# HexReg

trait HexReg extends ShapeCentred with Polygon6Plus with Show

Regular Hexagon

Companion
object
trait Show
trait Polygon
trait Approx[Double]
trait Equals
trait Shape
trait Fillable
trait Drawable
trait GeomElem
class Object
trait Matchable
class Any
class HexRegImp
trait Hexlign
class HexParrX
class HexParrY

## Value members

### Abstract methods

def diameterIn: Double

The diameter of the inner circle of this regular hexagon. The shorter diameter from the centre of a side to the centre of the opposite side.

The diameter of the inner circle of this regular hexagon. The shorter diameter from the centre of a side to the centre of the opposite side.

### Concrete methods

@inline
final def diameterOut: Double

The diameter of the outer circle of this regular hexagon. The longer diameter length from a vertex to the opposite vertex. This lenght is twice the length of the hexagon side.

The diameter of the outer circle of this regular hexagon. The longer diameter length from a vertex to the opposite vertex. This lenght is twice the length of the hexagon side.

override def foreachVert[U](f: Pt2 => U): Unit
Definition Classes
override def foreachVertPairTail[U](f: (Double, Double) => U): Unit
Definition Classes
override def foreachVertTail[U](f: Pt2 => U): Unit
Definition Classes
override def negX

Mirror, reflection transformation of HexReg across the Y axis, returns a HexReg.

Mirror, reflection transformation of HexReg across the Y axis, returns a HexReg.

Definition Classes
override def negY

Mirror, reflection transformation of a HexReg across the X axis, returns a HexReg.

Mirror, reflection transformation of a HexReg across the X axis, returns a HexReg.

Definition Classes
override def prolign(matrix: ProlignMatrix): HexReg

Prolign 2d transformations, similar transformations that retain alignment with the axes.

Prolign 2d transformations, similar transformations that retain alignment with the axes.

Definition Classes
@inline

The radius of the inner circle of this regular hexagon. The shorter radius from the centre of the hexagon to the centre of a side.

The radius of the inner circle of this regular hexagon. The shorter radius from the centre of the hexagon to the centre of a side.

@inline

The radius of the outer circle of this regular hexagon. The longer radius length from the centre of the Hexagon to a vertex. Also the length of the hexagon side.

The radius of the outer circle of this regular hexagon. The longer radius length from the centre of the Hexagon to a vertex. Also the length of the hexagon side.

override def reflect(lineLike: LineLike): HexReg

Reflect 2D geometric transformation across a line, line segment or ray on a HexReg, returns a HexReg. The Return type will be narrowed in sub traits / classes.

Reflect 2D geometric transformation across a line, line segment or ray on a HexReg, returns a HexReg. The Return type will be narrowed in sub traits / classes.

Definition Classes
override def rotate(angle: AngleVec): HexReg
Definition Classes
override def rotate180
Definition Classes
override def rotate270
Definition Classes
override def rotate90
Definition Classes
override def scale(operand: Double): HexReg

Uniform scaling against both X and Y axes transformation on a HexReg returning a HexReg. Use the xyScale method for differential scaling. The return type of this method will be narrowed further in descendant traits / classes.

Uniform scaling against both X and Y axes transformation on a HexReg returning a HexReg. Use the xyScale method for differential scaling. The return type of this method will be narrowed further in descendant traits / classes.

Definition Classes
override def slateXY(xDelta: Double, yDelta: Double): HexReg

Translate geometric transformation on a HexReg returns a HexReg. The return type of this method will be narrowed further in most descendant traits / classes. The exceptions being those classes where the centring of the geometry at the origin is part of the type.

Translate geometric transformation on a HexReg returns a HexReg. The return type of this method will be narrowed further in most descendant traits / classes. The exceptions being those classes where the centring of the geometry at the origin is part of the type.

Definition Classes
override def typeStr: String
Definition Classes
override def vert(index: Int): Pt2
Definition Classes
override def vertsArray: Array[Double]
Definition Classes
override def vertsArrayX: Array[Double]
Definition Classes
override def vertsArrayY: Array[Double]
Definition Classes
final override def vertsNum: Int

A Hexagon has 6 vertices.

