def compute(self): if self.getVal('compute'): direction = self.getVal('direction') bm = self.getVal('bitmask') kspace = self.getData('input') # load up arguments list args = [base_path+'/cdf97'] if direction != 0: args += ['-i'] args += [str(bm)] in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): i = self.getVal('iterations') s = self.getVal('relative subspace size') kspace = self.getData('kspace') # load up arguments list args = [base_path+'/bart sake'] args += [str(i)] args += [str(s)] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl','.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): i = self.getVal('iterations') s = self.getVal('relative subspace size') kspace = self.getData('kspace') # load up arguments list args = [base_path + '/bart sake'] args += [str(i)] args += [str(s)] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): kspace = self.getData('kspace') # load up arguments list args = [base_path+'/bart homodyne'] args += [str(self.getVal('dim'))] args += [str(self.getVal('fraction'))] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl','.hdr']) args += [in1] out1 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out1] # run commandline print(Command(*args)) self.setData('out', out1.data()) in1.close() out1.close() return 0
def compute(self): # load up arguments list args = [base_path + '/bart poisson'] args += ['-Y {}'.format(self.getVal('y size'))] args += ['-Z {}'.format(self.getVal('z size'))] args += ['-y {}'.format(self.getVal('y accel'))] args += ['-z {}'.format(self.getVal('z accel'))] args += ['-C {}'.format(self.getVal('cal size'))] if self.getVal('variable density'): args += ['-v'] if self.getVal('elliptical'): args += ['-e'] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('out', out.data()) out.close() return 0
def compute(self): if self.getVal('compute'): direction = self.getVal('direction') bm = self.getVal('bitmask') kspace = self.getData('input') # load up arguments list args = [base_path + '/cdf97'] if direction != 0: args += ['-i'] args += [str(bm)] in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): k = self.getVal('kernel size') r = self.getVal('calibration region size') kspace = self.getData('kspace') # load up arguments list args = [base_path + '/bart calmat'] args += ['-r ' + str(r)] args += ['-k ' + str(k)] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): x = self.getVal('readout samples') y = self.getVal('phase encoding lines') a = self.getVal('acceleration') t = self.getVal('turns') r = self.getVal('radial') g = self.getVal('golden-ratio sampling') d = self.getVal('double base angle') # load up arguments list args = [base_path + '/bart traj'] args += ['-x ' + str(x)] args += ['-y ' + str(y)] args += ['-a ' + str(a)] args += ['-t ' + str(t)] args += r * ['-r'] args += g * ['-G'] args += d * ['-D'] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('out1', out.data()) out.close() return 0
def compute(self): kspace = self.getData('kspace') # load up arguments list args = [base_path+'/bart nlinv'] if self.getVal('regularization') == 0: args += ['-l1'] else: args += ['-l2'] args += ['-i {}'.format(self.getVal('iterations'))] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl','.hdr']) args += [in1] out1 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out1] out2 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out2] # run commandline print(Command(*args)) self.setData('out', out1.data()) self.setData('sensitivities', out2.data()) in1.close() out1.close() out2.close() return 0
def compute(self): x = self.getVal("readout samples") y = self.getVal("phase encoding lines") a = self.getVal("acceleration") t = self.getVal("turns") r = self.getVal("radial") g = self.getVal("golden-ratio sampling") d = self.getVal("double base angle") # load up arguments list args = [base_path + "/bart traj"] args += ["-x " + str(x)] args += ["-y " + str(y)] args += ["-a " + str(a)] args += ["-t " + str(t)] args += r * ["-r"] args += g * ["-G"] args += d * ["-D"] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=[".cfl", ".hdr"]) args += [out] # run commandline print(Command(*args)) self.setData("out1", out.data()) out.close() return 0
