Transforms can be used to center image data or to align two images¶

In [ ]:

            
                Copied!
                
import shapeworks as sw
import numpy as np
import pyvista as pv
import shapeworks as sw
import numpy as np
import pyvista as pv

In [ ]:

            
                Copied!
                
pv.set_jupyter_backend('static')
pv.set_jupyter_backend('static')

In [ ]:

            
                Copied!
                
DATA = "../ShapeWorks/Examples/Python/Data"
DATA = "../ShapeWorks/Examples/Python/Data"

Center of mass transforms¶

Centers the contents of a given image using the specified resampling method

In [ ]:

            
                Copied!
                
filename = DATA + "/ellipsoid/Ellipsoids_UnPrepped/seg.ellipsoid_14.nrrd"
filename = DATA + "/ellipsoid/Ellipsoids_UnPrepped/seg.ellipsoid_14.nrrd"

In [ ]:

            
                Copied!
                
img = sw.Image(filename)
print("center: ", img.center())
print("center of mass: ", img.centerOfMass())
img = sw.Image(filename)
print("center: ", img.center())
print("center of mass: ", img.centerOfMass())

In [ ]:

            
                Copied!
                
slices = sw.sw2vtkImage(img).slice_orthogonal(x=25,y=25,z=25)
slices = sw.sw2vtkImage(img).slice_orthogonal(x=25,y=25,z=25)

In [ ]:

            
                Copied!
                
                    
                    
                
                

        
p = pv.Plotter(shape=(1,3), border=False)

p.subplot(0,0)
p.add_text("before centering", position='lower_left')
p.add_mesh(slices[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(slices[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(slices[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.show()
p = pv.Plotter(shape=(1,3), border=False)

p.subplot(0,0)
p.add_text("before centering", position='lower_left')
p.add_mesh(slices[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(slices[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(slices[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.show()

create and apply transform, noting that center of mass is now roughly in the center of the image¶

In [ ]:

            
                Copied!
                
xform = img.createCenterOfMassTransform()
xform = img.createCenterOfMassTransform()

In [ ]:

            
                Copied!
                
# now center of mass is roughly at the center
img.applyTransform(xform)
print("center of mass: ", img.centerOfMass())
# now center of mass is roughly at the center
img.applyTransform(xform)
print("center of mass: ", img.centerOfMass())

visualization of different resampling methods¶

In [ ]:

            
                Copied!
                
# linear interpolation
img = sw.Image(filename)
img.applyTransform(xform, sw.InterpolationType.Linear)
lin = sw.sw2vtkImage(img)
# linear interpolation
img = sw.Image(filename)
img.applyTransform(xform, sw.InterpolationType.Linear)
lin = sw.sw2vtkImage(img)

In [ ]:

            
                Copied!
                
# closest point resampling
img = sw.Image(filename)
img.applyTransform(xform, sw.InterpolationType.NearestNeighbor)
nn = sw.sw2vtkImage(img)
# closest point resampling
img = sw.Image(filename)
img.applyTransform(xform, sw.InterpolationType.NearestNeighbor)
nn = sw.sw2vtkImage(img)

In [ ]:

            
                Copied!
                
lin_slices = lin.slice_orthogonal(x=25,y=25,z=25)
nn_slices = nn.slice_orthogonal(x=25,y=25,z=25)
lin_slices = lin.slice_orthogonal(x=25,y=25,z=25)
nn_slices = nn.slice_orthogonal(x=25,y=25,z=25)

In [ ]:

            
                Copied!
                
                    
                    
                
                

        
p = pv.Plotter(shape=(2,3), border=False)

p.subplot(0,0)
p.add_text("linear")
p.add_mesh(lin_slices[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(lin_slices[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(lin_slices[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.subplot(1,0)
p.add_text("nearest neighbor")
p.add_mesh(nn_slices[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(1,1)
p.add_mesh(nn_slices[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(1,2)
p.add_mesh(nn_slices[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.show()
p = pv.Plotter(shape=(2,3), border=False)

p.subplot(0,0)
p.add_text("linear")
p.add_mesh(lin_slices[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(lin_slices[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(lin_slices[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.subplot(1,0)
p.add_text("nearest neighbor")
p.add_mesh(nn_slices[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(1,1)
p.add_mesh(nn_slices[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(1,2)
p.add_mesh(nn_slices[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.show()

In [ ]:

Rigid registration transforms¶

Aligns two images using their distance transforms by converting these to meshes, computing the alignment using iterative closest point (ICP), then resampling to move the center of mass of one to be aligned with the other

NOTE: images used to compute the transform must be distance transforms

In [ ]:

            
                Copied!
                