A Hexagon has 6 vertices.

Definition Classes
override def xVert(index: Int): Double

Returns the X component of the vertex of the given number. Will throw an exception if the vertex index is out of range.

Returns the X component of the vertex of the given number. Will throw an exception if the vertex index is out of range.

Definition Classes
override def yVert(index: Int): Double

Returns the Y component of the vertex of the given number. Will throw an exception if the vertex index is out of range.

Returns the Y component of the vertex of the given number. Will throw an exception if the vertex index is out of range.

Definition Classes

### Inherited methods

def active(id: Any): PolygonActive
Inherited from
Polygon
def activeChildren(id: Any, children: GraphicElems): PolygonCompound
Inherited from
Polygon
override def approx(that: Any, precision: Double): Boolean
Definition Classes
Inherited from
Polygon
override def attribs: Arr[XANumeric]
Definition Classes
Inherited from
Polygon
Inherited from
BoundedElem
@inline
final def boundCen: Pt2

The centre of the bounding rectangle. consider also using cenDefault.

The centre of the bounding rectangle. consider also using cenDefault.

Inherited from
BoundedElem
def boundingHeight: Double
Inherited from
BoundedElem
override def boundingRect

Currently throws, not sure if that is the correct behaviour. Creates a bounding rectangle for a collection of 2d points

Currently throws, not sure if that is the correct behaviour. Creates a bounding rectangle for a collection of 2d points

Definition Classes
Inherited from
Polygon
def boundingWidth: Double

The width of the BoundingRect of this object.

The width of the BoundingRect of this object.

Inherited from
BoundedElem
Inherited from
BoundedElem
def canEqual(that: Any): Boolean

This canEqual override allow the comparison of Shapes.

This canEqual override allow the comparison of Shapes.

Inherited from
Shape
def cen: Pt2

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.

Inherited from
WithCentre
final override def cenDefault: Pt2

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.

Definition Classes
Inherited from
CentredElem
def cenPt: Pt2

The centre point of this Polygon. The default centre for Polygons is the centre of the bounding rectangle.

The centre point of this Polygon. The default centre for Polygons is the centre of the bounding rectangle.

Inherited from
Polygon
def cenVec: Vec2
Inherited from
Polygon
def cenX: Double

The X component of the centre.

The X component of the centre.

Inherited from
WithCentre
def cenY: Double

The Y component of the centre.

The Y component of the centre.

Inherited from
WithCentre
override def draw(lineColour: Colour, lineWidth: Double): PolygonDraw
Definition Classes
Inherited from
Polygon
def drawActive(lineColour: Colour, lineWidth: Double, pointerID: Any): PolygonCompound
Inherited from
Polygon
override def fill(fillColour: Colour): PolygonFill
Definition Classes
Inherited from
Polygon
def fillActive(fillColour: Colour, pointerID: Any): PolygonCompound
Inherited from
Polygon
def fillActiveDraw(fillColour: Colour, pointerID: Any, lineColour: Colour, lineWidth: Double): PolygonCompound

Creates a PolygonCompound graphic that is active with a simple 1 colour fill and has a draw graphic for the Polygon. The default values for the draw area line width of 2 and a colour of Black.

Creates a PolygonCompound graphic that is active with a simple 1 colour fill and has a draw graphic for the Polygon. The default values for the draw area line width of 2 and a colour of Black.