def compute(self): f = self.getVal("factor") indata = self.getData("in") # load up arguments list args = [base_path + "/bart scale"] args += [str(f)] # setup file for passing data to external command inp = IFilePath(cfl.writecfl, indata, asuffix=[".cfl", ".hdr"]) args += [inp] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=[".cfl", ".hdr"]) args += [out] # run commandline print(Command(*args)) self.setData("out", out.data()) out.close() inp.close() return 0
def compute(self): j = self.getVal('thresholding bitmask') lamda = self.getVal('lambda') inp = self.getData('input') # load up arguments list args = [base_path + '/bart threshold'] args += ['-j ' + str(j)] args += [str(lamda)] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, inp, asuffix=['.cfl', '.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): f = self.getVal('factor') indata = self.getData('in') # load up arguments list args = [base_path+'/bart scale'] args += [str(f)] # setup file for passing data to external command inp = IFilePath(cfl.writecfl, indata, asuffix=['.cfl','.hdr']) args += [inp] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('out', out.data()) out.close() inp.close() return 0
def compute(self): kspace = self.getData('kspace') # load up arguments list args = [base_path + '/bart homodyne'] args += [str(self.getVal('dim'))] args += [str(self.getVal('fraction'))] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [in1] out1 = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out1] # run commandline print(Command(*args)) self.setData('out', out1.data()) in1.close() out1.close() return 0
def compute(self): j = self.getVal('thresholding bitmask') lamda = self.getVal('lambda') inp = self.getData('input') # load up arguments list args = [base_path+'/bart threshold'] args += ['-j '+str(j)] args += [str(lamda)] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, inp, asuffix=['.cfl','.hdr']) args += [in1] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): reg = self.getVal('Regularization:') alpha = self.getVal('regularization parameter') kspace = self.getData('kspace') inmaps = self.getData('sensitivities') # load up arguments list args = [base_path + '/bart pocsense'] if reg == 0: args += ['-l1'] else: args += ['-l2'] args += ['-r ' + str(alpha)] # setup file for passing data to external command coords = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [coords] sens = IFilePath(cfl.writecfl, inmaps, asuffix=['.cfl', '.hdr']) args += [sens] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): reg = self.getVal('Regularization:') alpha = self.getVal('regularization parameter') kspace = self.getData('kspace') inmaps = self.getData('sensitivities') # load up arguments list args = [base_path+'/bart pocsense'] if reg == 0: args += ['-l1'] else: args += ['-l2'] args += ['-r '+str(alpha)] # setup file for passing data to external command coords = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl','.hdr']) args += [coords] sens = IFilePath(cfl.writecfl, inmaps, asuffix=['.cfl','.hdr']) args += [sens] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() return 0
def compute(self): adjoint = self.getVal('adjoint') inverse = self.getVal('inverse') dimensions = self.getVal('dimensions') toeplitz = self.getVal('toeplitz') lmbda = self.getVal('lambda') kspace = self.getData('input') traj = self.getData('traj') # load up arguments list args = [base_path + '/bart nufft'] args += ['-l ' + str(lmbda)] if adjoint: args += ['-a'] if inverse: args += ['-i'] if toeplitz: args += ['-t'] if dimensions != '': try: dims = re.search('^([0-9]*):([0-9]*):([0-9]*)$', dimensions).groups() args += ['-d ' + ':'.join(dims)] except: self.log.warn( '\'dimensions\' must be a list of positive integers delimited by colons (i.e. int:int:int), skipping...' ) # setup file for passing data to external command in_traj = IFilePath(cfl.writecfl, traj, asuffix=['.cfl', '.hdr']) in_kspc = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) args += [in_traj, in_kspc] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() in_traj.close() in_kspc.close() return 0
