Skip to content

HybridMedianComparison

Repository source: HybridMedianComparison

Description

Comparison of median and hybrid-median filters. The hybrid filter preserves corners and thin lines, better than the median filter. The lower patterns represent the three neighborhoods used to compute the hybrid median.

Info

See this figure in Chapter 10 the VTK Textbook.

Other languages

See (Cxx), (PythonicAPI)

Question

If you have a question about this example, please use the VTK Discourse Forum

Code

HybridMedianComparison.py

#!/usr/bin/env python

# noinspection PyUnresolvedReferences
import vtkmodules.vtkRenderingOpenGL2
from vtkmodules.vtkCommonDataModel import vtkImageData
from vtkmodules.vtkIOImage import vtkImageReader2Factory
from vtkmodules.vtkImagingCore import (
    vtkImageCast,
    vtkImageThreshold
)
from vtkmodules.vtkImagingGeneral import (
    vtkImageHybridMedian2D,
    vtkImageMedian3D
)
from vtkmodules.vtkImagingMath import vtkImageMathematics
from vtkmodules.vtkImagingSources import vtkImageNoiseSource
from vtkmodules.vtkInteractionStyle import vtkInteractorStyleImage
from vtkmodules.vtkRenderingCore import (
    vtkImageActor,
    vtkRenderWindow,
    vtkRenderWindowInteractor,
    vtkRenderer
)


def main():
    # colors = vtkNamedColors()

    fileName = get_program_parameters()

    # Read the image.
    readerFactory = vtkImageReader2Factory()
    reader = readerFactory.CreateImageReader2(fileName)
    reader.SetFileName(fileName)
    reader.Update()

    scalarRange = [0] * 2
    scalarRange[0] = reader.GetOutput().GetPointData().GetScalars().GetRange()[0]
    scalarRange[1] = reader.GetOutput().GetPointData().GetScalars().GetRange()[1]
    print("Range:", scalarRange)
    middleSlice = (reader.GetOutput().GetExtent()[5] - reader.GetOutput().GetExtent()[4]) // 2

    # Work with double images.
    cast = vtkImageCast()
    cast.SetInputConnection(reader.GetOutputPort())
    cast.SetOutputScalarTypeToDouble()
    cast.Update()

    originalData = vtkImageData()
    originalData.DeepCopy(cast.GetOutput())

    noisyData = vtkImageData()

    AddShotNoise(originalData, noisyData, 2000.0, 0.1, reader.GetOutput().GetExtent())
    median = vtkImageMedian3D()
    median.SetInputData(noisyData)
    median.SetKernelSize(5, 5, 1)

    hybridMedian1 = vtkImageHybridMedian2D()
    hybridMedian1.SetInputData(noisyData)
    hybridMedian = vtkImageHybridMedian2D()
    hybridMedian.SetInputConnection(hybridMedian1.GetOutputPort())

    colorWindow = (scalarRange[1] - scalarRange[0]) * 0.8
    colorLevel = colorWindow / 2
    originalActor = vtkImageActor()
    originalActor.GetMapper().SetInputData(originalData)
    originalActor.GetProperty().SetColorWindow(colorWindow)
    originalActor.GetProperty().SetColorLevel(colorLevel)
    originalActor.GetProperty().SetInterpolationTypeToNearest()
    originalActor.SetDisplayExtent(reader.GetDataExtent()[0], reader.GetDataExtent()[1], reader.GetDataExtent()[2],
                                   reader.GetDataExtent()[3], middleSlice, middleSlice)

    noisyActor = vtkImageActor()
    noisyActor.GetMapper().SetInputData(noisyData)
    noisyActor.GetProperty().SetColorWindow(colorWindow)
    noisyActor.GetProperty().SetColorLevel(colorLevel)
    noisyActor.GetProperty().SetInterpolationTypeToNearest()
    noisyActor.SetDisplayExtent(originalActor.GetDisplayExtent())

    hybridMedianActor = vtkImageActor()
    hybridMedianActor.GetMapper().SetInputConnection(hybridMedian.GetOutputPort())
    hybridMedianActor.GetProperty().SetColorWindow(colorWindow)
    hybridMedianActor.GetProperty().SetColorLevel(colorLevel)
    hybridMedianActor.GetProperty().SetInterpolationTypeToNearest()
    hybridMedianActor.SetDisplayExtent(originalActor.GetDisplayExtent())

    medianActor = vtkImageActor()
    medianActor.GetMapper().SetInputConnection(median.GetOutputPort())
    medianActor.GetProperty().SetColorWindow(colorWindow)
    medianActor.GetProperty().SetColorLevel(colorLevel)
    medianActor.GetProperty().SetInterpolationTypeToNearest()

