# AxisFree

trait AxisFree extends GeomElem

This is a trait for geometric elements, GeomElems, that don't need special axes method implementations.

trait GeomElem
class Object
trait Matchable
class Any

## Type members

### Types

type ThisT <: AxisFree

## Value members

### Abstract methods

override def reflect(lineLike: LineLike): ThisT
Definition Classes
override def rotate(angle: AngleVec): ThisT
Definition Classes

### Concrete methods

override def negX
Definition Classes
override def negY
Definition Classes
override def rotate180
Definition Classes
override def rotate270
Definition Classes
override def rotate90
Definition Classes

### Inherited methods

2D Transformation using a ProlignMatrix. The return type will be narrowed in sub classes / traits.

2D Transformation using a ProlignMatrix. The return type will be narrowed in sub classes / traits.

Inherited from
GeomElem
def scale(operand: Double): GeomElem

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.

Inherited from
GeomElem
def scaleXY(xOperand: Double, yOperand: Double): GeomElem

Scaling X and Y axes independently, 2D geometric transformation on this GeomElem, returns a new GeomElem. This allows different scaling factors across X and Y dimensions. The return type will be narrowed in sub classes 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 GeomElem, returns a new GeomElem. This allows different scaling factors across X and Y dimensions. The return type will be narrowed in sub classes and traits. This is an affine transformation but it is not a similar transformation.

Inherited from
GeomElem
def shearX(operand: Double): GeomElem

Shear 2D geometric transformation along the X Axis on a GeomElem. The return type will be narrowed in sub classes and traits. This is an affine transformation but it is not a similar transformation.

Shear 2D geometric transformation along the X Axis on a GeomElem. The return type will be narrowed in sub classes and traits. This is an affine transformation but it is not a similar transformation.

Inherited from
GeomElem
def shearY(operand: Double): GeomElem

Shear 2D geometric transformation along the Y Axis on a GeomElem. The return type will be narrowed in sub classes 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 sub classes and traits. This is an affine transformation but it is not a similar transformation.

Inherited from
GeomElem
def slateXY(xDelta: Double, yDelta: Double): GeomElem

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.

Inherited from
GeomElem