def compute(self): adjoint = self.getVal('adjoint') inverse = self.getVal('inverse') dimensions = self.getVal('dimensions') toeplitz = self.getVal('toeplitz') lmbda = self.getVal('lambda') kspace = self.getData('input') traj = self.getData('traj') # load up arguments list args = [base_path+'/bart nufft'] args += ['-l '+str(lmbda)] if adjoint: args += ['-a'] if inverse: args += ['-i'] if toeplitz: args += ['-t'] if dimensions != '': try: dims = re.search('^([0-9]*):([0-9]*):([0-9]*)$', dimensions).groups() args += ['-d '+':'.join(dims)] except: self.log.warn('\'dimensions\' must be a list of positive integers delimited by colons (i.e. int:int:int), skipping...') # setup file for passing data to external command in_traj = IFilePath(cfl.writecfl, traj, asuffix=['.cfl','.hdr']) in_kspc = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl','.hdr']) args += [in_traj, in_kspc] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('output', out.data()) out.close() in_traj.close() in_kspc.close() return 0
def compute(self): kspace = self.getData('kspace') coil_maps = self.getData('coil_maps') trajectory = self.getData('traj') reg = self.getVal('regularization') lamb = self.getVal('lamb') # load up arguments list args = [base_path + '/bart pics'] if reg == 0: args += ['-l1'] else: args += ['-l2'] args += ['-r {}'.format(lamb)] args += ['-e -i 100'] # setup file for getting data from external command if trajectory is not None: traj = IFilePath(cfl.writecfl, trajectory, asuffix=['.cfl', '.hdr']) args += ['-t', traj] kspace = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl', '.hdr']) coil_maps = IFilePath(cfl.writecfl, coil_maps, asuffix=['.cfl', '.hdr']) output = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [kspace, coil_maps, output] print(Command(*args)) self.setData('output', output.data()) if trajectory is not None: traj.close() kspace.close() coil_maps.close() output.close() return 0
def compute(self): # load up arguments list args = [base_path + '/bart phantom'] args += ['-s {}'.format(self.getVal('num_coils'))] if self.getVal('kspace'): args += ['-k'] traj = self.getData('traj') if traj is not None: traj_file = IFilePath(cfl.writecfl, traj, asuffix=['.cfl', '.hdr']) args += ['-t', traj_file] # setup file for getting data from external command out = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out] # run commandline print(Command(*args)) self.setData('out1', out.data()) out.close() return 0
def compute(self): t = self.getVal('threshold') c = self.getVal('crop value') k = self.getVal('kernel size') r = self.getVal('calibration size') m = self.getVal('number maps') I = self.getVal('intensity correction') first = self.getVal('1st part only') kspace = self.getData('kspace') # load up arguments list args = [base_path+'/bart ecalib'] args += ['-t '+str(t)] args += ['-c '+str(c)] args += ['-k '+str(k)] args += ['-r '+str(r)] args += ['-m '+str(m)] if I: args += ['-I'] if first: args += ['-1'] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, kspace, asuffix=['.cfl','.hdr']) args += [in1] out1 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out1] if not first: out2 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out2] # run commandline print(Command(*args)) if first: self.setData('imgcov', out1.data()) else: self.setData('sensitivities', out1.data()) out1.close() if not first: self.setData('ev_maps', out2.data()) out2.close() in1.close() return 0
def compute(self): e = self.getVal('SVD Econ') inp = self.getData('input') # load up arguments list args = [base_path + '/bart svd'] if e: args += ['-e'] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, inp, asuffix=['.cfl', '.hdr']) args += [in1] # setup file for getting data from external command out1 = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out1] out2 = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out2] out3 = OFilePath(cfl.readcfl, asuffix=['.cfl', '.hdr']) args += [out3] # run commandline print(Command(*args)) self.setData('U', out1.data()) self.setData('S', out2.data()) self.setData('VH', out3.data()) out1.close() out2.close() out3.close() return 0
def compute(self): e = self.getVal('SVD Econ') inp = self.getData('input') # load up arguments list args = [base_path+'/bart svd'] if e: args += ['-e'] # setup file for passing data to external command in1 = IFilePath(cfl.writecfl, inp, asuffix=['.cfl','.hdr']) args += [in1] # setup file for getting data from external command out1 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out1] out2 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out2] out3 = OFilePath(cfl.readcfl, asuffix=['.cfl','.hdr']) args += [out3] # run commandline print(Command(*args)) self.setData('U', out1.data()) self.setData('S', out2.data()) self.setData('VH', out3.data()) out1.close() out2.close() out3.close() return 0