internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "geoCoords") { GeoCoords = parser.ParseSFVec3fStringValue(); } else if (id == "geoSystem") { if (wasGeoSystem) { GeoSystem.AddRange(parser.ParseSFStringOrMFStringValue()); } else { GeoSystem = parser.ParseSFStringOrMFStringValue(); } wasGeoSystem = true; } else if (id == "rotateYUp") { RotateYUp = parser.ParseBoolValue(); } 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=="geoCenter") GeoCenter=parser.ParseSFVec3fValue(); else if(id=="size") Size=parser.ParseSFVec3fValue(); 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 return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="anchorPoint") AnchorPoint=parser.ParseSFVec3fValue(); else if(id=="body1") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body1=node as IX3DRigidBodyNode; if(Body1==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="body2") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body2=node as IX3DRigidBodyNode; if(Body2==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="forceOutput"||id=="mustOutput") { if(wasForceOutput) ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); else ForceOutput=parser.ParseSFStringOrMFStringValue(); wasForceOutput=true; } 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=="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) { 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) { if (id == "align") { Align = parser.ParseSFStringOrMFStringValue(); } else if (id == "offset") { Offset = parser.ParseSFFloatOrMFFloatValue(); } else if (id == "offsetUnits") { OffsetUnits = parser.ParseSFStringOrMFStringValue(); } else if (id == "scaleMode") { ScaleMode = parser.ParseSFStringOrMFStringValue(); } else if (id == "size") { Size = parser.ParseSFFloatOrMFFloatValue(); } else if (id == "sizeUnits") { SizeUnits = parser.ParseSFStringOrMFStringValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "family") { if (wasFamily) { Family.AddRange(parser.ParseSFStringOrMFStringValue()); } else { Family = parser.ParseSFStringOrMFStringValue(); } wasFamily = true; } else if (id == "horizontal") { Horizontal = parser.ParseBoolValue(); } else if (id == "justify") { if (wasJustify) { Justify.AddRange(parser.ParseSFStringOrMFStringValue()); } else { Justify = parser.ParseSFStringOrMFStringValue(); } wasJustify = true; } else if (id == "language") { Language = parser.ParseStringValue(); } else if (id == "leftToRight") { LeftToRight = parser.ParseBoolValue(); } else if (id == "pointSize") { PointSize = parser.ParseDoubleValue(); } else if (id == "spacing") { Spacing = parser.ParseDoubleValue(); } else if (id == "style") { Style = parser.ParseStringValue(); } else if (id == "topToBottom") { TopToBottom = parser.ParseBoolValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "avatarSize") { if (wasAvatarSize) { AvatarSize.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else { AvatarSize = parser.ParseSFFloatOrMFFloatValue(); } wasAvatarSize = true; } else if (id == "headlight") { Headlight = parser.ParseBoolValue(); } else if (id == "speed") { Speed = parser.ParseDoubleValue(); } else if (id == "transitionTime") { TransitionTime = parser.ParseDoubleValue(); } else if (id == "transitionType") { if (wasTransitionType) { TransitionType.AddRange(parser.ParseSFStringOrMFStringValue()); } else { TransitionType = parser.ParseSFStringOrMFStringValue(); } wasTransitionType = true; } else if (id == "type") { if (wasType) { Type.AddRange(parser.ParseSFStringOrMFStringValue()); } else { Type = parser.ParseSFStringOrMFStringValue(); } wasType = true; } else if (id == "visibilityLimit") { VisibilityLimit = parser.ParseDoubleValue(); } 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=="align") Align=parser.ParseSFStringOrMFStringValue(); else if(id=="offset") Offset=parser.ParseSFFloatOrMFFloatValue(); else if(id=="offsetUnits") OffsetUnits=parser.ParseSFStringOrMFStringValue(); else if(id=="scaleMode") ScaleMode=parser.ParseSFStringOrMFStringValue(); else if(id=="size") Size=parser.ParseSFFloatOrMFFloatValue(); else if(id=="sizeUnits") SizeUnits=parser.ParseSFStringOrMFStringValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="geoCoords") GeoCoords=parser.ParseSFVec3fStringValue(); else