Inherited from
Polygon
override def fillDraw(fillColour: Colour, lineColour: Colour, lineWidth: Double): PolygonCompound
Definition Classes
Inherited from
Polygon
def fillDrawActive(fillColour: Colour, pointerID: Any, lineWidth: Double, lineColour: Colour): PolygonCompound
Inherited from
Polygon
def fillDrawText(fillColour: Colour, str: String, fontSize: Int, lineColour: Colour, lineWidth: Double): PolygonCompound
Inherited from
Polygon
def fillDrawTextActive(fillColour: Colour, pointerID: Any, str: String, fontSize: Int, lineWidth: Double, lineColour: Colour, align: TextAlign): PolygonCompound
Inherited from
Polygon
override def fillInt(intValue: Int): PolygonFill
Definition Classes
Inherited from
Polygon
def fillText(fillColour: Colour, str: String, fontSize: Int, textColour: Colour, layer: Int): PolygonCompound
Inherited from
Polygon
def fillTextActive(fillColour: Colour, pointerEv: Any, str: String, fontSize: Int, fontColour: Colour, align: TextAlign): PolygonCompound
Inherited from
Polygon
def insVert(insertionPoint: Int, newVec: Pt2): Polygon

Insert vertex.

Insert vertex.

Inherited from
Polygon
def insVerts(insertionPoint: Int, newVecs: Pt2*): Polygon

Insert vertices before the specified insertion vertex.

Insert vertices before the specified insertion vertex.

Inherited from
Polygon
def parentFillText(pointerID: Any, fillColour: Colour, str: String, fontSize: Int, textColour: Colour, align: TextAlign): PolygonCompound
Inherited from
Polygon
@inline
def polygonMap(f: Pt2 => Pt2): Polygon
Inherited from
Polygon
def precisionDefault: Double
Inherited from
Polygon
def ptInside(pt: Pt2): Boolean

Determines if the parameter point lies inside this Polygon.

Determines if the parameter point lies inside this Polygon.

Inherited from
Polygon
override def scaleXY(xOperand: Double, yOperand: Double): Polygon

XY scaling 2D geometric transformation on a Polygon returns a Polygon. This allows different scaling factors across X and Y dimensions. The return type will be narrowed in some, but not all descendant Polygon types.

XY scaling 2D geometric transformation on a Polygon returns a Polygon. This allows different scaling factors across X and Y dimensions. The return type will be narrowed in some, but not all descendant Polygon types.

Definition Classes
Inherited from
Polygon
def sd1

Polygon side 1 from the last vertex to Vertex 1.

Polygon side 1 from the last vertex to Vertex 1.

Inherited from
Polygon3Plus
def sd1Cen: Pt2

The centre or half way point of side 1 of this polygon. Side 1 starts at the vLast vertex and ends at the v1 vertex. This can be thought of as vertex 0.5.

The centre or half way point of side 1 of this polygon. Side 1 starts at the vLast vertex and ends at the v1 vertex. This can be thought of as vertex 0.5.

Inherited from
Polygon3Plus
def sd1CenX: Double

The X component of the centre or half way point of side 1 of this polygon. Side 1 starts at the vLast vertex and ends at the v1 vertex. This can be thought of as vertex 0.5.

The X component of the centre or half way point of side 1 of this polygon. Side 1 starts at the vLast vertex and ends at the v1 vertex. This can be thought of as vertex 0.5.

Inherited from
Polygon3Plus
def sd1CenY: Double

The Y component of the centre or half way point of side 1 of this polygon. Side 1 starts at the vLast vertex and ends at the v1 vertex. This can be thought of as vertex 0.5.

The Y component of the centre or half way point of side 1 of this polygon. Side 1 starts at the vLast vertex and ends at the v1 vertex. This can be thought of as vertex 0.5.

Inherited from
Polygon3Plus
def sd2

Polygon side 2 from vertex 1 to vertex 2.

Polygon side 2 from vertex 1 to vertex 2.

Inherited from
Polygon3Plus
def sd2Cen: Pt2

The centre or half way point of side 2 of this polygon. Side 2 starts at the v1 vertex and ends at the v2 vertex. This can be thought of as vertex 1.5

The centre or half way point of side 2 of this polygon. Side 2 starts at the v1 vertex and ends at the v2 vertex. This can be thought of as vertex 1.5

Inherited from
Polygon3Plus
def sd2CenX: Double

The X component of the centre or half way point of side 2 of this polygon. Side 2 starts at the v1 vertex and ends at the v1 vertex. This can be thought of as vertex 1.5.

