def calculate(self):
"""do the real calculation
"""
# clean up old results
self.rcalc = []
self.Gcalc = []
# do the job
if len(self.owner.strucs) == 0:
raise ControlConfigError("No structure is given for calculation")
# make sure parameters are initialized
self.owner.updateParameters()
from diffpy.pdffit2 import PdfFit
server = PdfFit()
# structure needs to be read before dataset allocation
for struc in self.owner.strucs:
server.read_struct_string(struc.writeStr('pdffit'))
for key,var in struc.constraints.items():
server.constrain(key.encode('ascii'), var.formula.encode('ascii'))
# set up dataset
server.alloc(self.stype, self.qmax, self.qdamp,
self.rmin, self.rmax, self.rlen)
server.setvar('qbroad', self.qbroad)
server.setvar('dscale', self.dscale)
# phase related variables
# pair selection applies to current dataset,
# therefore it has to be done after alloc
nstrucs = len(self.owner.strucs)
for phaseidx0, struc in enumerate(self.owner.strucs):
phaseidx1 = phaseidx0 + 1
server.setphase(phaseidx1)
server.setvar('pscale', struc.getvar('pscale'))
server.setvar('spdiameter', struc.getvar('spdiameter'))
struc.applyPairSelection(server, phaseidx1)
# set up parameters
for index, par in self.owner.parameters.items():
server.setpar(index, par.initialValue()) # info[0] = init value
# fix if fixed. Note: all parameters are free after server.reset().
if par.fixed:
server.fixpar(index)
# all ready here
server.calc()
# get results
self.rcalc = server.getR()
self.Gcalc = server.getpdf_fit()
def calculate(self):
"""do the real calculation
"""
# clean up old results
self.rcalc = []
self.Gcalc = []
# do the job
if len(self.owner.strucs) == 0:
raise ControlConfigError("No structure is given for calculation")
# make sure parameters are initialized
self.owner.updateParameters()
from diffpy.pdffit2 import PdfFit
server = PdfFit()
# structure needs to be read before dataset allocation
for struc in self.owner.strucs:
server.read_struct_string(struc.writeStr('pdffit'))
for key, var in struc.constraints.items():
server.constrain(key.encode('ascii'),
var.formula.encode('ascii'))
# set up dataset
server.alloc(self.stype, self.qmax, self.qdamp, self.rmin, self.rmax,
self.rlen)
server.setvar('qbroad', self.qbroad)
server.setvar('dscale', self.dscale)
# phase related variables
# pair selection applies to current dataset,
# therefore it has to be done after alloc
for phaseidx0, struc in enumerate(self.owner.strucs):
phaseidx1 = phaseidx0 + 1
server.setphase(phaseidx1)
server.setvar('pscale', struc.getvar('pscale'))
server.setvar('spdiameter', struc.getvar('spdiameter'))
struc.applyPairSelection(server, phaseidx1)
# set up parameters
for index, par in self.owner.parameters.items():
server.setpar(index, par.initialValue()) # info[0] = init value
# fix if fixed. Note: all parameters are free after server.reset().
if par.fixed:
server.fixpar(index)
# all ready here
server.calc()
# get results
self.rcalc = server.getR()
self.Gcalc = server.getpdf_fit()
class TestSphereEnvelope(unittest.TestCase):
places = 6
def setUp(self):
self.P = PdfFit()
return
def tearDown(self):
self.P = None
return
def test_calculation(self):
"""check calculation of sphere envelope factor
"""
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.calc()
d = 8.0
r = numpy.array(self.P.getR())
G0 = numpy.array(self.P.getpdf_fit())
self.P.setvar('spdiameter', d)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
dG = (G0*spherefactor(r, d) - G1)
msd = numpy.dot(dG, dG)/len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
return
def test_refinement(self):
"""check refinement of sphere envelope factor
"""
dcheck = 8.0
dstart = 12.0
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', dcheck)
self.P.calc()
r = numpy.array(self.P.getR())
Gd8 = numpy.array(self.P.getpdf_fit())
Gd8noise = Gd8
Gd8noise[::2] += 0.01
Gd8noise[1::2] -= 0.01
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_data_lists('X', 0.0, 0.05, list(r), list(Gd8noise))
self.P.constrain('spdiameter', '@8')
self.P.setpar(8, dstart)
self.P.refine()
dfinal = self.P.getvar('spdiameter')
self.assertAlmostEqual(dcheck, dfinal, 3)
return
def test_twophase_calculation(self):
"""check PDF calculation for 2 phases with different spdiameters
"""
d1 = 6
d2 = 9
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', d1)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', d2)
self.P.calc()
G2 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setphase(1)
self.P.setvar('spdiameter', d1)
self.P.setphase(2)
self.P.setvar('spdiameter', d2)
self.P.calc()
Gtot = numpy.array(self.P.getpdf_fit())
dG = (G1 + G2 - Gtot)
r = numpy.array(self.P.getR())
msd = numpy.dot(dG, dG)/len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
return
def test_twophase_refinement(self):
"""check PDF refinement of 2 phases that have different spdiameter.
