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author | Edoardo Pasca <edo.paskino@gmail.com> | 2018-03-21 17:51:37 +0000 |
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committer | Edoardo Pasca <edo.paskino@gmail.com> | 2018-03-21 17:51:37 +0000 |
commit | 7abea9ef222c1c63267945d210cd9a4ec39ee184 (patch) | |
tree | d23f03286a4b032e33938d15437cd3148b354f7c | |
parent | f082d54dfdef5335524806b703d630985afb247c (diff) | |
download | framework-7abea9ef222c1c63267945d210cd9a4ec39ee184.tar.gz framework-7abea9ef222c1c63267945d210cd9a4ec39ee184.tar.bz2 framework-7abea9ef222c1c63267945d210cd9a4ec39ee184.tar.xz framework-7abea9ef222c1c63267945d210cd9a4ec39ee184.zip |
reasonable long run
-rwxr-xr-x | Wrappers/Python/wip/test_reader_reconstr.py | 139 |
1 files changed, 67 insertions, 72 deletions
diff --git a/Wrappers/Python/wip/test_reader_reconstr.py b/Wrappers/Python/wip/test_reader_reconstr.py index 33ab461..79afd61 100755 --- a/Wrappers/Python/wip/test_reader_reconstr.py +++ b/Wrappers/Python/wip/test_reader_reconstr.py @@ -19,28 +19,7 @@ import numpy import matplotlib.pyplot as plt
import os
-
-def add_dimension(data, fill_with, axis, start=True):
- delta = data.shape[data.get_dimension_axis(axis)] - fill_with.shape[fill_with.get_dimension_axis(axis)]
- command = 'data.array['
- i = 0
- for k,v in data.dimension_labels.items():
- if axis == v:
- if start:
- command = command + str(delta) + ":"
- else:
- l = data.get_dimension_size(axis) - delta
- command = command + "0:" + str(l)
- else:
- command = command + ":"
-
- if i < data.number_of_dimensions -1:
- command = command + ','
- i += 1
- command = command + "] = fill_with.array[:]"
- #print (command)
- exec(command)
- #return command
+import pickle
def avg_img(image):
@@ -51,48 +30,6 @@ def avg_img(image): avg += image[i] / l
return avg
-def setupCCPiGeometries(voxel_num_x, voxel_num_y, voxel_num_z, angles, counter):
- vg = ImageGeometry(voxel_num_x=voxel_num_x,voxel_num_y=voxel_num_y, voxel_num_z=voxel_num_z)
- Phantom_ccpi = ImageData(geometry=vg,
- dimension_labels=['horizontal_x','horizontal_y','vertical'])
- #.subset(['horizontal_x','horizontal_y','vertical'])
- # ask the ccpi code what dimensions it would like
-
- voxel_per_pixel = 1
- geoms = pbalg.pb_setup_geometry_from_image(Phantom_ccpi.as_array(),
- angles,
- voxel_per_pixel )
-
- pg = AcquisitionGeometry('parallel',
- '3D',
- angles,
- geoms['n_h'], 1,
- geoms['n_v'], 1 #2D in 3D is a slice 1 pixel thick
- )
-
- center_of_rotation = Phantom_ccpi.get_dimension_size('horizontal_x') / 2
- ad = AcquisitionData(geometry=pg,dimension_labels=['angle','vertical','horizontal'])
- geoms_i = pbalg.pb_setup_geometry_from_acquisition(ad.as_array(),
- angles,
- center_of_rotation,
- voxel_per_pixel )
-
- #print (counter)
- counter+=1
- #print (geoms , geoms_i)
- if counter < 4:
- if (not ( geoms_i == geoms )):
- print ("not equal and {0}".format(counter))
- X = max(geoms['output_volume_x'], geoms_i['output_volume_x'])
- Y = max(geoms['output_volume_y'], geoms_i['output_volume_y'])
- Z = max(geoms['output_volume_z'], geoms_i['output_volume_z'])
- return setupCCPiGeometries(X,Y,Z,angles, counter)
- else:
- print ("return geoms {0}".format(geoms))
- return geoms
- else:
- print ("return geoms_i {0}".format(geoms_i))
- return geoms_i
reader = NexusReader(os.path.join(".." ,".." ,".." , "data" , "24737_fd.nxs" ))
@@ -141,12 +78,14 @@ x_init = ImageData(geometry=vg, dimension_labels=['horizontal_x','horizontal_y', #%%
print ("run FISTA")
# Run FISTA for least squares without regularization
-opt = {'tol': 1e-4, 'iter': 10}
+opt = {'tol': 1e-4, 'iter': 500}
x_fista0, it0, timing0, criter0 = FISTA(x_init, f, None, opt=opt)
+pickle.dump(x_fista0, open("fista0.pkl", "wb"))
+
plt.imshow(x_fista0.subset(horizontal_x=80).array)
plt.title('FISTA0')
-plt.show()
+#plt.show()
# Now least squares plus 1-norm regularization
lam = 0.1
@@ -154,23 +93,25 @@ g0 = Norm1(lam) # Run FISTA for least squares plus 1-norm function.