The X component of the centre or half way point of side 2 of this polygon. Side 2 starts at the v1 vertex and ends at the v1 vertex. This can be thought of as vertex 1.5.

Inherited from
Polygon3Plus
def sd2CenY: Double

The Y component of the centre or half way point of side 3 of this polygon. Side 2 starts at the v1 vertex and ends at the v2 vertex. This can be thought of as vertex 1.5.

The Y component of the centre or half way point of side 3 of this polygon. Side 2 starts at the v1 vertex and ends at the v2 vertex. This can be thought of as vertex 1.5.

Inherited from
Polygon3Plus
def sd3

Polygon side 3 from v2 to v3.

Polygon side 3 from v2 to v3.

Inherited from
Polygon3Plus
def sd3Cen: Pt2

The centre or half way point of side 3 of this polygon. Side 3 starts at the v2 vertex and ends at the v3 vertex. This can be thought of as vertex 2.5.

The centre or half way point of side 3 of this polygon. Side 3 starts at the v2 vertex and ends at the v3 vertex. This can be thought of as vertex 2.5.

Inherited from
Polygon3Plus
def sd3CenX: Double

The X component of the centre or half way point of side 3 of this polygon. Side 3 starts at the v2 vertex and ends at the v3 vertex. This can be thought of as vertex 2.5.

The X component of the centre or half way point of side 3 of this polygon. Side 3 starts at the v2 vertex and ends at the v3 vertex. This can be thought of as vertex 2.5.

Inherited from
Polygon3Plus
def sd3CenY: Double

The Y component of the centre or half way point of side 3 of this polygon. Side 3 starts at the v2 vertex and ends at the v3 vertex. This can be thought of as vertex 2.5.

The Y component of the centre or half way point of side 3 of this polygon. Side 3 starts at the v2 vertex and ends at the v3 vertex. This can be thought of as vertex 2.5.

Inherited from
Polygon3Plus
def sd4Cen: Pt2

The centre or half way point of side 4 of this polygon. Side 4 starts at the v3 vertex and ends at the v4 vertex. This can be thought of as vertex 3.5.

The centre or half way point of side 4 of this polygon. Side 4 starts at the v3 vertex and ends at the v4 vertex. This can be thought of as vertex 3.5.

Inherited from
Polygon4Plus
def sd4CenX: Double

The X component of the centre or half way point of side 4 of this polygon. Side 4 starts at the v3 vertex and ends at the v4 vertex. This can be thought of as vertex 3.5.

The X component of the centre or half way point of side 4 of this polygon. Side 4 starts at the v3 vertex and ends at the v4 vertex. This can be thought of as vertex 3.5.

Inherited from
Polygon4Plus
def sd4CenY: Double

The Y component of the centre or half way point of side 4 of this polygon. Side 4 starts at the v3 vertex and ends at the v4 vertex. This can be thought of as vertex 3.5.

The Y component of the centre or half way point of side 4 of this polygon. Side 4 starts at the v3 vertex and ends at the v4 vertex. This can be thought of as vertex 3.5.

Inherited from
Polygon4Plus
def sd5Cen: Pt2

The centre or half way point of side 5 of this polygon. Side 5 starts at the v4 vertex and ends at the v5 vertex. This can be thought of as vertex 4.5.

The centre or half way point of side 5 of this polygon. Side 5 starts at the v4 vertex and ends at the v5 vertex. This can be thought of as vertex 4.5.

Inherited from
Polygon5Plus
def sd5CenX: Double

The X component of the centre or half way point of side 5 of this polygon. Side 5 starts at the v4 vertex and ends at the v5 vertex. This can be thought of as vertex 4.5.

The X component of the centre or half way point of side 5 of this polygon. Side 5 starts at the v4 vertex and ends at the v5 vertex. This can be thought of as vertex 4.5.

Inherited from
Polygon5Plus
def sd5CenY: Double

The Y component of the centre or half way point of side 5 of this polygon. Side 5 starts at the v4 vertex and ends at the v5 vertex. This can be thought of as vertex 4.5.