if(id=="geoSystem") { if(wasGeoSystem) GeoSystem.AddRange(parser.ParseSFStringOrMFStringValue()); else GeoSystem=parser.ParseSFStringOrMFStringValue(); wasGeoSystem=true; } else if(id=="rotateYUp") RotateYUp=parser.ParseBoolValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "anchorPoint") { AnchorPoint = parser.ParseSFVec3fValue(); } else if (id == "body1") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Body1 = node as IX3DRigidBodyNode; if (Body1 == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "body2") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Body2 = node as IX3DRigidBodyNode; if (Body2 == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "forceOutput" || id == "mustOutput") { if (wasForceOutput) { ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); } else { ForceOutput = parser.ParseSFStringOrMFStringValue(); } wasForceOutput = true; } 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) { if(id=="info") Info.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="title") Title=parser.ParseStringValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "description") { Description = parser.ParseStringValue(); } else if (id == "loop") { Loop = parser.ParseBoolValue(); } else if (id == "pitch") { Pitch = parser.ParseDoubleValue(); } else if (id == "startTime") { StartTime = parser.ParseDoubleValue(); } else if (id == "stopTime") { StopTime = parser.ParseDoubleValue(); } 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=="description") Description=parser.ParseStringValue(); else if(id=="loop") Loop=parser.ParseBoolValue(); else if(id=="pauseTime") PauseTime=parser.ParseDoubleValue(); else if(id=="resumeTime") ResumeTime=parser.ParseDoubleValue(); else if(id=="speed"||id=="pitch") Pitch=parser.ParseDoubleValue(); else if(id=="startTime") StartTime=parser.ParseDoubleValue(); else if(id=="stopTime") StopTime=parser.ParseDoubleValue(); else if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="repeatS") RepeatS=parser.ParseBoolValue(); else if(id=="repeatT") RepeatT=parser.ParseBoolValue(); else if(id=="textureProperties") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { TextureProperties=node as IX3DTexturePropertiesNode; if(TextureProperties==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 == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "repeatS") { RepeatS = parser.ParseBoolValue(); } else if (id == "repeatT") { RepeatT = parser.ParseBoolValue(); } else if (id == "textureProperties") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TextureProperties = node as IX3DTexturePropertiesNode; if (TextureProperties == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="type") Type=parser.ParseStringValue(); 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 == "enabled") { Enabled = parser.ParseBoolValue(); } else if (id == "geoCenter") { GeoCenter = parser.ParseSFVec3fValue(); } else if (id == "size") { Size = parser.ParseSFVec3fValue(); } 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 { 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.ParseSFStringOrMFStringValue()); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="directOutput") DirectOutput=parser.ParseBoolValue(); else if(id=="mustEvaluate") MustEvaluate=parser.ParseBoolValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="anchorPoint") AnchorPoint=parser.ParseSFVec3fValue(); else if(id=="axis1") Axis1=parser.ParseSFVec3fValue(); else if(id=="axis2") Axis2=parser.ParseSFVec3fValue(); else if(id=="body1") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body1=node as IX3DRigidBodyNode; if(Body1==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="body2") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body2=node as IX3DRigidBodyNode; if(Body2==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="desiredAngularVelocity1") DesiredAngularVelocity1=parser.ParseDoubleValue(); else if(id=="desiredAngularVelocity2") DesiredAngularVelocity2=parser.ParseDoubleValue(); else if(id=="forceOutput"||id=="mustOutput") { if(wasForceOutput) ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); else ForceOutput=parser.ParseSFStringOrMFStringValue(); wasForceOutput=true; } else if(id=="maxAngle1") MaxAngle1=parser.ParseDoubleValue(); else if(id=="maxTorque1") MaxTorque1=parser.ParseDoubleValue(); else