ShapeOrdinaled
A Shape where the Ordinal edge points, the cardinal edge points and the centre are defined. This includes Rects, Circles, aligned ellipses and curved Rects.
Attributes
- Graph
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- Supertypes
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trait OrdinaledElemtrait OrdinalEdgePointstrait CentredElemtrait WithCentretrait Shapetrait BoundedElemtrait Fillabletrait Drawabletrait Aff2Elemtrait Simil2Elemtrait Axlign2Elemclass Objecttrait Matchableclass AnyShow all
- Known subtypes
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trait Rectobject NoBoundstrait PhiRectclass PhiRectHighclass PhiRectWideclass RectGenclass SqlignShow all
Members list
Value members
Inherited methods
Attributes
- Inherited from:
- BoundedElem
Attributes
- Inherited from:
- OrdinalEdgePoints
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 width of the BoundingRect of this object.
Attributes
- Inherited from:
- BoundedElem
Attributes
- Inherited from:
- OrdinalEdgePoints
The default centre of this object is the centre. The centre will not change if the object type is capable of being rotated and is rotated.
The default centre of this object is the centre. The centre will not change if the object type is capable of being rotated and is rotated.
Attributes
- Definition Classes
- Inherited from:
- CentredElem
Attributes
- Inherited from:
- BoundedElem
Attributes
- Inherited from:
- OrdinalEdgePoints
Top right offset from centre.
Inherited and Abstract methods
Attributes
- Inherited from:
- OrdinalEdgePoints
Attributes
- Inherited from:
- OrdinalEdgePoints
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
- Inherited from:
- BoundedElem
The centre of this geometric / graphical element. The centre will not change if the object type is capable of being rotated and is rotated. The cenDefault on other bounded elements may move relative to points on the object when the object is rotated.
The centre of this geometric / graphical element. The centre will not change if the object type is capable of being rotated and is rotated. The cenDefault on other bounded elements may move relative to points on the object when the object is rotated.
Attributes
- Inherited from:
- WithCentre
The X component of the centre.
The Y component of the centre.
Attributes
- Inherited from:
- Shape
ShapeCompound graphic with a FillFacet, a TextFacet and a ShapeActive child.
ShapeCompound graphic with a FillFacet, a TextFacet and a ShapeActive child.
Attributes
- Inherited from:
- Shape
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 X axis by negating y. The return type will be narrowed in sub traits / 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
- Inherited from:
- Shape
Reflect 2D geometric transformation across a line, line segment or ray on a GeomElem. The return type will be narrowed in subclasses and traits.
Rotation 2D geometric transformation on 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.
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 90 degrees, 2D geometric transformation on a GeomElem, returns a GeomElem. The return type will be narrowed in subclasses and traits.
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
- Inherited from:
- Shape
Scaling X and Y axes independently, 2D geometric transformation on this Aff2Elem, returns a new Aff2Elem. This allows different scaling factors across X and Y dimensions. The return type will be narrowed in subclasses and traits. This is an affine transformation, but it is not a similar transformation.
Scaling X and Y axes independently, 2D geometric transformation on this Aff2Elem, returns a new Aff2Elem. This allows different scaling factors across X and Y dimensions. The return type will be narrowed in subclasses and traits. This is an affine transformation, but it is not a similar transformation.
Attributes
- Definition Classes
- Inherited from:
- Shape
Shear 2D geometric transformation along the X Axis on a GeomElem. The return type will be narrowed in subclasses and traits. This is an affine transformation, but it is not a similar transformation.
Shear 2D geometric transformation along the Y Axis on a GeomElem. The return type will be narrowed in subclasses and traits. This is an affine transformation, but it is not a similar transformation.
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
- Inherited from:
- Shape
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
- Inherited from:
- Shape
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 Y dimension, returning a GeomElem. The Return type will be narrowed in sub traits.
Attributes
- Inherited from:
- OrdinalEdgePoints
Attributes
- Inherited from:
- OrdinalEdgePoints