The Y component of the centre or half way point of side 5 of this polygon. Side 5 starts at the v4 vertex and ends at the v5 vertex. This can be thought of as vertex 4.5.

Inherited from
Polygon5Plus
def sd6Cen: Pt2

The centre or half way point of side 6 of this polygon. Side 6 starts at the v5 vertex and ends at the v6 vertex. This can be thought of as vertex 5.5.

The centre or half way point of side 6 of this polygon. Side 6 starts at the v5 vertex and ends at the v6 vertex. This can be thought of as vertex 5.5.

Inherited from
Polygon6Plus
def sd6CenX: Double

The X component of the centre or half way point of side 6 of this polygon. Side 6 starts at the v5 vertex and ends at the v6 vertex. This can be thought of as vertex 5.5.

The X component of the centre or half way point of side 6 of this polygon. Side 6 starts at the v5 vertex and ends at the v6 vertex. This can be thought of as vertex 5.5.

Inherited from
Polygon6Plus
def sd6CenY: Double

The Y component of the centre or half way point of side 6 of this polygon. Side 5 starts at the v5 vertex and ends at the v6 vertex. This can be thought of as vertex 5.5.

The Y component of the centre or half way point of side 6 of this polygon. Side 5 starts at the v5 vertex and ends at the v6 vertex. This can be thought of as vertex 5.5.

Inherited from
Polygon6Plus
override def shearX(operand: Double): Polygon

Shear 2D geometric transformation along the X Axis on a Polygon, returns a Polygon. The return type will be narrowed in some but not all sub classes and traits.

Shear 2D geometric transformation along the X Axis on a Polygon, returns a Polygon. The return type will be narrowed in some but not all sub classes and traits.

Definition Classes
Inherited from
Polygon
override def shearY(operand: Double): Polygon

Shear 2D geometric transformation along the Y Axis on a Polygon, returns a Polygon. The return type will be narrowed in sub classes and traits.

Shear 2D geometric transformation along the Y Axis on a Polygon, returns a Polygon. The return type will be narrowed in sub classes and traits.

Definition Classes
Inherited from
Polygon
def show(way: Way, maxPlaces: Int, minPlaces: Int): String

Intended to be a multiple parameter comprehensive Show method. Intended to be paralleled by showT method on ShowT type class instances.

Intended to be a multiple parameter comprehensive Show method. Intended to be paralleled by showT method on ShowT type class instances.

Inherited from
Show
@inline
def side(index: Int): LineSeg
Inherited from
Polygon
def sideForeach(f: LineSeg => Unit): Unit

foreachs over the sides or edges of the Polygon These are of type LineSeg.

foreachs over the sides or edges of the Polygon These are of type LineSeg.

Inherited from
Polygon
def sideIForeach(initCount: Int)(f: (LineSeg, Int) => Unit): Unit

foreachs over the sides or edges of the Polygon These are of type LineSeg.

foreachs over the sides or edges of the Polygon These are of type LineSeg.

Inherited from
Polygon
def sidesIFlatMap[AA <: ArrImut[_]](initCount: Int)(f: (LineSeg, Int) => AA)(implicit build: ArrTFlatBuilder[AA]): AA

maps with a integer counter over the sides or edges of the Polygon These are of type LineSeg.

maps with a integer counter over the sides or edges of the Polygon These are of type LineSeg.

Inherited from
Polygon
def sidesIMap[A, AA <: ArrImut[A]](initCount: Int)(f: (LineSeg, Int) => A)(implicit build: ArrTBuilder[A, AA]): AA

maps with a integer counter over the sides or edges of the Polygon These are of type LineSeg.

maps with a integer counter over the sides or edges of the Polygon These are of type LineSeg.

Inherited from
Polygon
def sidesMap[A, AA <: ArrImut[A]](f: LineSeg => A)(implicit build: ArrTBuilder[A, AA]): AA

maps over the sides or edges of the Polygon These are of type LineSeg.

maps over the sides or edges of the Polygon These are of type LineSeg.

