CircleRebarGroup Class |
The CircleRebarGroup class represents a group of reinforcing bars which have a circular shape.
Inheritance Hierarchy
SystemObject
Tekla.Structures.ModelObject
Tekla.Structures.ModelModelObject
Tekla.Structures.ModelReinforcement
Tekla.Structures.ModelBaseRebarGroup
Tekla.Structures.ModelCircleRebarGroup
Tekla.Structures.ModelObject
Tekla.Structures.ModelModelObject
Tekla.Structures.ModelReinforcement
Tekla.Structures.ModelBaseRebarGroup
Tekla.Structures.ModelCircleRebarGroup
Namespace: Tekla.Structures.Model
Assembly: Tekla.Structures.Model (in Tekla.Structures.Model.dll) Version: 2023.0.3
Syntax
The CircleRebarGroup type exposes the following members.
Constructors
Name | Description | |
---|---|---|
CircleRebarGroup |
Initializes a new circle rebar group instance with empty attributes.
|
Properties
Name | Description | |
---|---|---|
Class |
Gets or sets the class of the reinforcement. The class is used to group reinforcements.
(Inherited from Reinforcement.) | |
EndFromPlaneOffset |
The end offset value from the part surface.
(Inherited from BaseRebarGroup.) | |
EndHook |
The hook at the end of the reinforcing bar.
(Inherited from BaseRebarGroup.) | |
EndPoint |
The end point of the direction in which the bars are distributed.
(Inherited from BaseRebarGroup.) | |
EndPointOffsetType |
Gets or sets the type of the end point offset. The options are:
(Inherited from Reinforcement.)
| |
EndPointOffsetValue |
Gets or sets the concrete cover thickness or leg length at the second end of the bar.
(Inherited from Reinforcement.) | |
ExcludeType |
Defines which bars to omit from the group. The options are:
(Inherited from BaseRebarGroup.)
| |
Father |
Gets or sets the father object of the reinforcement; the model object instance to operate on.
(Inherited from Reinforcement.) | |
FromPlaneOffset |
The offset value from the part surface applied in both sides.
(Inherited from BaseRebarGroup.) | |
Grade |
Gets or sets the steel grade of the reinforcing bar.
The grade indicates the strength of the steel used in reinforcing bars.
It can also indicate other factors, such as the weldability or surface deformations of the bar.
(Inherited from Reinforcement.) | |
Identifier |
The identifier of the object.
(Inherited from Object.) | |
InputPointDeformingState |
Gets or sets the reinforcement input point deforming state.
(Inherited from Reinforcement.) | |
IsUpToDate | Gets if the object does not have a modification which is not shared. (Inherited from ModelObject.) | |
ModificationTime | Gets latest time of the object was modified or created. (Inherited from ModelObject.) | |
Name |
Gets or sets the name of the reinforcement.
(Inherited from Reinforcement.) | |
NumberingSeries |
Gets or sets the numbering series of the reinforcement.
(Inherited from Reinforcement.) | |
OnPlaneOffsets |
Gets or sets the double offset value for each leg on the same plane as the bar.
(Inherited from Reinforcement.) | |
Polygon |
A polygon definition for the circle reinforcing bar group shape. The polygon must have 3 points.
| |
RadiusValues |
Gets or sets the radius value(s) of the bends in the bar.
(Inherited from Reinforcement.) | |
Size |
The size of the reinforcement.
(Inherited from BaseRebarGroup.) | |
Spacings |
The spacing value(s).
If the type of the spacing is SPACING_TYPE_EXACT_NUMBER
Spacings has only one value that defines the number of the reinforcing bars.
(Inherited from BaseRebarGroup.) | |
SpacingType |
The type of spacing. The options are (BaseRebarGroup.RebarGroupSpacingTypeEnum.):
(Inherited from BaseRebarGroup.)
| |
StartFromPlaneOffset |
The start offset value from the part surface.
(Inherited from BaseRebarGroup.) | |
StartHook |
The hook at the beginning of the reinforcing bar.
(Inherited from BaseRebarGroup.) | |
StartPoint |
The start point of the direction in which the bars are distributed.
(Inherited from BaseRebarGroup.) | |
StartPointOffsetType |
Gets or sets the type of the start point offset is either OFFSET_TYPE_LEG_LENGTH or OFFSET_TYPE_COVER_THICKNESS.
(Inherited from Reinforcement.) | |
StartPointOffsetValue |
Gets or sets the concrete cover thickness or leg length at the first end of the bar.
(Inherited from Reinforcement.) | |
StirrupType |
The type of the stirrup.
The options are:
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Methods
Name | Description | |
---|---|---|
CompareTo |
Compares Identifiers of model objects.
(Inherited from ModelObject.) | |
Delete |
Deletes the circle rebar group instance with the given identifier from the model database.
