Types/Turtle/SierpinskiSquareCurve.ps1
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<# .SYNOPSIS Generates a Sierpinski Square Curve. .DESCRIPTION Generates a Sierpinski Square Curve using turtle graphics. .LINK https://en.wikipedia.org/wiki/Sierpi%C5%84ski_curve#Representation_as_Lindenmayer_system .EXAMPLE $turtle.SierpinskiSquareCurve().Pattern.Save("$pwd/SierpinskiSquareCurve.svg") .EXAMPLE $turtle.Clear() $turtle.SierpinskiSquareCurve(10,4) $turtle.PatternTransform = @{ 'scale' = 0.9 } $turtle.PatternAnimation = " <animateTransform attributeName='patternTransform' attributeType='XML' type='scale' values='1;0.9;1' dur='19s' repeatCount='indefinite' additive='sum' /> <animateTransform attributeName='patternTransform' attributeType='XML' type='skewY' values='0;-30;30;-30;0' dur='67s' repeatCount='indefinite' additive='sum' /> <animateTransform attributeName='patternTransform' attributeType='XML' type='skewX' values='0;-30;30;-30;0' dur='83s' repeatCount='indefinite' additive='sum' /> " $turtle.Pattern.Save("$pwd/SierpinskiSquareCurve2.svg") #> param( [double]$Size = 20, [int]$Order = 5, [double]$Angle = 90 ) return $this.LSystem('X', [Ordered]@{ X = 'XF-F+F-XF+F+XF-F+F-X' }, $Order, [Ordered]@{ '\+' = { $this.Rotate($Angle) } '-' = { $this.Rotate($Angle * -1) } '[FG]' = { $this.Forward($Size) } }) |