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authorJakob Jorgensen <jakob.jorgensen@manchester.ac.uk>2018-03-07 11:02:10 +0000
committerJakob Jorgensen <jakob.jorgensen@manchester.ac.uk>2018-03-07 11:02:10 +0000
commit2f074e52ddbcb69176ad76310c5c51a15658dfa4 (patch)
treeea1c89026a686f1328c01fda57e496b8aa6c7404 /Wrappers/Python
parent1d0e10be49f157d4f68bba54c0395d84fafd98a3 (diff)
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MC FP and BP working
Diffstat (limited to 'Wrappers/Python')
-rw-r--r--Wrappers/Python/ccpi/astra/astra_processors.py143
-rw-r--r--Wrappers/Python/ccpi/framework.py30
-rw-r--r--Wrappers/Python/ccpi/reconstruction/astra_ops.py48
-rw-r--r--Wrappers/Python/test/simple_mc_demo.py71
4 files changed, 267 insertions, 25 deletions
diff --git a/Wrappers/Python/ccpi/astra/astra_processors.py b/Wrappers/Python/ccpi/astra/astra_processors.py
index 91612b1..650e11b 100644
--- a/Wrappers/Python/ccpi/astra/astra_processors.py
+++ b/Wrappers/Python/ccpi/astra/astra_processors.py
@@ -1,6 +1,7 @@
from ccpi.framework import DataSetProcessor, DataSet, VolumeData, SinogramData
from ccpi.astra.astra_utils import convert_geometry_to_astra
import astra
+import numpy
class AstraForwardProjector(DataSetProcessor):
@@ -127,4 +128,146 @@ class AstraBackProjector(DataSetProcessor):
DATA = self.getInput()
rec_id, IM = astra.create_backprojection(DATA.as_array(), self.proj_id)
astra.data2d.delete(rec_id)
+ return VolumeData(IM,geometry=self.volume_geometry)
+
+class AstraForwardProjectorMC(DataSetProcessor):
+ '''AstraForwardProjector
+
+ Forward project VolumeDataSet to SinogramDataSet using ASTRA proj_id.
+
+ Input: VolumeDataSet
+ Parameter: proj_id
+ Output: SinogramDataSet
+ '''
+
+ def __init__(self,
+ volume_geometry=None,
+ sinogram_geometry=None,
+ proj_id=None,
+ device='cpu'):
+ kwargs = {
+ 'volume_geometry' : volume_geometry,
+ 'sinogram_geometry' : sinogram_geometry,
+ 'proj_id' : proj_id,
+ 'device' : device
+ }
+
+ #DataSetProcessor.__init__(self, **kwargs)
+ super(AstraForwardProjectorMC, self).__init__(**kwargs)
+
+ self.setVolumeGeometry(volume_geometry)
+ self.setSinogramGeometry(sinogram_geometry)
+
+ # Set up ASTRA Volume and projection geometry, not to be stored in self
+ vol_geom, proj_geom = convert_geometry_to_astra(self.volume_geometry,
+ self.sinogram_geometry)
+
+ # ASTRA projector, to be stored
+ if device == 'cpu':
+ # Note that 'line' is only for parallel (2D) and only one option
+ self.setProjector(astra.create_projector('line', proj_geom, vol_geom) )
+ elif device == 'gpu':
+ self.setProjector(astra.create_projector('cuda', proj_geom, vol_geom) )
+ else:
+ NotImplemented
+
+ def checkInput(self, dataset):
+ if dataset.number_of_dimensions == 3 or dataset.number_of_dimensions == 2:
+ return True
+ else:
+ return True
+ #raise ValueError("Expected input dimensions is 2 or 3, got {0}"\
+ # .format(dataset.number_of_dimensions))
+
+ def setProjector(self, proj_id):
+ self.proj_id = proj_id
+
+ def setVolumeGeometry(self, volume_geometry):
+ self.volume_geometry = volume_geometry
+
+ def setSinogramGeometry(self, sinogram_geometry):
+ self.sinogram_geometry = sinogram_geometry
+
+ def process(self):
+ IM = self.getInput()
+ DATA = numpy.zeros((self.sinogram_geometry.angles.size,
+ self.sinogram_geometry.pixel_num_h,
+ 1,
+ self.sinogram_geometry.channels),
+ 'float32')
+ for k in range(self.sinogram_geometry.channels):
+ sinogram_id, DATA[:,:,0,k] = astra.create_sino(IM.as_array()[:,:,0,k],
+ self.proj_id)
+ astra.data2d.delete(sinogram_id)
+ return SinogramData(DATA,geometry=self.sinogram_geometry)
+
+class AstraBackProjectorMC(DataSetProcessor):
+ '''AstraBackProjector
+
+ Back project SinogramDataSet to VolumeDataSet using ASTRA proj_id.
