViewportNode; if(Viewport==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="clipBoundary") { if(wasClipBoundary) ClipBoundary.AddRange(parser.ParseSFFloatOrMFFloatValue()); else ClipBoundary=parser.ParseSFFloatOrMFFloatValue(); wasClipBoundary=true; } else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="center") Center=parser.ParseSFVec3fValue(); else if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="name") Name=parser.ParseStringValue(); else if(id=="rotation") Rotation=parser.ParseSFRotationValue(); else if(id=="scale") Scale=parser.ParseSFVec3fValue(); else if(id=="scaleOrientation") ScaleOrientation=parser.ParseSFRotationValue(); else if(id=="translation") Translation=parser.ParseSFVec3fValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "texCoord" || id == "coord") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DTextureCoordinateNode tcn = node as X3DTextureCoordinateNode; if (tcn == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { TexCoord.Add(tcn); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="geoCoords") GeoCoords=parser.ParseSFVec3fStringValue(); else if(id=="geoOrigin") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { GeoOrigin=node as IX3DGeoOriginNode; if(GeoOrigin==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="geoSystem") { if(wasGeoSystem) GeoSystem.AddRange(parser.ParseSFStringOrMFStringValue()); else GeoSystem=parser.ParseSFStringOrMFStringValue(); wasGeoSystem=true; } else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "collidables") { Collidables.AddRange(parser.ParseSFNodeOrMFNodeValue()); } else if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "useGeometry") { UseGeometry = parser.ParseBoolValue(); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode child = node as X3DChildNode; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "programs") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DShaderProgramNode sp = node as IX3DShaderProgramNode; if (sp == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Programs.Add(sp); } } } else if (id == "language") { Language = parser.ParseStringValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "timeOut") { TimeOut = parser.ParseDoubleValue(); } else if (id == "watchList") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DUrlObject url = node as X3DUrlObject; if (url == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { WatchList.Add(url); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="objectType") { if(wasObjectType) ObjectType.AddRange(parser.ParseSFStringOrMFStringValue()); else ObjectType=parser.ParseSFStringOrMFStringValue(); wasObjectType=true; } else if(id=="pickingGeometry") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { PickingGeometry=node as IX3DLinePickSensorPickingGeometry; if(PickingGeometry==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="pickTarget") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DPickSensorNodePickTarget pt=node as IX3DPickSensorNodePickTarget; if(pt==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else PickTarget.Add(pt); } } else if(id=="intersectionType") IntersectionType=parser.ParseStringValue(); else if(id=="sortOrder") SortOrder=parser.ParseStringValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="centerOfMass") CenterOfMass=parser.ParseSFVec3fValue(); else if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="coord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Coord=node as X3DCoordinateNode; if(Coord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="displacers") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DHAnimDisplacerNode displacer=node as IX3DHAnimDisplacerNode; if(displacer==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Displacers.Add(displacer); } } else if(id=="mass") Mass=parser.ParseDoubleValue(); else if(id=="momentsOfInertia") { if(wasMomentsOfInertia) MomentsOfInertia.AddRange(parser.ParseSFFloatOrMFFloatValue()); else MomentsOfInertia=parser.ParseSFFloatOrMFFloatValue(); wasMomentsOfInertia=true; } else if(id=="name") Name=parser.ParseStringValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="data") Data.AddRange(parser.ParseSFNodeOrMFNodeValue()); else if(id=="summary") Summary.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="name") Name=parser.ParseStringValue(); else if(id=="reference") Reference=parser.ParseStringValue(); else if(id=="value") Value.AddRange(parser.ParseSFNodeOrMFNodeValue()); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="collidables") Collidables.AddRange(parser.ParseSFNodeOrMFNodeValue()); else if(id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="useGeometry") UseGeometry=parser.ParseBoolValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode child = node as X3DChildNode; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "isPickable") { IsPickable = parser.ParseBoolValue(); } else if (id == "layout") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Layout = node as X3DLayoutNode; if (Layout == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "viewport") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Viewport = node as X3DViewportNode; if (Viewport == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="angularDampingFactor") AngularDampingFactor=parser.ParseDoubleValue(); else if(id=="angularVelocity") AngularVelocity=parser.ParseSFVec3fValue(); else if(id=="autoDamp") AutoDamp=parser.ParseBoolValue(); else if(id=="autoDisable") AutoDisable=parser.ParseBoolValue(); else if(id=="centerOfMass") CenterOfMass=parser.ParseSFVec3fValue(); else if(id=="disableAngularSpeed") DisableAngularSpeed=parser.ParseDoubleValue(); else if(id=="disableLinearSpeed") DisableLinearSpeed=parser.ParseDoubleValue(); else if(id=="disableTime") DisableTime=parser.ParseDoubleValue(); else if(id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="finiteRotationAxis") FiniteRotationAxis=parser.ParseSFVec3fValue(); else if(id=="fixed") Fixed=parser.ParseBoolValue(); else if(id=="forces") Forces.AddRange(parser.ParseSFVec3fOrMFVec3fValue()); else if(id=="geometry") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DNBodyCollidableNode nbcn=node as X3DNBodyCollidableNode; if(nbcn==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Geometry.Add(nbcn); } } else if(id=="inertia") Inertia=parser.ParseSFMatrix3fValue(); else if(id=="linearDampingFactor") LinearDampingFactor=parser.ParseDoubleValue(); else if(id=="linearVelocity") LinearVelocity=parser.ParseSFVec3fValue(); else if(id=="mass") Mass=parser.ParseDoubleValue(); else if(id=="massDensityModel") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { MassDensityModel=node as X3DGeometryNode; if(MassDensityModel==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="orientation") Orientation=parser.ParseSFRotationValue(); else if(id=="position") Position=parser.ParseSFVec3fValue(); else if(id=="torques") Torques.AddRange(parser.ParseSFVec3fOrMFVec3fValue()); else if(id=="useFiniteRotation") UseFiniteRotation=parser.ParseBoolValue(); else if(id=="useGlobalGravity") UseGlobalGravity=parser.ParseBoolValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="controlPoint") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { ControlPoint=node as X3DCoordinateNode; if(ControlPoint==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="texCoord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { TexCoord=node as IX3DNurbsSurfaceGeometryNodeTexCoord; if(TexCoord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="trimmingContour") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DContour2DNode contour=node as IX3DContour2DNode; if(contour==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else TrimmingContour.Add(contour); } } else if(id=="uTessellation") UTessellation=parser.ParseIntValue(); else if(id=="vTessellation") VTessellation=parser.ParseIntValue(); else if(id=="weight") Weight.