if(id=="maxTorque2") MaxTorque2=parser.ParseDoubleValue(); else if(id=="minAngle1") MinAngle1=parser.ParseDoubleValue(); else if(id=="stopBounce1") StopBounce1=parser.ParseDoubleValue(); else if(id=="stopConstantForceMix1") StopConstantForceMix1=parser.ParseDoubleValue(); else if(id=="stopErrorCorrection1") StopErrorCorrection1=parser.ParseDoubleValue(); else if(id=="suspensionErrorCorrection") SuspensionErrorCorrection=parser.ParseDoubleValue(); else if(id=="suspensionForce") SuspensionForce=parser.ParseDoubleValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="load") Load=parser.ParseBoolValue(); else if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); 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=="description") Description=parser.ParseStringValue(); else if(id=="loop") Loop=parser.ParseBoolValue(); else if(id=="pitch") Pitch=parser.ParseDoubleValue(); else if(id=="startTime") StartTime=parser.ParseDoubleValue(); else if(id=="stopTime") StopTime=parser.ParseDoubleValue(); else if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); 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=="groundAngle") GroundAngle.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="groundColor") GroundColor.AddRange(parser.ParseSFColorOrMFColorValue()); else if(id=="backUrl") BackUrl.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="bottomUrl") BottomUrl.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="frontUrl") FrontUrl.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="leftUrl") LeftUrl.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="rightUrl") RightUrl.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="topUrl") TopUrl.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="skyAngle") SkyAngle.AddRange(parser.ParseSFFloatOrMFFloatValue()); else if(id=="skyColor") { if(wasSkyColor) SkyColor.AddRange(parser.ParseSFColorOrMFColorValue()); else SkyColor=parser.ParseSFColorOrMFColorValue(); wasSkyColor=true; } else if(id=="transparency") { // since X3D Node Spec and VRML Classic Coding Spec disagree on the fieldType List<double> values=parser.ParseSFFloatOrMFFloatValue(); if(values.Count!=0) Transparency=values[0]; } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="url") URL.AddRange(parser.ParseSFStringOrMFStringValue()); else if(id=="category") Category=parser.ParseIntValue(); else if(id=="country") Country=parser.ParseIntValue(); else if(id=="domain") Domain=parser.ParseIntValue(); else if(id=="extra") Extra=parser.ParseIntValue(); else if(id=="kind") Kind=parser.ParseIntValue(); else if(id=="specific") Specific=parser.ParseIntValue(); else if(id=="subcategory") Subcategory=parser.ParseIntValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line=parser.Line; if(id=="axis") Axis=parser.ParseSFVec3fValue(); else if(id=="body1") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body1=node as IX3DRigidBodyNode; if(Body1==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="body2") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body2=node as IX3DRigidBodyNode; if(Body2==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="forceOutput"||id=="mustOutput") { if(wasForceOutput) ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); else ForceOutput=parser.ParseSFStringOrMFStringValue(); wasForceOutput=true; } else if(id=="maxSeparation") MaxSeparation=parser.ParseDoubleValue(); else if(id=="minSeparation") MinSeparation=parser.ParseDoubleValue(); else if(id=="sliderForce") SliderForce=parser.ParseDoubleValue(); else if(id=="stopBounce") StopBounce=parser.ParseDoubleValue(); else if(id=="stopErrorCorrection") StopErrorCorrection=parser.ParseDoubleValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if(id=="family") { if(wasFamily) Family.AddRange(parser.ParseSFStringOrMFStringValue()); else Family=parser.ParseSFStringOrMFStringValue(); wasFamily=true; } else if(id=="horizontal") Horizontal=parser.ParseBoolValue(); else if(id=="justify") { if(wasJustify) Justify.AddRange(parser.ParseSFStringOrMFStringValue()); else Justify=parser.ParseSFStringOrMFStringValue(); wasJustify=true; } else if(id=="language") Language=parser.ParseStringValue(); else if(id=="leftToRight") LeftToRight=parser.ParseBoolValue(); else if(id=="size") Size=parser.ParseDoubleValue(); else if(id=="spacing") Spacing=parser.ParseDoubleValue(); else if(id=="style") Style=parser.ParseStringValue(); else if(id=="topToBottom") TopToBottom=parser.ParseBoolValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "url") { URL = parser.ParseSFStringOrMFStringValue(); } else if (id == "type") { Type = parser.ParseStringValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "info") { Info.