(Overrides ModelObjectDelete.) | |
Equals |
Check if Identifiers of model objects are same.
(Inherited from ModelObject.) | |
GetAllReportProperties |
Retrieves all properties for the model object in one hashtable.
Type for the returned value must be checked using type casting.
(Inherited from ModelObject.) | |
GetAllUserProperties |
Retrieves all properties for the model object in one hashtable.
Type for the returned value must be checked using type casting.
(Inherited from ModelObject.) | |
GetAssembly |
Returns the assembly that the reinforcement belongs to.
(Inherited from Reinforcement.) | |
GetChildren |
Returns an enumerator of all the children model objects.
(Inherited from ModelObject.) | |
GetCoordinateSystem |
Returns the coordinate system for the given model object.
(Inherited from ModelObject.) | |
GetDoubleReportProperties |
Retrieves multiple double report properties for the model object. It is faster
to fetch multiple properties at once.
(Inherited from ModelObject.) | |
GetDoubleUserProperties |
Retrieves all double properties for the model object.
(Inherited from ModelObject.) | |
GetDynamicStringProperty |
Gets a dynamic string property from the model object.
(Inherited from ModelObject.) | |
GetFatherComponent |
Returns the father component of the model object.
(Inherited from ModelObject.) | |
GetFatherPour |
Returns the pour that the rebar is associated to.
(Inherited from Reinforcement.) | |
GetFatherPourUnit |
Returns the pour unit that the rebar is associated to.
(Inherited from Reinforcement.) | |
GetHierarchicObjects |
Returns an enumerator of all the connected hierarchic objects.
(Inherited from ModelObject.) | |
GetIntegerReportProperties |
Retrieves multiple integer report properties for the model object. It is faster
to fetch multiple properties at once.
(Inherited from ModelObject.) | |
GetIntegerUserProperties |
Retrieves all integer properties for the model object.
(Inherited from ModelObject.) | |
GetNumberOfRebars |
Returns the number of rebars in the reinforcing group.
(Inherited from Reinforcement.) | |
GetPhase |
Retrieves the phase of the model object (the phase number, the phase name,
the phase comment and whether the phase is the current one or not).
(Inherited from ModelObject.) | |
GetRebarComplexGeometries(Boolean, Boolean, Boolean) |
Retrieves a list of physical reinforcing bars (of type RebarComplexGeometry).
These objects contain physical curves in the 3D space of each reinforcing bar as shown in model view.
RebarComplexGeometry only differs from RebarGeometry by containing a polycurve rather than a polyline.
(Inherited from Reinforcement.) | |
GetRebarComplexGeometries(Boolean, Boolean, Boolean, ReinforcementRebarGeometrySimplificationTypeEnum) |
Retrieves a list of physical reinforcing bars (of type RebarComplexGeometry).
These objects contain physical curves in the 3D space of each reinforcing bar as shown in model view.
RebarComplexGeometry only differs from RebarGeometry by containing
a polycurve (of Arc and LineSegment objects) rather than a polyline.
The polycurve only contains arcs if the "simplified" parameter is RATIONALIZED or FABRICATION.
If "simplified" is NONE, any arcs will be returned as a series of line segments.
(Inherited from Reinforcement.) | |
GetRebarGeometries(Boolean) |
Retrieves a list of physical reinforcing bars (of type RebarGeometry).
These objects contain physical points in the 3D space of each reinforcing bar.
(Inherited from Reinforcement.) | |
GetRebarGeometries(ReinforcementRebarGeometryOptionEnum) |
Retrieves a list of physical reinforcing bars (of type RebarGeometry).
These objects contain physical points in the 3D space of each reinforcing bar.
(Inherited from Reinforcement.) | |
GetRebarGeometriesWithoutClashes |
Retrieves a list of physical reinforcing bars (of type RebarGeometry).
These objects contain physical points in the 3D space of each reinforcing bar as shown in model view.
In case rebar polygon clashes with itself, physical points are moved to avoid clashing.
(Inherited from Reinforcement.) | |
GetReportProperty(String, Double) |
Retrieves a double property of the report for the model object.
(Inherited from ModelObject.) | |
GetReportProperty(String, Int32) |
Retrieves an integer property of the report for the model object.
(Inherited from ModelObject.) | |
GetReportProperty(String, String) |
Retrieves a string property of the report for the model object.
(Inherited from ModelObject.) | |
GetSingleRebar |
Returns a single rebar inside the rebar group located by the given index.
The indexing starts from the start point. The rebar represents a physical reinforcing bar
and contains physical points in the 3D space of the bar.
The method returns null on error, for example if given an erroneous index.
The number of rebars in the group can be requested with GetNumberOfRebars().
(Inherited from Reinforcement.) | |
GetSingleRebarWithoutClash |
Returns a single rebar inside the rebar group located by the given index.