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="solid") Solid=parser.ParseBoolValue(); else if(id=="uClosed") UClosed=parser.ParseBoolValue(); else if(id=="uDimension") UDimension=parser.ParseIntValue(); else if(id=="uKnot") UKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="uOrder") UOrder=parser.ParseIntValue(); else if(id=="vClosed") VClosed=parser.ParseBoolValue(); else if(id=="vDimension") VDimension=parser.ParseIntValue(); else if(id=="vKnot") VKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="vOrder") VOrder=parser.ParseIntValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="attrib") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DVertexAttributeNode attr=node as X3DVertexAttributeNode; if(attr==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Attrib.Add(attr); } } else if(id=="color") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Color=node as X3DColorNode; if(Color==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="coord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Coord=node as X3DCoordinateNode; if(Coord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="fogCoord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { FogCoord=node as IX3DFogCoordinateNode; if(FogCoord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="colorIndex") ColorIndex=parser.ParseSFInt32OrMFInt32Value(); else if(id=="colorPerVertex") ColorPerVertex=parser.ParseBoolValue(); else if(id=="coordIndex") CoordIndex=parser.ParseSFInt32OrMFInt32Value(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "center") { Center = parser.ParseSFVec3fValue(); } else if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DViewpointgroupChildren child = node as IX3DViewpointgroupChildren; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "description") { Description = parser.ParseStringValue(); } else if (id == "displayed") { Displayed = parser.ParseBoolValue(); } else if (id == "retainUserOffsets") { RetainUserOffsets = parser.ParseBoolValue(); } else if (id == "size") { Size = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "alpha") { Alpha = parser.ParseDoubleValue(); } else if (id == "color") { Color = parser.ParseSFColorValue(); } else if (id == "function") { Function = parser.ParseSFStringOrMFStringValue(); } else if (id == "mode") { Mode = parser.ParseSFStringOrMFStringValue(); } else if (id == "source") { Source = parser.ParseSFStringOrMFStringValue(); } else if (id == "texture") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DTextureNode tn = node as X3DTextureNode; if (tn == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Texture.Add(tn); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DContour2DChildren child=node as IX3DContour2DChildren; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="textureTransform") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DTextureTransformNode tfn=node as X3DTextureTransformNode; if(tfn==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else TextureTransform.Add(tfn); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="parts") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DShaderPartNode shaderPart=node as IX3DShaderPartNode; if(shaderPart==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Parts.Add(shaderPart); } } else if(id=="language") Language=parser.ParseStringValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "activeLayer") { ActiveLayer = parser.ParseIntValue(); } else if (id == "layers") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DLayerNode ln = node as X3DLayerNode; if (ln == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Layers.Add(ln); } } } else if (id == "order") { if (wasOrder) { Order.AddRange(parser.ParseSFInt32OrMFInt32Value()); } else { Order = parser.ParseSFInt32OrMFInt32Value(); } wasOrder = true; } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "address") { Address = parser.ParseStringValue(); } else if (id == "applicationID") { ApplicationID = parser.ParseIntValue(); } else if (id == "mapping") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DDISEntityTypeMappingNode disetm = node as IX3DDISEntityTypeMappingNode; if (disetm == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Mapping.Add(disetm); } } } else if (id == "port") { Port = parser.ParseIntValue(); } else if (id == "siteID") { SiteID = parser.ParseIntValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="geometry") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DNurbsSurfaceGeometryNode ns=node as X3DNurbsSurfaceGeometryNode; if(ns==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Geometry.Add(ns); } } else if(id=="tessellationScale") TessellationScale=parser.ParseDoubleValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "name") { Name = parser.ParseStringValue(); } else if (id == "reference") { Reference = parser.ParseStringValue(); } else if (id == "value") { Value.AddRange(parser.ParseSFNodeOrMFNodeValue()); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "data") { Data.AddRange(parser.ParseSFNodeOrMFNodeValue()); } else if (id == "summary") { Summary.