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "title") { Title = parser.ParseStringValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } 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=="url") URL=parser.ParseSFStringOrMFStringValue(); else if(id=="textureProperties") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { TextureProperties=node as IX3DTexturePropertiesNode; if(TextureProperties==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "directOutput") { DirectOutput = parser.ParseBoolValue(); } else if (id == "mustEvaluate") { MustEvaluate = parser.ParseBoolValue(); } 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.ParseSFStringOrMFStringValue()); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "category") { Category = parser.ParseIntValue(); } else if (id == "country") { Country = parser.ParseIntValue(); } else if (id == "domain") { Domain = parser.ParseIntValue(); } else if (id == "extra") { Extra = parser.ParseIntValue(); } else if (id == "kind") { Kind = parser.ParseIntValue(); } else if (id == "specific") { Specific = parser.ParseIntValue(); } else if (id == "subcategory") { Subcategory = parser.ParseIntValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "fontStyle") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { FontStyle = node as X3DFontStyleNode; if (FontStyle == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "length") { Length.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "maxExtent") { MaxExtent = parser.ParseDoubleValue(); } else if (id == "string") { String.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "solid") { Solid = parser.ParseBoolValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "load") { Load = parser.ParseBoolValue(); } else if (id == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } 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.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=="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=="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=="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=="yScale") YScale=parser.ParseDoubleValue(); else if(id=="ccw") CCW=parser.ParseBoolValue(); else if(id=="colorPerVertex") ColorPerVertex=parser.ParseBoolValue(); else if(id=="creaseAngle") CreaseAngle=parser.ParseDoubleValue(); else if(id=="geoGridOrigin") GeoGridOrigin=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=="height") { if(wasHeight) Height.AddRange(parser.ParseSFFloatOrMFFloatValue()); else Height=parser.ParseSFFloatOrMFFloatValue(); wasHeight=true; } 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.ParseDoubleStringValue(); else if(id=="zDimension") ZDimension=parser.ParseIntValue(); else if(id=="zSpacing") ZSpacing=parser.ParseDoubleStringValue(); else return false; return true; }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "centerOfRotation") { CenterOfRotation = parser.ParseSFVec3fStringValue(); } else if (id == "description") { Description = parser.ParseStringValue(); } else if (id == "fieldOfView") { FieldOfView = parser.ParseDoubleValue(); } else if (id == "headlight") { Headlight = parser.ParseBoolValue(); } else if (id == "jump") { Jump = parser.ParseBoolValue(); } else if (id == "navType") { if (wasNavType) { NavType.AddRange(parser.ParseSFStringOrMFStringValue()); } else { NavType = parser.ParseSFStringOrMFStringValue(); } wasNavType = true; } 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 == "orientation") { Orientation = parser.ParseSFRotationValue(); } else if (id == "position") { Position = parser.ParseSFVec3fStringValue(); } else if (id == "retainUserOffsets") { RetainUserOffsets = parser.ParseBoolValue(); } else if (id == "speedFactor") { SpeedFactor = parser.ParseDoubleValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "appliedParameters") { if (wasAppliedParameters) { AppliedParameters.AddRange(parser.ParseSFStringOrMFStringValue()); } AppliedParameters = parser.ParseSFStringOrMFStringValue(); wasAppliedParameters = true; } else if (id == "bounce") { Bounce = parser.ParseDoubleValue(); } else if (id == "contactNormal") { ContactNormal = parser.ParseSFVec3fValue(); } else if (id == "depth") { Depth = parser.ParseDoubleValue(); } else if (id == "frictionCoefficients") { FrictionCoefficients = parser.ParseSFVec2fValue(); } else if (id == "frictionDirection") { FrictionDirection = parser.ParseSFVec3fValue(); } else if (id == "minbounceSpeed") { MinbounceSpeed = parser.ParseDoubleValue(); } else if (id == "position") { Position = parser.ParseSFVec3fValue(); } else if (id == "slipCoefficients") { SlipCoefficients = 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 == "axis") { Axis = parser.ParseSFVec3fValue(); } else if (id == "body1") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Body1 = node as IX3DRigidBodyNode; if (Body1 == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "body2") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Body2 = node as IX3DRigidBodyNode; if (Body2 == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "forceOutput" || id == "mustOutput") { if (wasForceOutput) { ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); } else { ForceOutput = parser.ParseSFStringOrMFStringValue(); } wasForceOutput = true; } else if (id == "maxSeparation") { MaxSeparation = parser.ParseDoubleValue(); } else if (id == "minSeparation") { MinSeparation = parser.ParseDoubleValue(); } else if (id == "sliderForce") { SliderForce = parser.ParseDoubleValue(); } else if (id == "stopBounce") { StopBounce = parser.ParseDoubleValue(); } else if (id == "stopErrorCorrection") { StopErrorCorrection = parser.ParseDoubleValue(); } 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 == "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 == "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 == "yScale") { YScale = parser.ParseDoubleValue(); } else if (id == "ccw") { CCW = parser.ParseBoolValue(); } else if (id == "colorPerVertex") { ColorPerVertex = parser.ParseBoolValue(); } else if (id == "creaseAngle") { CreaseAngle = parser.ParseDoubleValue(); } else if (id == "geoGridOrigin") { GeoGridOrigin = 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 == "height") { if (wasHeight) { Height.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else { Height = parser.ParseSFFloatOrMFFloatValue(); } wasHeight = true; } 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.ParseDoubleStringValue(); } else if (id == "zDimension") { ZDimension = parser.ParseIntValue(); } else if (id == "zSpacing") { ZSpacing = parser.ParseDoubleStringValue(); } 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 == "axis1Angle") { Axis1Angle = parser.ParseDoubleValue(); } else if (id == "axis1Torque") { Axis1Torque = parser.ParseDoubleValue(); } else if (id == "axis2Angle") { Axis2Angle = parser.ParseDoubleValue(); } else if (id == "axis2Torque") { Axis2Torque = parser.ParseDoubleValue(); } else if (id == "axis3Angle") { Axis3Angle = parser.ParseDoubleValue(); } else if (id == "axis3Torque") { Axis3Torque = parser.ParseDoubleValue(); } else if (id == "body1") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Body1 = node as IX3DRigidBodyNode; if (Body1 == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "body2") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { Body2 = node as IX3DRigidBodyNode; if (Body2 == null) { parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } } else if (id == "enabledAxes") { EnabledAxes = parser.ParseIntValue(); } else if (id == "forceOutput") { if (wasForceOutput) { ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); } else { ForceOutput = parser.ParseSFStringOrMFStringValue(); } wasForceOutput = true; } else if (id == "motor1Axis") { Motor1Axis = parser.ParseSFVec3fValue(); } else if (id == "motor2Axis") { Motor2Axis = parser.ParseSFVec3fValue(); } else if (id == "motor3Axis") { Motor3Axis = parser.ParseSFVec3fValue(); } else if (id == "stop1Bounce") { Stop1Bounce = parser.ParseDoubleValue(); } else if (id == "stop1ErrorCorrection") { Stop1ErrorCorrection = parser.ParseDoubleValue(); } else if (id == "stop2Bounce") { Stop2Bounce = parser.ParseDoubleValue(); } else if (id == "stop2ErrorCorrection") { Stop2ErrorCorrection = parser.ParseDoubleValue(); } else if (id == "stop3Bounce") { Stop3Bounce = parser.ParseDoubleValue(); } else if (id == "stop3ErrorCorrection") { Stop3ErrorCorrection = parser.ParseDoubleValue(); } else if (id == "autoCalc") { AutoCalc = parser.ParseBoolValue(); } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { if (id == "groundAngle") { GroundAngle.