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#!/usr/bin/env python
import vtk
from vtk.util.misc import vtkGetDataRoot
VTK_DATA_ROOT = vtkGetDataRoot()
# Create a bunch of points and then transform them. Time the operations.
# Control resolution of test
res = 10000
res = 750
math = vtk.vtkMath()
# Create points and normals
plane = vtk.vtkPlaneSource()
plane.SetResolution(res,res)
plane.Update()
output = plane.GetOutput()
# Manually construct vectors
NPts = output.GetNumberOfPoints()
vectors = vtk.vtkDoubleArray()
vectors.SetNumberOfComponents(3)
vectors.SetNumberOfTuples(NPts)
for i in range(0,NPts):
vectors.SetTuple3(i, math.Random(-1,1), math.Random(-1,1),
math.Random(-1,1))
output.GetPointData().SetVectors(vectors)
# Output some statistics
print("Number of points: {0}".format(NPts))
# Time the transformation
xForm = vtk.vtkTransform()
xForm.Translate(1,2,3)
xForm.Scale(1,2,3)
xForm.RotateX(10)
xForm.RotateY(20)
xForm.RotateZ(30)
xFormF = vtk.vtkTransformPolyDataFilter()
xFormF.SetInputData(output)
xFormF.SetTransform(xForm)
# For timing the various tests
timer = vtk.vtkTimerLog()
timer.StartTimer()
xFormF.Update()
timer.StopTimer()
time = timer.GetElapsedTime()
print("Transform: {0}".format(time))
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