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="textures") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DTexture2DNode texture2DNode=node as X3DTexture2DNode; if(texture2DNode==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Textures.Add(texture2DNode); } } else if(id=="repeatS") RepeatS=parser.ParseBoolValue(); else if(id=="repeatT") RepeatT=parser.ParseBoolValue(); else if(id=="repeatR") RepeatR=parser.ParseBoolValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="choice"||id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode choice=node as X3DChildNode; if(choice==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Choice.Add(choice); } } else if(id=="whichChoice") WhichChoice=parser.ParseIntValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="address") Address=parser.ParseStringValue(); else if(id=="applicationID") ApplicationID=parser.ParseIntValue(); else if(id=="mapping") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DDISEntityTypeMappingNode disetm=node as IX3DDISEntityTypeMappingNode; if(disetm==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Mapping.Add(disetm); } } else if(id=="port") Port=parser.ParseIntValue(); else if(id=="siteID") SiteID=parser.ParseIntValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="center") Center=parser.ParseSFVec3fValue(); else if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DViewpointgroupChildren child=node as IX3DViewpointgroupChildren; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="description") Description=parser.ParseStringValue(); else if(id=="displayed") Displayed=parser.ParseBoolValue(); else if(id=="retainUserOffsets") RetainUserOffsets=parser.ParseBoolValue(); else if(id=="size") Size=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children"||id=="level"||id=="levels") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else if(id=="center") Center=parser.ParseSFVec3fValue(); else if(id=="forceTransitions") ForceTransitions=parser.ParseBoolValue(); else if(id=="range") Range=parser.ParseSFFloatOrMFFloatValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "textures") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DTexture2DNode texture2DNode = node as X3DTexture2DNode; if (texture2DNode == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Textures.Add(texture2DNode); } } } else if (id == "repeatS") { RepeatS = parser.ParseBoolValue(); } else if (id == "repeatT") { RepeatT = parser.ParseBoolValue(); } else if (id == "repeatR") { RepeatR = parser.ParseBoolValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "geometry") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DNurbsSurfaceGeometryNode ns = node as X3DNurbsSurfaceGeometryNode; if (ns == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Geometry.Add(ns); } } } else if (id == "tessellationScale") { TessellationScale = parser.ParseDoubleValue(); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "controlPoint") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { ControlPoint = node as X3DCoordinateNode; if (ControlPoint == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "texCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TexCoord = node as IX3DNurbsSurfaceGeometryNodeTexCoord; if (TexCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "trimmingContour") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DContour2DNode contour = node as IX3DContour2DNode; if (contour == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { TrimmingContour.Add(contour); } } } else if (id == "uTessellation") { UTessellation = parser.ParseIntValue(); } else if (id == "vTessellation") { VTessellation = parser.ParseIntValue(); } else if (id == "weight") { Weight.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "solid") { Solid = parser.ParseBoolValue(); } else if (id == "uClosed") { UClosed = parser.ParseBoolValue(); } else if (id == "uDimension") { UDimension = parser.ParseIntValue(); } else if (id == "uKnot") { UKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "uOrder") { UOrder = parser.ParseIntValue(); } else if (id == "vClosed") { VClosed = parser.ParseBoolValue(); } else if (id == "vDimension") { VDimension = parser.ParseIntValue(); } else if (id == "vKnot") { VKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "vOrder") { VOrder = parser.ParseIntValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "centerOfMass") { CenterOfMass = parser.ParseSFVec3fValue(); } else if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode child = node as X3DChildNode; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "coord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Coord = node as X3DCoordinateNode; if (Coord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "displacers") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DHAnimDisplacerNode displacer = node as IX3DHAnimDisplacerNode; if (displacer == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Displacers.Add(displacer); } } } else if (id == "mass") { Mass = parser.ParseDoubleValue(); } else if (id == "momentsOfInertia") { if (wasMomentsOfInertia) { MomentsOfInertia.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else { MomentsOfInertia = parser.ParseSFFloatOrMFFloatValue(); } wasMomentsOfInertia = true; } else if (id == "name") { Name = parser.ParseStringValue(); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode child = node as X3DShapeNode; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "controlPoint") { object token = parser.PeekNextToken(); if (token is VRMLTokenIdKeywordOrFieldType) { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { ControlPoint = node as X3DCoordinateNode; if (ControlPoint == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else { x3dCoordinate coords = new x3dCoordinate(); coords.Point = parser.ParseSFVec3fOrMFVec3fValue(); ControlPoint = coords; } } else if (id == "inputCoord") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DCoordinateNode coord = node as X3DCoordinateNode; if (coord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { InputCoord.Add(coord); } } } else if (id == "inputTransform") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DCoordinateDeformerInputTransform transf = node as IX3DCoordinateDeformerInputTransform; if (transf == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { InputTransform.Add(transf); } } } else if (id == "outputCoord") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DCoordinateNode coord = node as X3DCoordinateNode; if (coord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { OutputCoord.Add(coord); } } } else if (id == "weight") { Weight.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else if (id == "uDimension") { UDimension = parser.ParseIntValue(); } else if (id == "uKnot") { UKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "uOrder") { UOrder = parser.ParseIntValue(); } else if (id == "vDimension") { VDimension = parser.ParseIntValue(); } else if (id == "vKnot") { VKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "vOrder") { VOrder = parser.ParseIntValue(); } else if (id == "wDimension") { WDimension = parser.ParseIntValue(); } else if (id == "wKnot") { WKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "wOrder") { WOrder = parser.ParseIntValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "autoDisable") { AutoDisable = parser.ParseBoolValue(); } else if (id == "bodies") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DRigidBodyNode rb = node as IX3DRigidBodyNode; if (rb == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Bodies.Add(rb); } } } else if (id == "constantForceMix") { ConstantForceMix = parser.ParseDoubleValue(); } else if (id == "contactSurfaceThickness") { ContactSurfaceThickness = parser.ParseDoubleValue(); } else if (id == "disableAngularSpeed") { DisableAngularSpeed = parser.ParseDoubleValue(); } else