+
+ Input: SinogramDataSet
+ Parameter: proj_id
+ Output: VolumeDataSet
+ '''
+
+ def __init__(self,
+ volume_geometry=None,
+ sinogram_geometry=None,
+ proj_id=None,
+ device='cpu'):
+ kwargs = {
+ 'volume_geometry' : volume_geometry,
+ 'sinogram_geometry' : sinogram_geometry,
+ 'proj_id' : proj_id,
+ 'device' : device
+ }
+
+ #DataSetProcessor.__init__(self, **kwargs)
+ super(AstraBackProjectorMC, self).__init__(**kwargs)
+
+ self.setVolumeGeometry(volume_geometry)
+ self.setSinogramGeometry(sinogram_geometry)
+
+ # Set up ASTRA Volume and projection geometry, not to be stored in self
+ vol_geom, proj_geom = convert_geometry_to_astra(self.volume_geometry,
+ self.sinogram_geometry)
+
+ # ASTRA projector, to be stored
+ if device == 'cpu':
+ # Note that 'line' is only for parallel (2D) and only one option
+ self.setProjector(astra.create_projector('line', proj_geom, vol_geom) )
+ elif device == 'gpu':
+ self.setProjector(astra.create_projector('cuda', proj_geom, vol_geom) )
+ else:
+ NotImplemented
+
+ def checkInput(self, dataset):
+ if dataset.number_of_dimensions == 3 or dataset.number_of_dimensions == 2:
+ return True
+ else:
+ return True
+ #raise ValueError("Expected input dimensions is 2 or 3, got {0}"\
+ # .format(dataset.number_of_dimensions))
+
+ def setProjector(self, proj_id):
+ self.proj_id = proj_id
+
+ def setVolumeGeometry(self, volume_geometry):
+ self.volume_geometry = volume_geometry
+
+ def setSinogramGeometry(self, sinogram_geometry):
+ self.sinogram_geometry = sinogram_geometry
+
+ def process(self):
+ DATA = self.getInput()
+ IM = numpy.zeros((self.volume_geometry.voxel_num_x,
+ self.volume_geometry.voxel_num_y,
+ 1,
+ self.volume_geometry.channels),
+ 'float32')
+ for k in range(self.volume_geometry.channels):
+ rec_id, IM[:,:,0,k] = astra.create_backprojection(DATA.as_array()[:,:,0,k],
+ self.proj_id)
+ astra.data2d.delete(rec_id)
return VolumeData(IM,geometry=self.volume_geometry) \ No newline at end of file
diff --git a/Wrappers/Python/ccpi/framework.py b/Wrappers/Python/ccpi/framework.py
index 5ac17ee..5ee8279 100644
--- a/Wrappers/Python/ccpi/framework.py
+++ b/Wrappers/Python/ccpi/framework.py
@@ -428,20 +428,20 @@ class VolumeData(DataSet):
if type(array) == DataSet:
# if the array is a DataSet get the info from there
- if not ( array.number_of_dimensions == 2 or \
- array.number_of_dimensions == 3 ):
- raise ValueError('Number of dimensions are not 2 or 3: {0}'\
- .format(array.number_of_dimensions))
+ #if not ( array.number_of_dimensions == 2 or \
+ # array.number_of_dimensions == 3 ):
+ # raise ValueError('Number of dimensions are not 2 or 3: {0}'\
+ # .format(array.number_of_dimensions))
#DataSet.__init__(self, array.as_array(), deep_copy,
# array.dimension_labels, **kwargs)
super(VolumeData, self).__init__(array.as_array(), deep_copy,
array.dimension_labels, **kwargs)
elif type(array) == numpy.ndarray:
- if not ( array.ndim == 3 or array.ndim == 2 ):
- raise ValueError(
- 'Number of dimensions are not 3 or 2 : {0}'\
- .format(array.ndim))
+ #if not ( array.ndim == 3 or array.ndim == 2 ):
+ # raise ValueError(
+ # 'Number of dimensions are not 3 or 2 : {0}'\
+ # .format(array.ndim))
if dimension_labels is None:
if array.ndim == 3:
@@ -476,17 +476,17 @@ class SinogramData(DataSet):
if type(array) == DataSet:
# if the array is a DataSet get the info from there
- if not ( array.number_of_dimensions == 2 or \
- array.number_of_dimensions == 3 ):
- raise ValueError('Number of dimensions are not 2 or 3: {0}'\
- .format(array.number_of_dimensions))
+ #if not ( array.number_of_dimensions == 2 or \
+ # array.number_of_dimensions == 3 ):
+ # raise ValueError('Number of dimensions are not 2 or 3: {0}'\
+ # .format(array.number_of_dimensions))
DataSet.__init__(self, array.as_array(), deep_copy,
array.dimension_labels, **kwargs)
elif type(array) == numpy.ndarray:
- if not ( array.ndim == 3 or array.ndim == 2 ):
- raise ValueError('Number of dimensions are != 3: {0}'\
- .format(array.ndim))
+ #if not ( array.ndim == 3 or array.ndim == 2 ):
+ # raise ValueError('Number of dimensions are != 3: {0}'\
+ # .format(array.ndim))
if dimension_labels is None:
if array.ndim == 3:
dimension_labels = ['angle' ,
diff --git a/Wrappers/Python/ccpi/reconstruction/astra_ops.py b/Wrappers/Python/ccpi/reconstruction/astra_ops.py
index 6af7af7..cf138b4 100644
--- a/Wrappers/Python/ccpi/reconstruction/astra_ops.py
+++ b/Wrappers/Python/ccpi/reconstruction/astra_ops.py
@@ -19,7 +19,7 @@ from ccpi.reconstruction.ops import Operator
import numpy
from ccpi.framework import SinogramData, VolumeData
from ccpi.reconstruction.ops import PowerMethodNonsquare
-from ccpi.astra.astra_processors import AstraForwardProjector, AstraBackProjector
+from ccpi.astra.astra_processors import *
class AstraProjectorSimple(Operator):
"""ASTRA projector modified to use DataSet and geometry."""
@@ -66,6 +66,52 @@ class AstraProjectorSimple(Operator):
self.sinogram_geometry.pixel_num_h), \
(self.volume_geometry.voxel_num_x, \
self.volume_geometry.voxel_num_y) )
+
+class AstraProjectorMC(Operator):
+ """ASTRA Multichannel projector"""
+ def __init__(self, geomv, geomp, device):
+ super(AstraProjectorMC, self).__init__()
+
+ # Store volume and sinogram geometries.
+ self.sinogram_geometry = geomp
+ self.volume_geometry = geomv
+
+ self.fp = AstraForwardProjectorMC(volume_geometry=geomv,
+ sinogram_geometry=geomp,
+ proj_id=None,
+ device=device)
+
+ self.bp = AstraBackProjectorMC(volume_geometry=geomv,
+ sinogram_geometry=geomp,
+ proj_id=None,
+ device=device)
+
+ # Initialise empty for singular value.
+ self.s1 = None
+
+ def direct(self, IM):
+ self.fp.setInput(IM)
+ out = self.fp.getOutput()
+ return out
+
+ def adjoint(self, DATA):
+ self.bp.setInput(DATA)
+ out = self.bp.getOutput()
+ return out
+
+ #def delete(self):
+ # astra.data2d.delete(self.proj_id)
+
+ def get_max_sing_val(self):
+ self.s1, sall, svec = PowerMethodNonsquare(self,10)
+ return self.s1
+
+ def size(self):
+ # Only implemented for 2D
+ return ( (self.sinogram_geometry.angles.size, \
+ self.sinogram_geometry.pixel_num_h), \
+ (self.volume_geometry.voxel_num_x, \
+ self.volume_geometry.voxel_num_y) )
class AstraProjector(Operator):
diff --git a/Wrappers/Python/test/simple_mc_demo.py b/Wrappers/Python/test/simple_mc_demo.py
index ca6a89e..1888740 100644
--- a/Wrappers/Python/test/simple_mc_demo.py
+++ b/Wrappers/Python/test/simple_mc_demo.py
@@ -21,23 +21,76 @@ N = 128
numchannels = 3
-x = np.zeros((N,N,numchannels))
+x = np.zeros((N,N,1,numchannels))
-x[round(N/4):round(3*N/4),round(N/4):round(3*N/4),0] = 1.0
-x[round(N/8):round(7*N/8),round(3*N/8):round(5*N/8),0] = 2.0
+x[round(N/4):round(3*N/4),round(N/4):round(3*N/4),:,0] = 1.0
+x[round(N/8):round(7*N/8),round(3*N/8):round(5*N/8),:,0] = 2.0
-x[round(N/4):round(3*N/4),round(N/4):round(3*N/4),1] = 0.7
-x[round(N/8):round(7*N/8),round(3*N/8):round(5*N/8),1] = 1.2
+x[round(N/4):round(3*N/4),round(N/4):round(3*N/4),:,1] = 0.7
+x[round(N/8):round(7*N/8),round(3*N/8):round(5*N/8),:,1] = 1.2
-x[round(N/4):round(3*N/4),round(N/4):round(3*N/4),2] = 1.5
-x[round(N/8):round(7*N/8),round(3*N/8):round(5*N/8),2] = 2.2
+x[round(N/4):round(3*N/4),round(N/4):round(3*N/4),:,2] = 1.5
+x[round(N/8):round(7*N/8),round(3*N/8):round(5*N/8),:,2] = 2.2
f, axarr = plt.subplots(1,numchannels)
for k in numpy.arange(3):
- axarr[k].imshow(x[:,:,k],vmin=0,vmax=2.5)
+ axarr[k].imshow(x[:,:,0,k],vmin=0,vmax=2.5)
plt.show()
vg = VolumeGeometry(N,N,None, 1,1,None,channels=numchannels)
-Phantom = VolumeData(x,geometry=vg) \ No newline at end of file
+Phantom = VolumeData(x,geometry=vg)
+
+# Set up measurement geometry
+angles_num = 20; # angles number
+
+if test_case==1:
+ angles = np.linspace(0,np.pi,angles_num,endpoint=False)
+elif test_case==2:
+ angles = np.linspace(0,2*np.pi,angles_num,endpoint=False)
+else:
+ NotImplemented
+
+det_w = 1.0
+det_num = N
+SourceOrig = 200
+OrigDetec = 0
+
+# Parallelbeam geometry test
+if test_case==1:
+ pg = SinogramGeometry('parallel',
+ '2D',
+ angles,
+ det_num,
+ det_w,
+ channels=numchannels)
+elif test_case==2:
+ pg = SinogramGeometry('cone',
+ '2D',
+ angles,
+ det_num,
+ det_w,
+ dist_source_center=SourceOrig,
+ dist_center_detector=OrigDetec,
+ channels=numchannels)
+
+# ASTRA operator using volume and sinogram geometries
+Aop = AstraProjectorMC(vg, pg, 'gpu')
+
+
+# Try forward and backprojection
+b = Aop.direct(Phantom)
+
+fb, axarrb = plt.subplots(1,numchannels)
+for k in numpy.arange(3):
+ axarrb[k].imshow(b.as_array()[:,:,0,k],vmin=0,vmax=250)
+plt.show()
+
+out2 = Aop.adjoint(b)
+
+fo, axarro = plt.subplots(1,numchannels)
+for k in range(3):
+ axarro[k].imshow(out2.as_array()[:,:,0,k],vmin=0,vmax=3500)
+plt.show()
+