filename1 = DATA + "/ellipsoid/Ellipsoids_UnPrepped/seg.ellipsoid_17.nrrd"
filename2 = DATA + "/ellipsoid/Ellipsoids_UnPrepped/seg.ellipsoid_19.nrrd"
filename1 = DATA + "/ellipsoid/Ellipsoids_UnPrepped/seg.ellipsoid_17.nrrd"
filename2 = DATA + "/ellipsoid/Ellipsoids_UnPrepped/seg.ellipsoid_19.nrrd"

compute distance transforms to be used to compute alignment of the segmentations¶

In [ ]:

            
                Copied!
                
img1 = sw.Image(filename1)
img2 = sw.Image(filename2)
img1 = sw.Image(filename1)
img2 = sw.Image(filename2)

In [ ]:

            
                Copied!
                
img1_slices_orig = sw.sw2vtkImage(img1).slice_orthogonal(x=25,y=25,z=25)
img2_slices_orig = sw.sw2vtkImage(img2).slice_orthogonal(x=25,y=25,z=25)
img1_slices_orig = sw.sw2vtkImage(img1).slice_orthogonal(x=25,y=25,z=25)
img2_slices_orig = sw.sw2vtkImage(img2).slice_orthogonal(x=25,y=25,z=25)

In [ ]:

            
                Copied!
                
                    
                    
                
                

        
p = pv.Plotter(shape=(2,3), border=False)

p.subplot(0,0)
p.add_text("Image 1")
p.add_mesh(img1_slices_orig[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(img1_slices_orig[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(img1_slices_orig[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.subplot(1,0)
p.add_text("Image 2")
p.add_mesh(img2_slices_orig[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(1,1)
p.add_mesh(img2_slices_orig[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(1,2)
p.add_mesh(img2_slices_orig[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.show()
p = pv.Plotter(shape=(2,3), border=False)

p.subplot(0,0)
p.add_text("Image 1")
p.add_mesh(img1_slices_orig[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(img1_slices_orig[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(img1_slices_orig[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.subplot(1,0)
p.add_text("Image 2")
p.add_mesh(img2_slices_orig[2], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'xy'
p.subplot(1,1)
p.add_mesh(img2_slices_orig[0], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'yz'
p.subplot(1,2)
p.add_mesh(img2_slices_orig[1], style='points', show_scalar_bar=False)
p.show_grid()
p.camera_position = 'zx'

p.show()

In [ ]:

create distance transforms to be used to compute the images' alignment¶

In [ ]:

            
                Copied!
                
dt1 = img1.computeDT(1.0)
dt2 = img2.computeDT(1.0)
dt1 = img1.computeDT(1.0)
dt2 = img2.computeDT(1.0)

create image alignment transforms¶

In [ ]:

            
                Copied!
                
xform_1_to_2 = dt1.createRigidRegistrationTransform(dt2)
xform_2_to_1 = dt2.createRigidRegistrationTransform(dt1)
xform_1_to_2 = dt1.createRigidRegistrationTransform(dt2)
xform_2_to_1 = dt2.createRigidRegistrationTransform(dt1)

apply the transforms to the original images¶

In [ ]:

            
                Copied!
                
img1 = sw.Image(filename1)
img2 = sw.Image(filename2)
img1 = sw.Image(filename1)
img2 = sw.Image(filename2)

In [ ]:

            
                Copied!
                
img1.applyTransform(xform_1_to_2)
img2.applyTransform(xform_2_to_1)
img1.applyTransform(xform_1_to_2)
img2.applyTransform(xform_2_to_1)

visualize the results¶

Notice how it even rotates the images into each others' centers of mass

In [ ]:

            
                Copied!
                
img1_slices = sw.sw2vtkImage(img1).slice_orthogonal(x=25,y=25,z=25)
img2_slices = sw.sw2vtkImage(img2).slice_orthogonal(x=25,y=25,z=25)
img1_slices = sw.sw2vtkImage(img1).slice_orthogonal(x=25,y=25,z=25)
img2_slices = sw.sw2vtkImage(img2).slice_orthogonal(x=25,y=25,z=25)

In [ ]:

            
                Copied!
                