if (id == "disableLinearSpeed") { DisableLinearSpeed = parser.ParseDoubleValue(); } else if (id == "disableTime") { DisableTime = parser.ParseDoubleValue(); } else if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "errorCorrection") { ErrorCorrection = parser.ParseDoubleValue(); } else if (id == "gravity") { Gravity = parser.ParseSFVec3fValue(); } else if (id == "iterations") { Iterations = parser.ParseIntValue(); } else if (id == "joints") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DRigidJointNode rj = node as X3DRigidJointNode; if (rj == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Joints.Add(rj); } } } else if (id == "maxCorrectionSpeed") { MaxCorrectionSpeed = parser.ParseDoubleValue(); } else if (id == "preferAccuracy") { PreferAccuracy = parser.ParseBoolValue(); } else if (id == "collider") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Collider = node as IX3DCollisionCollectionNode; if (Collider == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "center") { Center = parser.ParseSFVec3fStringValue(); } else if (id == "child1Url") { Child1URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "child2Url") { Child2URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "child3Url") { Child3URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "child4Url") { Child4URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "geoOrigin") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { GeoOrigin = node as IX3DGeoOriginNode; if (GeoOrigin == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "geoSystem") { if (wasGeoSystem) { GeoSystem.AddRange(parser.ParseSFStringOrMFStringValue()); } else { GeoSystem = parser.ParseSFStringOrMFStringValue(); } wasGeoSystem = true; } else if (id == "range") { Range = parser.ParseDoubleValue(); } else if (id == "rootUrl") { RootURL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "rootNode") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode rn = node as X3DChildNode; if (rn == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { RootNode.Add(rn); } } } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "angularDampingFactor") { AngularDampingFactor = parser.ParseDoubleValue(); } else if (id == "angularVelocity") { AngularVelocity = parser.ParseSFVec3fValue(); } else if (id == "autoDamp") { AutoDamp = parser.ParseBoolValue(); } else if (id == "autoDisable") { AutoDisable = parser.ParseBoolValue(); } else if (id == "centerOfMass") { CenterOfMass = parser.ParseSFVec3fValue(); } else if (id == "disableAngularSpeed") { DisableAngularSpeed = parser.ParseDoubleValue(); } else if (id == "disableLinearSpeed") { DisableLinearSpeed = parser.ParseDoubleValue(); } else if (id == "disableTime") { DisableTime = parser.ParseDoubleValue(); } else if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "finiteRotationAxis") { FiniteRotationAxis = parser.ParseSFVec3fValue(); } else if (id == "fixed") { Fixed = parser.ParseBoolValue(); } else if (id == "forces") { Forces.AddRange(parser.ParseSFVec3fOrMFVec3fValue()); } else if (id == "geometry") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DNBodyCollidableNode nbcn = node as X3DNBodyCollidableNode; if (nbcn == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Geometry.Add(nbcn); } } } else if (id == "inertia") { Inertia = parser.ParseSFMatrix3fValue(); } else if (id == "linearDampingFactor") { LinearDampingFactor = parser.ParseDoubleValue(); } else if (id == "linearVelocity") { LinearVelocity = parser.ParseSFVec3fValue(); } else if (id == "mass") { Mass = parser.ParseDoubleValue(); } else if (id == "massDensityModel") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { MassDensityModel = node as X3DGeometryNode; if (MassDensityModel == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "orientation") { Orientation = parser.ParseSFRotationValue(); } else if (id == "position") { Position = parser.ParseSFVec3fValue(); } else if (id == "torques") { Torques.AddRange(parser.ParseSFVec3fOrMFVec3fValue()); } else if (id == "useFiniteRotation") { UseFiniteRotation = parser.ParseBoolValue(); } else if (id == "useGlobalGravity") { UseGlobalGravity = parser.ParseBoolValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "appliedParameters") { if (wasAppliedParameters) { AppliedParameters.AddRange(parser.ParseSFStringOrMFStringValue()); } AppliedParameters = parser.ParseSFStringOrMFStringValue(); wasAppliedParameters = true; } else if (id == "bounce") { Bounce = parser.ParseDoubleValue(); } else if (id == "collidables") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DCollisionCollectionCollidables colls = node as IX3DCollisionCollectionCollidables; if (colls == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Collidables.Add(colls); } } } else if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "frictionCoefficients") { FrictionCoefficients = parser.ParseSFVec2fValue(); } else if (id == "minBounceSpeed") { MinBounceSpeed = parser.ParseDoubleValue(); } else if (id == "slipFactors") { SlipFactors = parser.ParseSFVec2fValue(); } else if (id == "softnessConstantForceMix") { SoftnessConstantForceMix = parser.ParseDoubleValue(); } else if (id == "softnessErrorCorrection") { SoftnessErrorCorrection = parser.ParseDoubleValue(); } else if (id == "surfaceSpeed") { SurfaceSpeed = parser.ParseSFVec2fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "appearance") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Appearance = node as X3DAppearanceNode; if (Appearance == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "createParticles") { CreateParticles = parser.ParseBoolValue(); } else if (id == "geometry") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Geometry = node as X3DGeometryNode; if (Geometry == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "lifetimeVariation") { LifetimeVariation = parser.ParseDoubleValue(); } else if (id == "maxParticles") { MaxParticles = parser.ParseIntValue(); } else if (id == "particleLifetime") { ParticleLifetime = parser.ParseDoubleValue(); } else if (id == "particleSize") { ParticleSize = parser.ParseSFVec2fValue(); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else if (id == "colorRamp") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { ColorRamp = node as X3DColorNode; if (ColorRamp == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "colorKey") { ColorKey.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "emitter") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Emitter = node as X3DParticleEmitterNode; if (Emitter == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "geometryType") { GeometryType = parser.ParseStringValue(); } else if (id == "physics") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DParticlePhysicsModelNode ppmn = node as X3DParticlePhysicsModelNode; if (ppmn == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Physics.Add(ppmn); } } } else if (id == "texCoordRamp") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TexCoordRamp = node as X3DTextureCoordinateNode; if (TexCoordRamp == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "texCoordKey") { TexCoordKey.