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#-----------------------------------------------------------------------
#Copyright 2013 Centrum Wiskunde & Informatica, Amsterdam
#
#Author: Daniel M. Pelt
#Contact: D.M.Pelt@cwi.nl
#Website: http://dmpelt.github.io/pyastratoolbox/
#
#
#This file is part of the Python interface to the
#All Scale Tomographic Reconstruction Antwerp Toolbox ("ASTRA Toolbox").
#
#The Python interface to the ASTRA Toolbox is free software: you can redistribute it and/or modify
#it under the terms of the GNU General Public License as published by
#the Free Software Foundation, either version 3 of the License, or
#(at your option) any later version.
#
#The Python interface to the ASTRA Toolbox is distributed in the hope that it will be useful,
#but WITHOUT ANY WARRANTY; without even the implied warranty of
#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
#GNU General Public License for more details.
#
#You should have received a copy of the GNU General Public License
#along with the Python interface to the ASTRA Toolbox. If not, see <http://www.gnu.org/licenses/>.
#
#-----------------------------------------------------------------------
# distutils: language = c++
# distutils: libraries = astra
import six
cimport cython
cimport PyData3DManager
from .PyData3DManager cimport CData3DManager
from .PyIncludes cimport *
import numpy as np
cimport numpy as np
np.import_array()
cimport PyXMLDocument
from .PyXMLDocument cimport XMLDocument
cimport utils
from .utils import wrap_from_bytes
cdef CData3DManager * man3d = <CData3DManager * >PyData3DManager.getSingletonPtr()
cdef extern from *:
CFloat32Data3DMemory * dynamic_cast_mem "dynamic_cast<astra::CFloat32Data3DMemory*>" (CFloat32Data3D * ) except NULL
def create(datatype,geometry,data=None):
cdef XMLDocument * xml
cdef Config cfg
cdef CVolumeGeometry3D * pGeometry
cdef CProjectionGeometry3D * ppGeometry
cdef CFloat32Data3DMemory * pDataObject3D
cdef CConeProjectionGeometry3D* pppGeometry
if datatype == '-vol':
xml = utils.dict2XML(six.b('VolumeGeometry'), geometry)
cfg.self = xml.getRootNode()
pGeometry = new CVolumeGeometry3D()
if not pGeometry.initialize(cfg):
del xml
del pGeometry
raise Exception('Geometry class not initialized.')
pDataObject3D = <CFloat32Data3DMemory * > new CFloat32VolumeData3DMemory(pGeometry)
del xml
del pGeometry
elif datatype == '-sino' or datatype == '-proj3d':
xml = utils.dict2XML(six.b('ProjectionGeometry'), geometry)
cfg.self = xml.getRootNode()
tpe = wrap_from_bytes(cfg.self.getAttribute(six.b('type')))
if (tpe == "parallel3d"):
ppGeometry = <CProjectionGeometry3D*> new CParallelProjectionGeometry3D();
elif (tpe == "parallel3d_vec"):
ppGeometry = <CProjectionGeometry3D*> new CParallelVecProjectionGeometry3D();
elif (tpe == "cone"):
ppGeometry = <CProjectionGeometry3D*> new CConeProjectionGeometry3D();
elif (tpe == "cone_vec"):
ppGeometry = <CProjectionGeometry3D*> new CConeVecProjectionGeometry3D();
else:
raise Exception("Invalid geometry type.")
if not ppGeometry.initialize(cfg):
del xml
del ppGeometry
raise Exception('Geometry class not initialized.')
pDataObject3D = <CFloat32Data3DMemory * > new CFloat32ProjectionData3DMemory(ppGeometry)
del ppGeometry
del xml
elif datatype == "-sinocone":
xml = utils.dict2XML(six.b('ProjectionGeometry'), geometry)
cfg.self = xml.getRootNode()
pppGeometry = new CConeProjectionGeometry3D()
if not pppGeometry.initialize(cfg):
del xml
del pppGeometry
raise Exception('Geometry class not initialized.')
pDataObject3D = <CFloat32Data3DMemory * > new CFloat32ProjectionData3DMemory(pppGeometry)
else:
raise Exception("Invalid datatype. Please specify '-vol' or '-proj3d'.")
if not pDataObject3D.isInitialized():
del pDataObject3D
raise Exception("Couldn't initialize data object.")
fillDataObject(pDataObject3D, data)
pDataObject3D.updateStatistics()
return man3d.store(<CFloat32Data3D*>pDataObject3D)
cdef fillDataObject(CFloat32Data3DMemory * obj, data):
if data is None:
fillDataObjectScalar(obj, 0)
else:
if isinstance(data, np.ndarray):
fillDataObjectArray(obj, np.ascontiguousarray(data,dtype=np.float32))
else:
fillDataObjectScalar(obj, np.float32(data))
cdef fillDataObjectScalar(CFloat32Data3DMemory * obj, float s):
cdef int i
for i in range(obj.getSize()):
obj.getData()[i] = s
@cython.boundscheck(False)
@cython.wraparound(False)
cdef fillDataObjectArray(CFloat32Data3DMemory * obj, float [:,:,::1] data):
if (not data.shape[0] == obj.getDepth()) or (not data.shape[1] == obj.getHeight()) or (not data.shape[2] == obj.getWidth()):
raise Exception(
"The dimensions of the data do not match those specified in the geometry.")
cdef float [:,:,::1] cView = <float[:data.shape[0],:data.shape[1],:data.shape[2]]> obj.getData3D()[0][0]
cView[:] = data
cdef CFloat32Data3D * getObject(i) except NULL:
cdef CFloat32Data3D * pDataObject = man3d.get(i)
if pDataObject == NULL:
raise Exception("Data object not found")
if not pDataObject.isInitialized():
raise Exception("Data object not initialized properly.")
return pDataObject
@cython.boundscheck(False)
@cython.wraparound(False)
def get(i):
cdef CFloat32Data3DMemory * pDataObject = dynamic_cast_mem(getObject(i))
outArr = np.empty((pDataObject.getDepth(),pDataObject.getHeight(), pDataObject.getWidth()),dtype=np.float32,order='C')
cdef float [:,:,::1] mView = outArr
cdef float [:,:,::1] cView = <float[:outArr.shape[0],:outArr.shape[1],:outArr.shape[2]]> pDataObject.getData3D()[0][0]
mView[:] = cView
return outArr
def get_shared(i):
cdef CFloat32Data3DMemory * pDataObject = dynamic_cast_mem(getObject(i))
outArr = np.empty((pDataObject.getDepth(),pDataObject.getHeight(), pDataObject.getWidth()),dtype=np.float32,order='C')
cdef np.npy_intp shape[3]
shape[0] = <np.npy_intp> pDataObject.getDepth()
shape[1] = <np.npy_intp> pDataObject.getHeight()
shape[2] = <np.npy_intp> pDataObject.getWidth()
return np.PyArray_SimpleNewFromData(3,shape,np.NPY_FLOAT32,<void *>pDataObject.getData3D()[0][0])
def get_single(i):
raise Exception("Not yet implemented")
def store(i,data):
cdef CFloat32Data3D * pDataObject = getObject(i)
fillDataObject(dynamic_cast_mem(pDataObject), data)
def dimensions(i):
cdef CFloat32Data3D * pDataObject = getObject(i)
return (pDataObject.getWidth(),pDataObject.getHeight(),pDataObject.getDepth())
def delete(ids):
try:
for i in ids:
man3d.remove(i)
except TypeError:
man3d.remove(ids)
def clear():
man3d.clear()
def info():
six.print_(wrap_from_bytes(man3d.info()))
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