                    
                    
                
                

        
p = pv.Plotter(shape=(3,3), border=False)

p.subplot(0,0)
p.add_text("1 -> 2")
p.add_mesh(img1_slices[2], style='points', show_scalar_bar=False, opacity=0.75)
p.add_mesh(img2_slices_orig[2], style='points', show_scalar_bar=False, opacity=0.25)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(img1_slices[0], style='points', show_scalar_bar=False, opacity=0.75)
p.add_mesh(img2_slices_orig[0], style='points', show_scalar_bar=False, opacity=0.25)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(img1_slices[1], style='points', show_scalar_bar=False, opacity=0.75)
p.add_mesh(img2_slices_orig[1], style='points', show_scalar_bar=False, opacity=0.25)
p.show_grid()
p.camera_position = 'zx'

p.subplot(1,0)
p.add_text("2 -> 1")
p.add_mesh(img1_slices_orig[2], style='points', show_scalar_bar=False, opacity=0.25)
p.add_mesh(img2_slices[2], style='points', show_scalar_bar=False, opacity=0.75)
p.show_grid()
p.camera_position = 'xy'
p.subplot(1,1)
p.add_mesh(img1_slices_orig[0], style='points', show_scalar_bar=False, opacity=0.25)
p.add_mesh(img2_slices[0], style='points', show_scalar_bar=False, opacity=0.75)
p.show_grid()
p.camera_position = 'yz'
p.subplot(1,2)
p.add_mesh(img1_slices_orig[1], style='points', show_scalar_bar=False, opacity=0.25)
p.add_mesh(img2_slices[1], style='points', show_scalar_bar=False, opacity=0.75)
p.show_grid()
p.camera_position = 'zx'

p.subplot(2,0)
p.add_text("both")
p.add_mesh(img1_slices[2], style='points', show_scalar_bar=False, opacity=0.5)
p.add_mesh(img2_slices[2], style='points', show_scalar_bar=False, opacity=0.5)
p.show_grid()
p.camera_position = 'xy'
p.subplot(2,1)
p.add_mesh(img1_slices[0], style='points', show_scalar_bar=False, opacity=0.5)
p.add_mesh(img2_slices[0], style='points', show_scalar_bar=False, opacity=0.5)
p.show_grid()
p.camera_position = 'yz'
p.subplot(2,2)
p.add_mesh(img1_slices[1], style='points', show_scalar_bar=False, opacity=0.5)
p.add_mesh(img2_slices[1], style='points', show_scalar_bar=False, opacity=0.5)
p.show_grid()
p.camera_position = 'zx'

p.show()
p = pv.Plotter(shape=(3,3), border=False)

p.subplot(0,0)
p.add_text("1 -> 2")
p.add_mesh(img1_slices[2], style='points', show_scalar_bar=False, opacity=0.75)
p.add_mesh(img2_slices_orig[2], style='points', show_scalar_bar=False, opacity=0.25)
p.show_grid()
p.camera_position = 'xy'
p.subplot(0,1)
p.add_mesh(img1_slices[0], style='points', show_scalar_bar=False, opacity=0.75)
p.add_mesh(img2_slices_orig[0], style='points', show_scalar_bar=False, opacity=0.25)
p.show_grid()
p.camera_position = 'yz'
p.subplot(0,2)
p.add_mesh(img1_slices[1], style='points', show_scalar_bar=False, opacity=0.75)
p.add_mesh(img2_slices_orig[1], style='points', show_scalar_bar=False, opacity=0.25)
p.show_grid()
p.camera_position = 'zx'

p.subplot(1,0)
p.add_text("2 -> 1")
p.add_mesh(img1_slices_orig[2], style='points', show_scalar_bar=False, opacity=0.25)
p.add_mesh(img2_slices[2], style='points', show_scalar_bar=False, opacity=0.75)
p.show_grid()
p.camera_position = 'xy'
p.subplot(1,1)
p.add_mesh(img1_slices_orig[0], style='points', show_scalar_bar=False, opacity=0.25)
p.add_mesh(img2_slices[0], style='points', show_scalar_bar=False, opacity=0.75)
p.show_grid()
p.camera_position = 'yz'
p.subplot(1,2)
p.add_mesh(img1_slices_orig[1], style='points', show_scalar_bar=False, opacity=0.25)
p.add_mesh(img2_slices[1], style='points', show_scalar_bar=False, opacity=0.75)
p.show_grid()
p.camera_position = 'zx'

p.subplot(2,0)
p.add_text("both")
p.add_mesh(img1_slices[2], style='points', show_scalar_bar=False, opacity=0.5)
p.add_mesh(img2_slices[2], style='points', show_scalar_bar=False, opacity=0.5)
p.show_grid()
p.camera_position = 'xy'
p.subplot(2,1)
p.add_mesh(img1_slices[0], style='points', show_scalar_bar=False, opacity=0.5)
p.add_mesh(img2_slices[0], style='points', show_scalar_bar=False, opacity=0.5)
p.show_grid()
p.camera_position = 'yz'
p.subplot(2,2)
p.add_mesh(img1_slices[1], style='points', show_scalar_bar=False, opacity=0.5)
p.add_mesh(img2_slices[1], style='points', show_scalar_bar=False, opacity=0.5)
p.show_grid()
p.camera_position = 'zx'

p.show()

In [ ]: