A Polygon based graphic. If you just want a general polygon as opposed to specifically specified Polygons such as Rectangle, Square or Triangle use the implementation class PolygonCompound.
Attributes
- Companion
- object
- Graph
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- Supertypes
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trait ShapeGraphictrait GraphicBoundedtrait BoundedElemtrait Graphic2Elemtrait Axlign2Elemclass Objecttrait Matchableclass AnyShow all
- Known subtypes
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trait PolygonCompoundclass PolygonCompoundGentrait QuadCompoundclass QuadCompoundGentrait RectangleCompoundtrait RectCompoundclass RectCompoundImpobject GridGraphic1class RectangleCompoundImptrait PolygonGraphicSimpleclass PolygonActivetrait PolygonDrawclass PolygonDrawGentrait RectangleDrawtrait RectDrawclass RectDrawImpclass RectangleDrawImptrait PolygonFillclass PolygonFillGentrait RectangleFilltrait RectFillclass RectFillImpclass SqlignFillclass RectangleFillGentrait SquareFillclass SquareFillGenclass TriangleFilltrait RectangleGraphicSimpletrait RectGraphicSimpletrait SqlignGraphicSimpletrait SquareGraphicSimpletrait TriangleGraphicSimpletrait QuadGraphictrait RectangleGraphictrait RectGraphictrait SqlignGraphicclass SqlignCompoundtrait SquareGraphictrait TriangleGraphicShow all
Members list
Value members
Abstract methods
Mirror, reflection 2D geometric transformation across the Y axis by negating X. The return type will be narrowed in sub traits / classes.
Mirror, reflection 2D geometric transformation across the Y axis by negating X. The return type will be narrowed in sub traits / classes.
Attributes
- Definition Classes
Mirror, reflection 2D geometric transformation across the X axis by negating y. The return type will be narrowed in sub traits / classes.
Mirror, reflection 2D geometric transformation across the X axis by negating y. The return type will be narrowed in sub traits / classes.
Attributes
- Definition Classes
2D Transformation using a AxlignMatrix. The return type will be narrowed in subclasses / traits.
2D Transformation using a AxlignMatrix. The return type will be narrowed in subclasses / traits.
Attributes
- Definition Classes
Rotation of 180 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
Rotation of 180 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
Attributes
- Definition Classes
Rotation positive or anti-clockwise 270 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
Rotation positive or anti-clockwise 270 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
Attributes
- Definition Classes
Rotation positive or anti-clockwise 90 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
Rotation positive or anti-clockwise 90 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
Attributes
- Definition Classes
Uniform 2D geometric scaling transformation. The scale name was chosen for this operation as it is normally the desired operation and preserves Circles and Squares. Use the xyScale method for differential scaling. The Return type will be narrowed in sub traits / classes.
Uniform 2D geometric scaling transformation. The scale name was chosen for this operation as it is normally the desired operation and preserves Circles and Squares. Use the xyScale method for differential scaling. The Return type will be narrowed in sub traits / classes.
Attributes
- Definition Classes
Attributes
- Definition Classes
Translate 2D geometric transformation, taking the xOffset and yOffset as parameters on this GeomElem returning a GeomElem. The Return type will be narrowed in sub traits. End users will often want to use the slate method taking a Pt2 or Vec2 as a parameter, the slateX or the slateY methods. These methods will be offered as extension methods using this method for their implementations.
Translate 2D geometric transformation, taking the xOffset and yOffset as parameters on this GeomElem returning a GeomElem. The Return type will be narrowed in sub traits. End users will often want to use the slate method taking a Pt2 or Vec2 as a parameter, the slateX or the slateY methods. These methods will be offered as extension methods using this method for their implementations.
Attributes
- Definition Classes
Translate 2D geometric transformation, taking the xOffset and yOffset as parameters on this GeomElem returning a GeomElem. The Return type will be narrowed in sub traits. End users will often want to use the slate method taking a Pt2 or Vec2 as a parameter, the slateX or the slateY methods. These methods will be offered as extension methods using this method for their implementations.
Translate 2D geometric transformation, taking the xOffset and yOffset as parameters on this GeomElem returning a GeomElem. The Return type will be narrowed in sub traits. End users will often want to use the slate method taking a Pt2 or Vec2 as a parameter, the slateX or the slateY methods. These methods will be offered as extension methods using this method for their implementations.
Attributes
- Definition Classes
Translate 2D geometric transformation in the X dimension, returning a GeomElem. The Return type will be narrowed in sub traits.
Translate 2D geometric transformation in the X dimension, returning a GeomElem. The Return type will be narrowed in sub traits.
Attributes
- Definition Classes
Translate 2D geometric transformation in the Y dimension, returning a GeomElem. The Return type will be narrowed in sub traits.
Translate 2D geometric transformation in the Y dimension, returning a GeomElem. The Return type will be narrowed in sub traits.
Attributes
- Definition Classes
Concrete methods
Inherited methods
Attributes
- Inherited from:
- BoundedElem
Attributes
- Inherited from:
- BoundedElem
Attributes
- Inherited from:
- BoundedElem
The centre of the bounding rectangle. consider also using cenDefault.
The centre of the bounding rectangle. consider also using cenDefault.
Attributes
- Inherited from:
- BoundedElem
The height of the BoundingRect of this object.
The height of the BoundingRect of this object.
Attributes
- Definition Classes
- Inherited from:
- ShapeGraphic
The bounding Rectangle provides an initial exclusion test, as to whether the pointer is inside the polygon / shape
The bounding Rectangle provides an initial exclusion test, as to whether the pointer is inside the polygon / shape
Attributes
- Definition Classes
- Inherited from:
- ShapeGraphic
The width of the BoundingRect of this object.
The width of the BoundingRect of this object.
Attributes
- Definition Classes
- Inherited from:
- ShapeGraphic
Attributes
- Inherited from:
- BoundedElem
If the geometric element has a defined centre then the cenDefault uses that, else it defaults to the centre of the bounding rectangle.
If the geometric element has a defined centre then the cenDefault uses that, else it defaults to the centre of the bounding rectangle.
Attributes
- Inherited from:
- BoundedElem
Attributes
- Inherited from:
- ShapeGraphic
Attributes
- Inherited from:
- ShapeGraphic
Attributes
- Inherited from:
- BoundedElem
Inherited and Abstract methods
Attributes
- Inherited from:
- ShapeGraphic
Renders this functional immutable GraphicElem, using the imperative methods of the abstract pCanv.CanvasPlatform interface.
Renders this functional immutable GraphicElem, using the imperative methods of the abstract pCanv.CanvasPlatform interface.
Attributes
- Inherited from:
- Graphic2Elem
Attributes
- Inherited from:
- Graphic2Elem
Attributes
- Inherited from:
- ShapeGraphic