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "groundColor") { GroundColor.AddRange(parser.ParseSFColorOrMFColorValue()); } else if (id == "backUrl") { BackUrl.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "bottomUrl") { BottomUrl.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "frontUrl") { FrontUrl.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "leftUrl") { LeftUrl.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "rightUrl") { RightUrl.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "topUrl") { TopUrl.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "skyAngle") { SkyAngle.AddRange(parser.ParseSFFloatOrMFFloatValue()); } else if (id == "skyColor") { if (wasSkyColor) { SkyColor.AddRange(parser.ParseSFColorOrMFColorValue()); } else { SkyColor = parser.ParseSFColorOrMFColorValue(); } wasSkyColor = true; } else if (id == "transparency") { // since X3D Node Spec and VRML Classic Coding Spec disagree on the fieldType List <double> values = parser.ParseSFFloatOrMFFloatValue(); if (values.Count != 0) { Transparency = values[0]; } } else { return(false); } return(true); }
internal override bool ParseNodeBodyElement(string id, VRMLParser parser) { int line = parser.Line; if (id == "description") { Description = parser.ParseStringValue(); } else if (id == "loop") { Loop = parser.ParseBoolValue(); } else if (id == "pauseTime") { PauseTime = parser.ParseDoubleValue(); } else if (id == "resumeTime") { ResumeTime = parser.ParseDoubleValue(); } else if (id == "speed" || id == "pitch") { Pitch = parser.ParseDoubleValue(); } else if (id == "startTime") { StartTime = parser.ParseDoubleValue(); } else if (id == "stopTime") { StopTime = parser.ParseDoubleValue(); } else if (id == "url") { URL.AddRange(parser.ParseSFStringOrMFStringValue()); } else if (id == "repeatS") { RepeatS = parser.ParseBoolValue(); } else if (id == "repeatT") { RepeatT = parser.ParseBoolValue(); } else if (id == "textureProperties") { X3DNode node = parser.ParseSFNodeValue(); if (node != null) { TextureProperties = node as IX3DTexturePropertiesNode; if (TextureProperties == 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=="axis1Angle") Axis1Angle=parser.ParseDoubleValue(); else if(id=="axis1Torque") Axis1Torque=parser.ParseDoubleValue(); else if(id=="axis2Angle") Axis2Angle=parser.ParseDoubleValue(); else if(id=="axis2Torque") Axis2Torque=parser.ParseDoubleValue(); else if(id=="axis3Angle") Axis3Angle=parser.ParseDoubleValue(); else if(id=="axis3Torque") Axis3Torque=parser.ParseDoubleValue(); else if(id=="body1") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body1=node as IX3DRigidBodyNode; if(Body1==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="body2") { X3DNode node=parser.ParseSFNodeValue(); if(node!=null) { Body2=node as IX3DRigidBodyNode; if(Body2==null) parser.ErrorParsingNode(VRMLReaderError.UnexpectedNodeType, this, id, node, line); } } else if(id=="enabledAxes") EnabledAxes=parser.ParseIntValue(); else if(id=="forceOutput") { if(wasForceOutput) ForceOutput.AddRange(parser.ParseSFStringOrMFStringValue()); else ForceOutput=parser.ParseSFStringOrMFStringValue(); wasForceOutput=true; } else if(id=="motor1Axis") Motor1Axis=parser.ParseSFVec3fValue(); else if(id=="motor2Axis") Motor2Axis=parser.ParseSFVec3fValue(); else if(id=="motor3Axis") Motor3Axis=parser.ParseSFVec3fValue(); else if(id=="stop1Bounce") Stop1Bounce=parser.ParseDoubleValue(); else if(id=="stop1ErrorCorrection") Stop1ErrorCorrection=parser.ParseDoubleValue(); else if(id=="stop2Bounce") Stop2Bounce=parser.ParseDoubleValue(); else if(id=="stop2ErrorCorrection") Stop2ErrorCorrection=parser.ParseDoubleValue(); else if(id=="stop3Bounce") Stop3Bounce=parser.ParseDoubleValue(); else if(id=="stop3ErrorCorrection") Stop3ErrorCorrection=parser.ParseDoubleValue(); else if(id=="autoCalc") AutoCalc=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); }