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "objectType") { if (wasObjectType) { ObjectType.AddRange(parser.ParseSFStringOrMFStringValue()); } else { ObjectType = parser.ParseSFStringOrMFStringValue(); } wasObjectType = true; } else if (id == "pickingGeometry") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { PickingGeometry = node as IX3DPointPickSensorPickingGeometry; if (PickingGeometry == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "pickTarget") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DPickSensorNodePickTarget pt = node as IX3DPickSensorNodePickTarget; if (pt == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { PickTarget.Add(pt); } } } else if (id == "intersectionType") { IntersectionType = parser.ParseStringValue(); } else if (id == "sortOrder") { SortOrder = parser.ParseStringValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "attrib") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DVertexAttributeNode attr = node as X3DVertexAttributeNode; if (attr == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Attrib.Add(attr); } } } else if (id == "color") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Color = node as X3DColorNode; if (Color == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "coord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Coord = node as X3DCoordinateNode; if (Coord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "fogCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { FogCoord = node as IX3DFogCoordinateNode; if (FogCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "attrib") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DVertexAttributeNode attr = node as X3DVertexAttributeNode; if (attr == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Attrib.Add(attr); } } } else if (id == "color") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Color = node as X3DColorNode; if (Color == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "coord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Coord = node as X3DCoordinateNode; if (Coord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "fogCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { FogCoord = node as IX3DFogCoordinateNode; if (FogCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "normal") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Normal = node as X3DNormalNode; if (Normal == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "texCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TexCoord = node as X3DTextureCoordinateNode; if (TexCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "ccw") { CCW = parser.ParseBoolValue(); } else if (id == "colorPerVertex") { ColorPerVertex = parser.ParseBoolValue(); } else if (id == "normalPerVertex") { NormalPerVertex = parser.ParseBoolValue(); } else if (id == "solid") { Solid = parser.ParseBoolValue(); } else if (id == "index") { Index = parser.ParseSFInt32OrMFInt32Value(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="attrib") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DVertexAttributeNode attr=node as X3DVertexAttributeNode; if(attr==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Attrib.Add(attr); } } else if(id=="color") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Color=node as X3DColorNode; if(Color==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="fogCoord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { FogCoord=node as IX3DFogCoordinateNode; if(FogCoord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="normal") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Normal=node as X3DNormalNode; if(Normal==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="texCoord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { TexCoord=node as X3DTextureCoordinateNode; if(TexCoord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="ccw") CCW=parser.ParseBoolValue(); else if(id=="colorPerVertex") ColorPerVertex=parser.ParseBoolValue(); else if(id=="creaseAngle") CreaseAngle=parser.ParseDoubleValue(); else if(id=="height") Height.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="normalPerVertex") NormalPerVertex=parser.ParseBoolValue(); else if(id=="solid") Solid=parser.ParseBoolValue(); else if(id=="xDimension") XDimension=parser.ParseIntValue(); else if(id=="xSpacing") XSpacing=parser.ParseDoubleValue(); else if(id=="zDimension") ZDimension=parser.ParseIntValue(); else if(id=="zSpacing") ZSpacing=parser.ParseDoubleValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "address") { Address = parser.ParseStringValue(); } else if (id == "applicationID") { ApplicationID = parser.ParseIntValue(); } else if (id == "articulationParameterCount") { ArticulationParameterCount = parser.ParseIntValue(); } else if (id == "articulationParameterDesignatorArray") { ArticulationParameterDesignatorArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); } else if (id == "articulationParameterChangeIndicatorArray") { ArticulationParameterChangeIndicatorArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); } else if (id == "articulationParameterIdPartAttachedToArray") { ArticulationParameterIdPartAttachedToArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); } else if (id == "articulationParameterTypeArray") { ArticulationParameterTypeArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); } else if (id == "articulationParameterArray") { ArticulationParameterArray.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "center") { Center = parser.ParseSFVec3fValue(); } else if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode child = node as X3DChildNode; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "collisionType") { CollisionType = parser.ParseIntValue(); } else if (id == "deadReckoning") { DeadReckoning = parser.ParseIntValue(); } else if (id == "detonationLocation") { DetonationLocation = parser.ParseSFVec3fValue(); } else if (id == "detonationRelativeLocation") { DetonationRelativeLocation = parser.ParseSFVec3fValue(); } else if (id == "detonationResult") { DetonationResult = parser.ParseIntValue(); } else if (id == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "entityCategory") { EntityCategory = parser.ParseIntValue(); } else if (id == "entityCountry") { EntityCountry = parser.ParseIntValue(); } else if (id == "entityDomain") { EntityDomain = parser.ParseIntValue(); } else if (id == "entityExtra") { EntityExtra = parser.ParseIntValue(); } else if (id == "entityID") { EntityID = parser.ParseIntValue(); } else if (id == "entityKind") { EntityKind = parser.ParseIntValue(); } else if (id == "entitySpecific") { EntitySpecific = parser.ParseIntValue(); } else if (id == "entitySubCategory") { EntitySubCategory = parser.ParseIntValue(); } else if (id == "eventApplicationID") { EventApplicationID = parser.ParseIntValue(); } else if (id == "eventEntityID") { EventEntityID = parser.ParseIntValue(); } else if (id == "eventNumber") { EventNumber = parser.ParseIntValue(); } else if (id == "eventSiteID") { EventSiteID = parser.ParseIntValue(); } else if (id == "fired1") { Fired1 = parser.ParseBoolValue(); } else if (id == "fired2") { Fired2 = parser.ParseBoolValue(); } else if (id == "fireMissionIndex") { FireMissionIndex = parser.ParseIntValue(); } else if (id == "firingRange") { FiringRange = parser.ParseDoubleValue(); } else if (id == "firingRate") { FiringRate = parser.ParseIntValue(); } else if (id == "forceID") { ForceID = parser.ParseIntValue(); } else if (id == "fuse") { Fuse = parser.ParseIntValue(); } else if (id == "linearVelocity") { LinearVelocity = parser.ParseSFVec3fValue(); } else if (id == "linearAcceleration") { LinearAcceleration = parser.ParseSFVec3fValue(); } else if (id == "marking") { Marking = parser.ParseStringValue(); } else if (id == "multicastRelayHost") { MulticastRelayHost = parser.ParseStringValue(); } else if (id == "multicastRelayPort") { MulticastRelayPort = parser.ParseIntValue(); } else if (id == "munitionApplicationID") { MunitionApplicationID = parser.ParseIntValue(); } else if (id == "munitionEndPoint") { MunitionEndPoint = parser.ParseSFVec3fValue(); } else if (id == "munitionEntityID") { MunitionEntityID = parser.ParseIntValue(); } else if (id == "munitionQuantity") { MunitionQuantity = parser.ParseIntValue(); } else if (id == "munitionSiteID") { MunitionSiteID = parser.ParseIntValue(); } else if (id == "munitionStartPoint") { MunitionStartPoint = parser.ParseSFVec3fValue(); } else if (id == "networkMode") { NetworkMode = parser.ParseStringValue(); } else if (id == "port") { Port = parser.ParseIntValue(); } else if (id == "readInterval") { ReadInterval = parser.ParseDoubleValue(); } else if (id == "rotation") { Rotation = parser.ParseSFRotationValue(); } else if (id == "scale") { Scale = parser.ParseSFVec3fValue(); } else if (id == "scaleOrientation") { ScaleOrientation = parser.ParseSFRotationValue(); } else if (id == "siteID") { SiteID = parser.ParseIntValue(); } else if (id == "translation") { Translation = parser.ParseSFVec3fValue(); } else if (id == "warhead") { Warhead = parser.ParseIntValue(); } else if (id == "writeInterval") { WriteInterval = parser.ParseDoubleValue(); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else if (id == "rtpHeaderExpected") { RtpHeaderExpected = parser.ParseBoolValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="fillProperties") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { FillProperties=node as IX3DFillPropertiesNode; if(FillProperties==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="lineProperties") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { LineProperties=node as IX3DLinePropertiesNode; if(LineProperties==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="material") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Material=node as X3DMaterialNode; if(Material==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="shaders") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DShaderNode sn=node as X3DShaderNode; if(sn==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Shaders.Add(sn); } } else if(id=="texture") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Texture=node as X3DTextureNode; if(Texture==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="textureTransform") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { TextureTransform=node as X3DTextureTransformNode; if(TextureTransform==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="appearance") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Appearance=node as X3DAppearanceNode; if(Appearance==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="createParticles") CreateParticles=parser.ParseBoolValue(); else if(id=="geometry") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Geometry=node as X3DGeometryNode; if(Geometry==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="lifetimeVariation") LifetimeVariation=parser.ParseDoubleValue(); else if(id=="maxParticles") MaxParticles=parser.ParseIntValue(); else if(id=="particleLifetime") ParticleLifetime=parser.ParseDoubleValue(); else if(id=="particleSize") ParticleSize=parser.ParseSFVec2fValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else if(id=="colorRamp") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { ColorRamp=node as X3DColorNode; if(ColorRamp==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="colorKey") ColorKey.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="emitter") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Emitter=node as X3DParticleEmitterNode; if(Emitter==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="geometryType") GeometryType=parser.ParseStringValue(); else if(id=="physics") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DParticlePhysicsModelNode ppmn=node as X3DParticlePhysicsModelNode; if(ppmn==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Physics.Add(ppmn); } } else if(id=="texCoordRamp") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { TexCoordRamp=node as X3DTextureCoordinateNode; if(TexCoordRamp==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="texCoordKey") TexCoordKey.AddRange(parser.ParseSFFloatOrMFFloatValue()); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "attrib") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DVertexAttributeNode attr = node as X3DVertexAttributeNode; if (attr == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Attrib.Add(attr); } } } else if (id == "color") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Color = node as X3DColorNode; if (Color == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "fogCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { FogCoord = node as IX3DFogCoordinateNode; if (FogCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "normal") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Normal = node as X3DNormalNode; if (Normal == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "texCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TexCoord = node as X3DTextureCoordinateNode; if (TexCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "ccw") { CCW = parser.ParseBoolValue(); } else if (id == "colorPerVertex") { ColorPerVertex = parser.ParseBoolValue(); } else if (id == "creaseAngle") { CreaseAngle = parser.ParseDoubleValue(); } else if (id == "height") { Height.