    # Setup the renderers.
    originalRenderer = vtkRenderer()
    originalRenderer.AddActor(originalActor)
    noisyRenderer = vtkRenderer()
    noisyRenderer.AddActor(noisyActor)
    hybridRenderer = vtkRenderer()
    hybridRenderer.AddActor(hybridMedianActor)
    medianRenderer = vtkRenderer()
    medianRenderer.AddActor(medianActor)

    renderers = list()
    renderers.append(originalRenderer)
    renderers.append(noisyRenderer)
    renderers.append(hybridRenderer)
    renderers.append(medianRenderer)

    # Setup viewports for the renderers.
    rendererSize = 400
    xGridDimensions = 2
    yGridDimensions = 2

    renderWindow = vtkRenderWindow()
    renderWindow.SetSize(
        rendererSize * xGridDimensions, rendererSize * yGridDimensions)
    for row in range(0, yGridDimensions):
        for col in range(xGridDimensions):
            index = row * xGridDimensions + col
            # (xmin, ymin, xmax, ymax)
            viewport = [float(col) / xGridDimensions, float(yGridDimensions - (row + 1)) / yGridDimensions,
                        float(col + 1) / xGridDimensions, float(yGridDimensions - row) / yGridDimensions]
            renderers[index].SetViewport(viewport)
            renderWindow.AddRenderer(renderers[index])
    renderWindow.SetWindowName('HybridMedianComparison')

    renderWindowInteractor = vtkRenderWindowInteractor()
    style = vtkInteractorStyleImage()

    renderWindowInteractor.SetInteractorStyle(style)
    renderWindowInteractor.SetRenderWindow(renderWindow)

    # The renderers share one camera.
    renderWindow.Render()
    renderers[0].GetActiveCamera().Dolly(1.5)
    renderers[0].ResetCameraClippingRange()
    for r in range(1, len(renderers)):
        renderers[r].SetActiveCamera(renderers[0].GetActiveCamera())
    renderWindowInteractor.Initialize()
    renderWindowInteractor.Start()


def get_program_parameters():
    import argparse
    description = 'Comparison of median and hybrid-median filters.'
    epilogue = '''
    The hybrid filter preserves corners and thin lines, better than the median filter.
    '''
    parser = argparse.ArgumentParser(description=description, epilog=epilogue,
                                     formatter_class=argparse.RawDescriptionHelpFormatter)
    parser.add_argument('filename', help='TestPattern.png.')
    args = parser.parse_args()
    return args.filename


def AddShotNoise(inputImage, outputImage, noiseAmplitude, noiseFraction, extent):
    shotNoiseSource = vtkImageNoiseSource()
    shotNoiseSource.SetWholeExtent(extent)
    shotNoiseSource.SetMinimum(0.0)
    shotNoiseSource.SetMaximum(1.0)

    shotNoiseThresh1 = vtkImageThreshold()
    shotNoiseThresh1.SetInputConnection(shotNoiseSource.GetOutputPort())
    shotNoiseThresh1.ThresholdByLower(1.0 - noiseFraction)
    shotNoiseThresh1.SetInValue(0)
    shotNoiseThresh1.SetOutValue(noiseAmplitude)
    shotNoiseThresh2 = vtkImageThreshold()
    shotNoiseThresh2.SetInputConnection(shotNoiseSource.GetOutputPort())
    shotNoiseThresh2.ThresholdByLower(noiseFraction)
    shotNoiseThresh2.SetInValue(1.0 - noiseAmplitude)
    shotNoiseThresh2.SetOutValue(0.0)

    shotNoise = vtkImageMathematics()
    shotNoise.SetInputConnection(0, shotNoiseThresh1.GetOutputPort())
    shotNoise.SetInputConnection(1, shotNoiseThresh2.GetOutputPort())
    shotNoise.SetOperationToAdd()

    add = vtkImageMathematics()
    add.SetInputData(0, inputImage)
    add.SetInputConnection(1, shotNoise.GetOutputPort())
    add.SetOperationToAdd()
    add.Update()
    outputImage.DeepCopy(add.GetOutput())


if __name__ == '__main__':
    main()