x_fista1, it1, timing1, criter1 = FISTA(x_init, f, g0,opt=opt)
+pickle.dump(x_fista1, open("fista1.pkl", "wb"))
plt.imshow(x_fista0.subset(horizontal_x=80).array)
plt.title('FISTA1')
-plt.show()
+#plt.show()
plt.semilogy(criter1)
-plt.show()
+#plt.show()
# Run FBPD=Forward Backward Primal Dual method on least squares plus 1-norm
x_fbpd1, it_fbpd1, timing_fbpd1, criter_fbpd1 = FBPD(x_init,None,f,g0,opt=opt)
+pickle.dump(x_fbpd1, open("fbpd1.pkl", "wb"))
plt.imshow(x_fbpd1.subset(horizontal_x=80).array)
plt.title('FBPD1')
-plt.show()
+#plt.show()
plt.semilogy(criter_fbpd1)
-plt.show()
+#plt.show()
# Now FBPD for least squares plus TV
#lamtv = 1
@@ -187,12 +128,66 @@ plt.show() # Run CGLS, which should agree with the FISTA0
x_CGLS, it_CGLS, timing_CGLS, criter_CGLS = CGLS(x_init, Cop, padded_data, opt=opt)
-
+pickle.dump(x_CGLS, open("cgls.pkl", "wb"))
plt.imshow(x_CGLS.subset(horizontal_x=80).array)
plt.title('CGLS')
plt.title('CGLS recon, compare FISTA0')
-plt.show()
+#plt.show()
plt.semilogy(criter_CGLS)
plt.title('CGLS criterion')
+#plt.show()
+
+
+clims = (0,1)
+cols = 5
+rows = 1
+current = 1
+fig = plt.figure()
+# projections row
+
+current = current
+a=fig.add_subplot(rows,cols,current)
+a.set_title('FISTA0')
+imgplot = plt.imshow(x_fista0.subset(horizontal_x=80).as_array())
+
+current = current + 1
+a=fig.add_subplot(rows,cols,current)
+a.set_title('FISTA1')
+imgplot = plt.imshow(x_fista1.subset(horizontal_x=80).as_array())
+
+current = current + 1
+a=fig.add_subplot(rows,cols,current)
+a.set_title('FBPD1')
+imgplot = plt.imshow(x_fbpd1.subset(horizontal_x=80).as_array())
+
+current = current + 1
+a=fig.add_subplot(rows,cols,current)
+a.set_title('CGLS')
+imgplot = plt.imshow(x_CGLS.subset(horizontal_x=80).as_array())
+
+current = current + 1
+a=fig.add_subplot(rows,cols,current)
+a.set_title('criteria')
+imgplot = plt.loglog(criter0 , label='FISTA0')
+imgplot = plt.loglog(criter1 , label='FISTA1')
+imgplot = plt.loglog(criter_fbpd1, label='FBPD1')
+imgplot = plt.loglog(criter_CGLS, label='CGLS')
+#imgplot = plt.loglog(criter_fbpdtv, label='FBPD TV')
+a.legend(loc='right')
+
+plt.show()
+
+
+#%%
+fig = plt.figure()
+# projections row
+b=fig.add_subplot(1,1,1)
+b.set_title('criteria')
+imgplot = plt.loglog(criter0 , label='FISTA0')
+imgplot = plt.loglog(criter1 , label='FISTA1')
+imgplot = plt.loglog(criter_fbpd1, label='FBPD1')
+imgplot = plt.loglog(criter_CGLS, label='CGLS')
+#imgplot = plt.loglog(criter_fbpdtv, label='FBPD TV')
+b.legend(loc='right')
plt.show()
\ No newline at end of file |