Inherited from
Polygon
def slate(offset: Vec2Like): Polygon

Translate geometric transformation on a Polygon returns a Polygon. The return type of this method will be narrowed further in most descendant traits / classes. The exceptions being those classes where the centring of the geometry at the origin is part of the type.

Translate geometric transformation on a Polygon returns a Polygon. The return type of this method will be narrowed further in most descendant traits / classes. The exceptions being those classes where the centring of the geometry at the origin is part of the type.

Inherited from
Polygon
def sline(index: Int): LineSeg
Inherited from
Polygon
def str: String

The most basic Show method, paralleling the strT method on ShowT type class instances.

The most basic Show method, paralleling the strT method on ShowT type class instances.

Inherited from
Show
def syntaxdepth: Int
Inherited from
Show
Inherited from
BoundedElem

Converts this closed Polygon to LineSegs. The LineSegs collection is empty of there are less than 2 vertices.

Converts this closed Polygon to LineSegs. The LineSegs collection is empty of there are less than 2 vertices.

Inherited from
Polygon
final override def toString: String
Definition Classes
Show -> Any
Inherited from
Show
Inherited from
BoundedElem
def v1: Pt2

The 1st vertex, will throw on a 0 vertices polygon.

The 1st vertex, will throw on a 0 vertices polygon.

Inherited from
Polygon
def v1x: Double

The X component of the 1st vertex, will throw on a 0 vertices polygon.

The X component of the 1st vertex, will throw on a 0 vertices polygon.

Inherited from
Polygon
def v1y: Double

The Y component of the 1st vertex, will throw on a 0 vertices polygon.

The Y component of the 1st vertex, will throw on a 0 vertices polygon.

Inherited from
Polygon
def v2: Pt2

The 2nd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The 2nd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon3Plus
def v2x: Double

The X component of the 2nd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The X component of the 2nd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon3Plus
def v2y: Double

The Y component of the 2nd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The Y component of the 2nd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon3Plus
def v3: Pt2

The 3rd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The 3rd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon3Plus
def v3x: Double

The X component of the 3rd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The X component of the 3rd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon3Plus
def v3y: Double

The Y component of the 3rd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The Y component of the 3rd Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon3Plus
def v4: Pt2

The 4th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The 4th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon4Plus
def v4x: Double

The X component of the 4th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The X component of the 4th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon4Plus
def v4y: Double

The Y component of the 4th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The Y component of the 4th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon4Plus
def v5: Pt2

The 5th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The 5th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon5Plus
def v5x: Double

The X component of the 5th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The X component of the 5th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon5Plus
def v5y: Double

The Y component of the 5th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The Y component of the 5th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon5Plus
def v6: Pt2

The 6th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The 6th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon6Plus
def v6x: Double

The X component of the 6th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The X component of the 6th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon6Plus
override def vLast: Pt2

The last vertex.

The last vertex.

Definition Classes
Inherited from
Polygon3Plus
def vertsFoldLeft[B](initial: B)(f: (B, Pt2) => B): B
Inherited from
Polygon
def vertsIFlatMap[BB <: ArrImut[_]](iInit: Int)(f: (Pt2, Int) => BB)(implicit build: ArrTFlatBuilder[BB]): BB

flatMap with index to an immutable Arr.

flatMap with index to an immutable Arr.

Inherited from
Polygon
def vertsMap[A, ArrT <: ArrImut[A]](f: Pt2 => A)(implicit build: ArrTBuilder[A, ArrT]): ArrT
Inherited from
Polygon
def vertsTrans(f: Pt2 => Pt2): Polygon

A function that takes a 2D geometric transformation on a Pt2 as a parameter and performs the transformation on all the vertices returning a new transformed Polygon

A function that takes a 2D geometric transformation on a Pt2 as a parameter and performs the transformation on all the vertices returning a new transformed Polygon

Inherited from
Polygon
def y6: Double

The Y component of the 6th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

The Y component of the 6th Vertex. The default convention is for the vertices to be numbered in a clockwise direction with the 1st vertex immediately clockwise from 12 o'clock.

Inherited from
Polygon6Plus