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ArrayCrvRoadLikeTop.rvb
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ArrayCrvRoadLikeTop.rvb
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'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
' ArrayCrvRoadLikeTop.rvb -- February 2013
' If this code works, it was written by Dale Fugier.
' If not, I don't know who wrote it.
' Works with Rhino 4 and 5.
'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
Option Explicit
'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
' Simulate the ArrayCrv command with the Roadlike option,
' assuming the World-Top viewport was selected.
'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
Sub ArrayCrvRoadLikeTop
Dim strObject, strRail, nCopies, i
Dim arrParameters, arrTangent, arrWorldZaxis
Dim arrOrigin, arrXaxis, arrYaxis, arrZaxis
Dim arrPlanes, arrTransform
Dim strVector
arrWorldZaxis = Array(0,0,1)
strObject = Rhino.GetObject("Select object to array")
If IsNull(strObject) Then Exit Sub
strRail = Rhino.GetObject("Select path curve")
If IsNull(strObject) Then Exit Sub
' nCopies = Rhino.GetInteger("Number of copies", 2, 2)
' If IsNull(nCopies) Then Exit Sub
nCopies = 10
arrParameters = Rhino.DivideCurve(strRail, nCopies, False, False)
If IsNull(arrParameters) Then Exit Sub
ReDim arrPlanes(UBound(arrParameters))
For i = 0 To UBound(arrParameters)
' Compute planar rail sweep frames from rail derivative
' (i.e. tangent) and plane normal
' Calculate origin
arrOrigin = Rhino.EvaluateCurve(strRail, arrParameters(i))
' Calcualte tangent, which becomes z-axis for other calculations
arrTangent = Rhino.CurveTangent(strRail, arrParameters(i))
arrZaxis = Rhino.VectorUnitize(arrTangent)
' Calculate x-axis
arrXaxis = Rhino.VectorCrossProduct(arrWorldZaxis, arrZaxis)
arrXaxis = Rhino.VectorUnitize(arrXaxis)
' Calculate y-axis
arrYaxis = Rhino.VectorCrossProduct(arrZaxis, arrXaxis)
arrYaxis = Rhino.VectorUnitize(arrYaxis)
arrPlanes(i) = Rhino.PlaneFromFrame(arrOrigin, arrXaxis, arrYaxis)
' Optional...
Call AddVectors(arrOrigin, arrXaxis, arrYaxis, arrZaxis)
Next
For i = 1 To UBound(arrPlanes)
arrTransform = Rhino.XformRotation(arrPlanes(0), arrPlanes(i))
Call Rhino.TransformObject(strObject, arrTransform, True)
Next
End Sub
'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
' Utility subroutine for drawing vectors
'''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
Sub AddVectors(arrOrigin, arrXaxis, arrYaxis, arrZaxis)
Dim strVector
strVector = Rhino.AddLine(arrOrigin, Rhino.PointAdd(arrOrigin, arrXaxis))
Call Rhino.CurveArrows(strVector, 2)
Call Rhino.ObjectColor(strVector, RGB(255,0,0))
strVector = Rhino.AddLine(arrOrigin, Rhino.PointAdd(arrOrigin, arrYaxis))
Call Rhino.CurveArrows(strVector, 2)
Call Rhino.ObjectColor(strVector, RGB(0,255,0))
strVector = Rhino.AddLine(arrOrigin, Rhino.PointAdd(arrOrigin, arrZaxis))
Call Rhino.CurveArrows(strVector, 2)
Call Rhino.ObjectColor(strVector, RGB(0,0,255))
End Sub