The indexing starts from the start point. The rebar represents a physical reinforcing bar
and contains physical, non-clashing points in the 3D space of the bar.
The method returns null on error, for example if given an erroneous index.
The number of rebars in the group can be requested with GetNumberOfRebars().
(Inherited from Reinforcement.) | |
GetSolid |
Method for getting the solid information of the reinforcement.
(Inherited from Reinforcement.) | |
GetStringReportProperties |
Retrieves multiple string report properties for the model object. It is faster
to fetch multiple properties at once.
(Inherited from ModelObject.) | |
GetStringUserProperties |
Retrieves all string properties for the model object.
(Inherited from ModelObject.) | |
GetUserProperty(String, Double) |
Retrieves a double property for the model object.
(Inherited from ModelObject.) | |
GetUserProperty(String, Int32) |
Retrieves an integer property for the model object.
(Inherited from ModelObject.) | |
GetUserProperty(String, String) |
Retrieves a string property for the model object.
(Inherited from ModelObject.) | |
Insert |
Inserts the circle rebar group into the model database. All the attributes must be set.
(Overrides ModelObjectInsert.) | |
IsGeometryValid |
Tells whether the geometry of a reinforcement object is valid or not.
(Inherited from Reinforcement.) | |
Modify |
Modifies the existing circle rebar group in the model database to match the current one.
(Overrides ModelObjectModify.) | |
Select |
Selects a circle rebar group from the model database. The identifier of the circle rebar group must be set.
(Overrides ModelObjectSelect.) | |
SetDynamicStringProperty |
Sets a dynamic string property for the model object.
(Inherited from ModelObject.) | |
SetLabel |
Sets a label for an object when a new instance is created, this method must be called before Insert.
The label is used in plug-ins for identifying the changed object in modification.
(Inherited from ModelObject.) | |
SetPhase |
Sets the phase of the model object.
(Inherited from ModelObject.) | |
SetUserProperties |
Sets multiple properties for the model object.
(Inherited from ModelObject.) | |
SetUserProperty(String, Double) |
Sets a double property for the model object.
(Inherited from ModelObject.) | |
SetUserProperty(String, Int32) |
Sets an integer property for the model object.
(Inherited from ModelObject.) | |
SetUserProperty(String, String) |
Sets a string property for the model object.
(Inherited from ModelObject.) |
Examples
using Tekla.Structures.Model; using Tekla.Structures.Geometry3d; public class Example { public void Example1() { Beam Beam = new Beam(new Point(5000, 8000, 0), new Point(6000, 8000, 0)); Beam.Profile.ProfileString = "250*250"; Beam.Material.MaterialString = "K40-1"; Beam.Finish = "PAINT"; Beam.Insert(); double MinimumX = Beam.GetSolid().MinimumPoint.X; double MinimumY = Beam.GetSolid().MinimumPoint.Y; double MinimumZ = Beam.GetSolid().MinimumPoint.Z; double MaximumX = Beam.GetSolid().MaximumPoint.X; double MaximumY = Beam.GetSolid().MaximumPoint.Y; double MaximumZ = Beam.GetSolid().MaximumPoint.Z; CircleRebarGroup CircleRebarGroup = new CircleRebarGroup(); CircleRebarGroup.Polygon.Points.Add(new Point(MinimumX, MaximumY, MinimumZ)); CircleRebarGroup.Polygon.Points.Add(new Point(MinimumX, MinimumY, MinimumZ)); CircleRebarGroup.Polygon.Points.Add(new Point(MinimumX, MinimumY, MaximumZ)); CircleRebarGroup.StartPoint = new Point(MinimumX, MaximumY, MinimumZ); CircleRebarGroup.EndPoint = new Point(MaximumX, MaximumY, MinimumZ); CircleRebarGroup.Father = Beam; CircleRebarGroup.RadiusValues.Add(40.0); CircleRebarGroup.SpacingType = BaseRebarGroup.RebarGroupSpacingTypeEnum.SPACING_TYPE_EXACT_SPACINGS; CircleRebarGroup.Spacings.Add(300); CircleRebarGroup.ExcludeType = BaseRebarGroup.ExcludeTypeEnum.EXCLUDE_TYPE_NONE; CircleRebarGroup.Name = "RebarGroup"; CircleRebarGroup.Class = 3; CircleRebarGroup.Size = "10"; CircleRebarGroup.NumberingSeries.StartNumber = 0; CircleRebarGroup.NumberingSeries.Prefix = "Group"; CircleRebarGroup.Grade = "A500HW"; CircleRebarGroup.StirrupType = CircleRebarGroup.CircleRebarGroupStirrupTypeEnum.STIRRUP_TYPE_CIRCLE; CircleRebarGroup.Insert(); } }
See Also