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "normalPerVertex") { NormalPerVertex = parser.ParseBoolValue(); } else if (id == "solid") { Solid = parser.ParseBoolValue(); } else if (id == "xDimension") { XDimension = parser.ParseIntValue(); } else if (id == "xSpacing") { XSpacing = parser.ParseDoubleValue(); } else if (id == "zDimension") { ZDimension = parser.ParseIntValue(); } else if (id == "zSpacing") { ZSpacing = parser.ParseDoubleValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DShapeNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="controlPoint") { object token=parser.PeekNextToken(); if(token is VRMLTokenIdKeywordOrFieldType) { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { ControlPoint=node as X3DCoordinateNode; if(ControlPoint==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else { x3dCoordinate coords=new x3dCoordinate(); coords.Point=parser.ParseSFVec3fOrMFVec3fValue(); ControlPoint=coords; } } else if(id=="inputCoord") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DCoordinateNode coord=node as X3DCoordinateNode; if(coord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else InputCoord.Add(coord); } } else if(id=="inputTransform") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DCoordinateDeformerInputTransform transf=node as IX3DCoordinateDeformerInputTransform; if(transf==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else InputTransform.Add(transf); } } else if(id=="outputCoord") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DCoordinateNode coord=node as X3DCoordinateNode; if(coord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else OutputCoord.Add(coord); } } else if(id=="weight") Weight.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else if(id=="uDimension") UDimension=parser.ParseIntValue(); else if(id=="uKnot") UKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="uOrder") UOrder=parser.ParseIntValue(); else if(id=="vDimension") VDimension=parser.ParseIntValue(); else if(id=="vKnot") VKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="vOrder") VOrder=parser.ParseIntValue(); else if(id=="wDimension") WDimension=parser.ParseIntValue(); else if(id=="wKnot") WKnot.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="wOrder") WOrder=parser.ParseIntValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "center") { Center = parser.ParseSFVec3fValue(); } else if (id == "info") { Info.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "joints") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DHAnimJointNode joint = node as IX3DHAnimJointNode; if (joint == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Joints.Add(joint); } } } else if (id == "name") { Name = parser.ParseStringValue(); } else if (id == "rotation") { Rotation = parser.ParseSFRotationValue(); } else if (id == "scale") { Scale = parser.ParseSFVec3fValue(); } else if (id == "scaleOrientation") { ScaleOrientation = parser.ParseSFRotationValue(); } else if (id == "segments") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DHAnimeSegmentNode segment = node as IX3DHAnimeSegmentNode; if (segment == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Segments.Add(segment); } } } else if (id == "sites") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DHAnimSiteNode site = node as IX3DHAnimSiteNode; if (site == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Sites.Add(site); } } } else if (id == "skeleton") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DHAnimHumanoidSkeleton skeleton = node as IX3DHAnimHumanoidSkeleton; if (skeleton == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Skeleton.Add(skeleton); } } } else if (id == "skin") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode skin = node as X3DChildNode; if (skin == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Skin.Add(skin); } } } else if (id == "skinCoord") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { SkinCoord = node as X3DCoordinateNode; if (SkinCoord == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "skinNormal") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { SkinNormal = node as X3DNormalNode; if (SkinNormal == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "translation") { Translation = parser.ParseSFVec3fValue(); } else if (id == "version") { Version = parser.ParseStringValue(); } else if (id == "viewpoints") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DViewpointNode vp = node as X3DViewpointNode; // x3d-Spec specs. x3dHAnimSite change to interface if neccessary if (vp == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Viewpoints.Add(vp); } } } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "center") { Center = parser.ParseSFVec3fValue(); } else if (id == "children") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DChildNode child = node as IX3DHAnimJointChildren; if (child == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Children.Add(child); } } } else if (id == "displacers") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { IX3DHAnimDisplacerNode displacer = node as IX3DHAnimDisplacerNode; if (displacer == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Displacers.Add(displacer); } } } else if (id == "limitOrientation") { LimitOrientation = parser.ParseSFRotationValue(); } else if (id == "llimit") { Llimit.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "name") { Name = parser.ParseStringValue(); } else if (id == "rotation") { Rotation = parser.ParseSFRotationValue(); } else if (id == "scale") { Scale = parser.ParseSFVec3fValue(); } else if (id == "scaleOrientation") { ScaleOrientation = parser.ParseSFRotationValue(); } else if (id == "skinCoordIndex") { SkinCoordIndex.AddRange(parser.ParseSFInt32OrMFInt32Value()); } else if (id == "skinCoordWeight") { SkinCoordWeight.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "stiffness") { if (wasStiffness) { Stiffness.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else { Stiffness = parser.ParseSFFloatOrMFFloatValue(); } wasStiffness = true; } else if (id == "translation") { Translation = parser.ParseSFVec3fValue(); } else if (id == "ulimit") { Ulimit.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "bboxCenter") { BBoxCenter = parser.ParseSFVec3fValue(); } else if (id == "bboxSize") { BBoxSize = parser.ParseSFVec3fValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="center") Center=parser.ParseSFVec3fValue(); else if(id=="info") Info.