public override IGraphCloneable Clone(CloneContext cloneContext) { DxfAttribute dxfAttribute = (DxfAttribute)cloneContext.GetExistingClone((IGraphCloneable)this); if (dxfAttribute == null) { dxfAttribute = new DxfAttribute(); cloneContext.RegisterClone((IGraphCloneable)this, (IGraphCloneable)dxfAttribute); dxfAttribute.CopyFrom((DxfHandledObject)this, cloneContext); } return((IGraphCloneable)dxfAttribute); }
public void Draw(DxfAttribute attribute) { if (!this.bool_1) { return; } if (this.graphicElementInsert_0.AttributeBlock == null) { this.graphicElementInsert_0.AttributeBlock = new GraphicElementBlock1(this.surface_1.Layer.Color, this.surface_1.ByBlockColor) { Transform = Matrix4D.Identity } } ; attribute.Draw(this.surface_1, this.graphics_0, (IGraphicElementBlock)this.graphicElementInsert_0.AttributeBlock); }
public void ApplyInsertionPointOffsetToAttributes() { Vector3D insertionPoint = (Vector3D)this.insertionPoint; foreach (DxfAttribute dxfAttribute1 in (DxfHandledObjectCollection <DxfAttribute>) this.activeDxfHandledObjectCollection_0) { DxfAttribute dxfAttribute2 = dxfAttribute1; dxfAttribute2.AlignmentPoint1 = dxfAttribute2.AlignmentPoint1 + insertionPoint; if (dxfAttribute1.AlignmentPoint2.HasValue) { DxfAttribute dxfAttribute3 = dxfAttribute1; WW.Math.Point3D?alignmentPoint2 = dxfAttribute3.AlignmentPoint2; Vector3D vector3D = insertionPoint; dxfAttribute3.AlignmentPoint2 = alignmentPoint2.HasValue ? new WW.Math.Point3D?(alignmentPoint2.GetValueOrDefault() + vector3D) : new WW.Math.Point3D?(); } } }
internal void method_0( DxfTableContent tableContent, double width, double height, double rotation, double horizontalMargin, double verticalMargin) { DxfBlock valueObject = this.ValueObject as DxfBlock; if (valueObject == null) { this.dxfContentFormat_0.method_6(1.0); } else { DxfInsert dxfInsert = new DxfInsert(valueObject); foreach (DxfTableAttribute dxfTableAttribute in (List <DxfTableAttribute>) this.dxfTableAttributeCollection_0) { if (dxfTableAttribute.AttributeDefinition != null) { DxfAttribute dxfAttribute1 = new DxfAttribute(dxfTableAttribute.AttributeDefinition); dxfAttribute1.Text = dxfTableAttribute.Value; DxfAttribute dxfAttribute2 = dxfAttribute1; dxfAttribute2.AlignmentPoint1 = dxfAttribute2.AlignmentPoint1 - valueObject.BasePoint; if (dxfAttribute1.AlignmentPoint2.HasValue) { DxfAttribute dxfAttribute3 = dxfAttribute1; WW.Math.Point3D? alignmentPoint2 = dxfAttribute3.AlignmentPoint2; WW.Math.Vector3D basePoint = valueObject.BasePoint; dxfAttribute3.AlignmentPoint2 = alignmentPoint2.HasValue ? new WW.Math.Point3D?(alignmentPoint2.GetValueOrDefault() - basePoint) : new WW.Math.Point3D?(); } } } BoundsCalculator boundsCalculator = new BoundsCalculator(); boundsCalculator.GetBounds(tableContent.Model, (DxfEntity)dxfInsert); Bounds3D bounds = boundsCalculator.Bounds; Matrix4D transform = Transformation4D.Translation(valueObject.BasePoint) * Transformation4D.RotateZ(rotation) * Transformation4D.Translation(-valueObject.BasePoint); bounds.Transform(transform); Vector2D vector2D = new Vector2D((width - 2.0 * horizontalMargin) / bounds.Delta.X, (height - 2.0 * verticalMargin) / bounds.Delta.Y); this.dxfContentFormat_0.BlockScale = System.Math.Min(vector2D.X, vector2D.Y); } }
public DxfAttribute AddAttribute(DxfAttributeDefinition attdef, string text) { DxfAttribute dxfAttribute = new DxfAttribute(attdef, text); this.Attributes.Add(dxfAttribute); if (dxfAttribute.Model == null) { try { dxfAttribute.Style = attdef.Style; } catch (NullReferenceException ex) { throw new DxfException("Cannot create attribute from attribute definition which is not attached to a model!\nDid you already add the attribute definition to a block and the block to the model's Blocks?"); } } WW.Math.Vector3D vector3D = this.Block != null ? this.Block.BasePoint : WW.Math.Vector3D.Zero; dxfAttribute.FixAlignmentPoints(); dxfAttribute.TransformMe((TransformConfig)GraphicsConfig.WhiteBackground, this.BasicBlockInsertionTransformation * Transformation4D.Translation(-vector3D)); return(dxfAttribute); }
internal Bounds3D method_1(DxfTable table) { DxfBlock valueObject = this.ValueObject as DxfBlock; if (valueObject == null) { return((Bounds3D)null); } DxfInsert dxfInsert = new DxfInsert(valueObject); foreach (DxfTableAttribute dxfTableAttribute in (List <DxfTableAttribute>) this.dxfTableAttributeCollection_0) { if (dxfTableAttribute.AttributeDefinition != null) { DxfAttribute dxfAttribute1 = new DxfAttribute(dxfTableAttribute.AttributeDefinition); dxfAttribute1.Text = dxfTableAttribute.Value; DxfAttribute dxfAttribute2 = dxfAttribute1; dxfAttribute2.AlignmentPoint1 = dxfAttribute2.AlignmentPoint1 - valueObject.BasePoint; if (dxfAttribute1.AlignmentPoint2.HasValue) { DxfAttribute dxfAttribute3 = dxfAttribute1; WW.Math.Point3D? alignmentPoint2 = dxfAttribute3.AlignmentPoint2; WW.Math.Vector3D basePoint = valueObject.BasePoint; dxfAttribute3.AlignmentPoint2 = alignmentPoint2.HasValue ? new WW.Math.Point3D?(alignmentPoint2.GetValueOrDefault() - basePoint) : new WW.Math.Point3D?(); } } } BoundsCalculator boundsCalculator = new BoundsCalculator(); boundsCalculator.GetBounds(table.Content.Model, (DxfEntity)dxfInsert); Bounds3D bounds = boundsCalculator.Bounds; Matrix4D transform = Transformation4D.Translation(valueObject.BasePoint) * Transformation4D.RotateZ(this.dxfContentFormat_0.Rotation) * Transformation4D.Translation(-valueObject.BasePoint); bounds.Transform(transform); return(bounds); }
public virtual void Visit(DxfAttribute attribute) { }
private void method_15(object sender, int index, DxfAttribute item) { item.vmethod_2((IDxfHandledObject)this); }
private void method_14(object sender, int index, DxfAttribute oldItem, DxfAttribute newItem) { oldItem.vmethod_2((IDxfHandledObject)null); newItem.vmethod_2((IDxfHandledObject)this); }
public void Draw(DxfAttribute attribute) { attribute.Draw(this.surface_1, this.isurfaceGraphicsFactory_0); }
public void Draw(DxfAttribute attribute) { attribute.Draw(this.wireframe_1, this.iwireframeGraphicsFactory2_0); }
public virtual void Visit(DxfAttribute attribute) { this.VisitEntity((DxfEntity)attribute); }