#========================================================================== # # Copyright Insight Software Consortium # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0.txt # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # #==========================================================================*/ # This file demonstrates how to connect VTK and ITK pipelines together # in scripted languages with the new ConnectVTKITK wrapping functionality. # Data is loaded in with VTK, processed with ITK and written back to disc # with VTK. # # For this to work, you have to build InsightApplications/ConnectVTKITK # as well. # # It also demonstrates the use of the python-specific itkPyCommand object. # # -- Charl P. Botha import os import sys import InsightToolkit as itk import ConnectVTKITKPython as CVIPy import vtk # VTK will read the PNG image for us reader = vtk.vtkPNGReader() reader.SetFileName("../../Testing/Data/Input/cthead1.png") # it has to be a single component, itk::VTKImageImport doesn't support more lum = vtk.vtkImageLuminance() lum.SetInput(reader.GetOutput()) # let's cast the output to float imageCast = vtk.vtkImageCast() imageCast.SetOutputScalarTypeToFloat() imageCast.SetInput(lum.GetOutput()) # the end-point of this VTK pipeline segment is a vtkImageExport vtkExporter = vtk.vtkImageExport() vtkExporter.SetInput(imageCast.GetOutput()) # it connects to the itk::VTKImageImport at the beginning of # the subsequent ITK pipeline; two-dimensional float type itkImporter = itk.itkVTKImageImportF2_New() # Call the magic function that connects the two. This will only be # available if you built ITK with ITK_CSWIG_CONNECTVTKITK set to ON. CVIPy.ConnectVTKToITKF2(vtkExporter, itkImporter.GetPointer()) # perform a canny edge detection and rescale the output canny = itk.itkCannyEdgeDetectionImageFilterF2F2_New() rescaler = itk.itkRescaleIntensityImageFilterF2US2_New() canny.SetInput(itkImporter.GetOutput()) rescaler.SetInput(canny.GetOutput()) rescaler.SetOutputMinimum(0) rescaler.SetOutputMaximum(65535) # this is to show off the new PyCommand functionality. :) def progressEvent(): print "%.0f%s done..." % (canny.GetProgress() * 100.0, '%') pc = itk.itkPyCommand_New() pc.SetCommandCallable(progressEvent) canny.AddObserver(itk.itkProgressEvent(), pc.GetPointer()) # end of show-off # this will form the end-point of the ITK pipeline segment itkExporter = itk.itkVTKImageExportUS2_New() itkExporter.SetInput(rescaler.GetOutput()) # the vtkImageImport will bring our data back into VTK-land vtkImporter = vtk.vtkImageImport() # do the magic connection call (once again: only available if you built # ITK with ITK_CSWIG_CONNECTVTKITK set to ON) CVIPy.ConnectITKUS2ToVTK(itkExporter.GetPointer(), vtkImporter) # finally write the image to disk using VTK writer = vtk.vtkPNGWriter() writer.SetFileName('./testout.png') writer.SetInput(vtkImporter.GetOutput()) # before we call Write() on the writer, it is prudent to give # our ITK pipeline an Update() call... this is not necessary # for normal error-less operation, but ensures that exceptions # thrown by ITK get through to us in the case of an error; # This is because the VTK wrapping system does not support # C++ exceptions. rescaler.Update() # write the file to disk... writer.Write() print "\n\nWrote testout.png to current directory."