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="joints") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DHAnimJointNode joint=node as IX3DHAnimJointNode; if(joint==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Joints.Add(joint); } } else if(id=="name") Name=parser.ParseStringValue(); else if(id=="rotation") Rotation=parser.ParseSFRotationValue(); else if(id=="scale") Scale=parser.ParseSFVec3fValue(); else if(id=="scaleOrientation") ScaleOrientation=parser.ParseSFRotationValue(); else if(id=="segments") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DHAnimeSegmentNode segment=node as IX3DHAnimeSegmentNode; if(segment==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Segments.Add(segment); } } else if(id=="sites") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DHAnimSiteNode site=node as IX3DHAnimSiteNode; if(site==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Sites.Add(site); } } else if(id=="skeleton") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { IX3DHAnimHumanoidSkeleton skeleton=node as IX3DHAnimHumanoidSkeleton; if(skeleton==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Skeleton.Add(skeleton); } } else if(id=="skin") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode skin=node as X3DChildNode; if(skin==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Skin.Add(skin); } } else if(id=="skinCoord") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { SkinCoord=node as X3DCoordinateNode; if(SkinCoord==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="skinNormal") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { SkinNormal=node as X3DNormalNode; if(SkinNormal==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="translation") Translation=parser.ParseSFVec3fValue(); else if(id=="version") Version=parser.ParseStringValue(); else if(id=="viewpoints") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DViewpointNode vp=node as X3DViewpointNode; // x3d-Spec specs. x3dHAnimSite change to interface if neccessary if(vp==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Viewpoints.Add(vp); } } else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "fillProperties") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { FillProperties = node as IX3DFillPropertiesNode; if (FillProperties == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "lineProperties") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { LineProperties = node as IX3DLinePropertiesNode; if (LineProperties == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "material") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Material = node as X3DMaterialNode; if (Material == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "shaders") { List <X3DNode> nodes = parser.ParseSFNodeOrMFNodeValue(); foreach (X3DNode node in nodes) { X3DShaderNode sn = node as X3DShaderNode; if (sn == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } else { Shaders.Add(sn); } } } else if (id == "texture") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Texture = node as X3DTextureNode; if (Texture == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "textureTransform") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TextureTransform = node as X3DTextureTransformNode; if (TextureTransform == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="address") Address=parser.ParseStringValue(); else if(id=="applicationID") ApplicationID=parser.ParseIntValue(); else if(id=="articulationParameterCount") ArticulationParameterCount=parser.ParseIntValue(); else if(id=="articulationParameterDesignatorArray") ArticulationParameterDesignatorArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); else if(id=="articulationParameterChangeIndicatorArray") ArticulationParameterChangeIndicatorArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); else if(id=="articulationParameterIdPartAttachedToArray") ArticulationParameterIdPartAttachedToArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); else if(id=="articulationParameterTypeArray") ArticulationParameterTypeArray.AddRange(parser.ParseSFInt32OrMFInt32Value()); else if(id=="articulationParameterArray") ArticulationParameterArray.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="center") Center=parser.ParseSFVec3fValue(); else if(id=="children") { List<X3DNode> nodes=parser.ParseSFNodeOrMFNodeValue(); foreach(X3DNode node in nodes) { X3DChildNode child=node as X3DChildNode; if(child==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); else Children.Add(child); } } else if(id=="collisionType") CollisionType=parser.ParseIntValue(); else if(id=="deadReckoning") DeadReckoning=parser.ParseIntValue(); else if(id=="detonationLocation") DetonationLocation=parser.ParseSFVec3fValue(); else if(id=="detonationRelativeLocation") DetonationRelativeLocation=parser.ParseSFVec3fValue(); else if(id=="detonationResult") DetonationResult=parser.ParseIntValue(); else if(id=="enabled") Enabled=parser.ParseBoolValue(); else if(id=="entityCategory") EntityCategory=parser.ParseIntValue(); else if(id=="entityCountry") EntityCountry=parser.ParseIntValue(); else if(id=="entityDomain") EntityDomain=parser.ParseIntValue(); else if(id=="entityExtra") EntityExtra=parser.ParseIntValue(); else if(id=="entityID") EntityID=parser.ParseIntValue(); else if(id=="entityKind") EntityKind=parser.ParseIntValue(); else if(id=="entitySpecific") EntitySpecific=parser.ParseIntValue(); else if(id=="entitySubCategory") EntitySubCategory=parser.ParseIntValue(); else if(id=="eventApplicationID") EventApplicationID=parser.ParseIntValue(); else if(id=="eventEntityID") EventEntityID=parser.ParseIntValue(); else if(id=="eventNumber") EventNumber=parser.ParseIntValue(); else if(id=="eventSiteID") EventSiteID=parser.ParseIntValue(); else if(id=="fired1") Fired1=parser.ParseBoolValue(); else if(id=="fired2") Fired2=parser.ParseBoolValue(); else if(id=="fireMissionIndex") FireMissionIndex=parser.ParseIntValue(); else if(id=="firingRange") FiringRange=parser.ParseDoubleValue(); else if(id=="firingRate") FiringRate=parser.ParseIntValue(); else if(id=="forceID") ForceID=parser.ParseIntValue(); else if(id=="fuse") Fuse=parser.ParseIntValue(); else if(id=="linearVelocity") LinearVelocity=parser.ParseSFVec3fValue(); else if(id=="linearAcceleration") LinearAcceleration=parser.ParseSFVec3fValue(); else if(id=="marking") Marking=parser.ParseStringValue(); else if(id=="multicastRelayHost") MulticastRelayHost=parser.ParseStringValue(); else if(id=="multicastRelayPort") MulticastRelayPort=parser.ParseIntValue(); else if(id=="munitionApplicationID") MunitionApplicationID=parser.ParseIntValue(); else if(id=="munitionEndPoint") MunitionEndPoint=parser.ParseSFVec3fValue(); else if(id=="munitionEntityID") MunitionEntityID=parser.ParseIntValue(); else if(id=="munitionQuantity") MunitionQuantity=parser.ParseIntValue(); else if(id=="munitionSiteID") MunitionSiteID=parser.ParseIntValue(); else if(id=="munitionStartPoint") MunitionStartPoint=parser.ParseSFVec3fValue(); else if(id=="networkMode") NetworkMode=parser.ParseStringValue(); else if(id=="port") Port=parser.ParseIntValue(); else if(id=="readInterval") ReadInterval=parser.ParseDoubleValue(); else if(id=="rotation") Rotation=parser.ParseSFRotationValue(); else if(id=="scale") Scale=parser.ParseSFVec3fValue(); else if(id=="scaleOrientation") ScaleOrientation=parser.ParseSFRotationValue(); else if(id=="siteID") SiteID=parser.ParseIntValue(); else if(id=="translation") Translation=parser.ParseSFVec3fValue(); else if(id=="warhead") Warhead=parser.ParseIntValue(); else if(id=="writeInterval") WriteInterval=parser.ParseDoubleValue(); else if(id=="bboxCenter") BBoxCenter=parser.ParseSFVec3fValue(); else if(id=="bboxSize") BBoxSize=parser.ParseSFVec3fValue(); else if(id=="rtpHeaderExpected") RtpHeaderExpected=parser.ParseBoolValue(); else return false; return true; }