"""
dcheck1 = 8.0
dstart1 = 8.2
dcheck2 = 6.0
dstart2 = 5.5
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', dcheck1)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', dcheck2)
self.P.calc()
G2 = numpy.array(self.P.getpdf_fit())
r = numpy.array(self.P.getR())
Gnoise = G1 + G2
Gnoise[::2] += 0.01
Gnoise[1::2] -= 0.01
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.read_data_lists('X', 0.0, 0.05, list(r), list(Gnoise))
self.P.setphase(1)
self.P.constrain('spdiameter', '@11')
self.P.setphase(2)
self.P.constrain('spdiameter', '@12')
self.P.setpar(11, dstart1)
self.P.setpar(12, dstart2)
self.P.refine()
dfinal2 = self.P.getvar('spdiameter')
self.P.setphase(1)
dfinal1 = self.P.getvar('spdiameter')
self.assertAlmostEqual(dcheck1, dfinal1, 3)
self.assertAlmostEqual(dcheck2, dfinal2, 3)
return
def test_spdiameter_io(self):
"""Check reading and writing of spdiameter from structure file.
"""
import re
self.P.read_struct(datafile('Ni.stru'))
self.assertEqual(0.0, self.P.getvar('spdiameter'))
# engine should not write shape factor when not defined
spdnone = self.P.save_struct_string(1)
self.failUnless(not re.search('(?m)^shape +sphere,', spdnone))
self.P.setvar('spdiameter', 7)
spd7 = self.P.save_struct_string(1)
# spd7 should contain shape factor data
self.failUnless(re.search('(?m)^shape +sphere,', spd7))
self.P.reset()
self.P.read_struct_string(spd7)
self.assertEqual(7.0, self.P.getvar('spdiameter'))
# try to read without comma
spd14 = re.sub('(?m)^shape +sphere.*$', 'shape sphere 14.00', spd7)
self.P.read_struct_string(spd14)
self.assertEqual(14.0, self.P.getvar('spdiameter'))
# try to read invalid shape data
sinvalid = re.sub('(?m)^shape .*', 'shape invalid, 1', spd7)
self.assertRaises(pdffit2.structureError,
self.P.read_struct_string, sinvalid)
return
class TestStepCutEnvelope(unittest.TestCase):
places = 6
def setUp(self):
self.P = PdfFit()
return
def tearDown(self):
self.P = None
return
def test_stepcut_calculation(self):
"""check calculation of sphere envelope factor
"""
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.calc()
stepcut = 8.0
r = numpy.array(self.P.getR())
G0 = numpy.array(self.P.getpdf_fit())
G0[r > stepcut] = 0.0
self.P.setvar('stepcut', stepcut)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
dG = (G0 - G1)
msd = numpy.dot(dG, dG)/len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
return
def test_twophase_stepcut_calculation(self):
"""check PDF calculation for 2 phases with different spdiameters
"""
d1 = 6
d2 = 9
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('stepcut', d1)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('stepcut', d2)
self.P.calc()
G2 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setphase(1)
self.P.setvar('stepcut', d1)
self.P.setphase(2)
self.P.setvar('stepcut', d2)
self.P.calc()
Gtot = numpy.array(self.P.getpdf_fit())
dG = (G1 + G2 - Gtot)
r = numpy.array(self.P.getR())
msd = numpy.dot(dG, dG)/len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
# G after step should be zero
self.failUnless(numpy.all(0 == Gtot[r > max(d1, d2)]))
return
def test_stepcut_io(self):
"""Check reading and writing of stepcut from structure file.
"""
import re
self.P.read_struct(datafile('Ni.stru'))
self.assertEqual(0.0, self.P.getvar('stepcut'))
# engine should not write shape factor when not defined
sscnone = self.P.save_struct_string(1)
self.failUnless(not re.search('(?m)^shape +stepcut,', sscnone))
self.P.setvar('stepcut', 7)
ssc7 = self.P.save_struct_string(1)
# ssc7 should contain shape factor data
self.failUnless(re.search('(?m)^shape +stepcut,', ssc7))
self.P.reset()
self.P.read_struct_string(ssc7)
self.assertEqual(7.0, self.P.getvar('stepcut'))
# try to read without comma
ssc14 = re.sub('(?m)^shape +stepcut.*$', 'shape stepcut 14.00', ssc7)
self.P.read_struct_string(ssc14)
self.assertEqual(14.0, self.P.getvar('stepcut'))
# try to read invalid shape data
sinvalid = re.sub('(?m)^shape .*', 'shape invalid, 1', ssc7)
self.assertRaises(pdffit2.structureError,
self.P.read_struct_string, sinvalid)
return
class TestSphereEnvelope(unittest.TestCase):
places = 6
def setUp(self):
self.P = PdfFit()
return
def tearDown(self):
self.P = None
return
def test_calculation(self):
"""check calculation of sphere envelope factor
"""
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.calc()
d = 8.0
r = numpy.array(self.P.getR())
G0 = numpy.array(self.P.getpdf_fit())
self.P.setvar('spdiameter', d)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
dG = (G0 * spherefactor(r, d) - G1)
msd = numpy.dot(dG, dG) / len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
return
def test_refinement(self):
"""check refinement of sphere envelope factor
"""
dcheck = 8.0
dstart = 12.0
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', dcheck)
self.P.calc()
r = numpy.array(self.P.getR())
Gd8 = numpy.array(self.P.getpdf_fit())
Gd8noise = Gd8
Gd8noise[::2] += 0.01
Gd8noise[1::2] -= 0.01
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_data_lists('X', 0.0, 0.05, list(r), list(Gd8noise))
self.P.constrain('spdiameter', '@8')
self.P.setpar(8, dstart)
self.P.refine()
dfinal = self.P.getvar('spdiameter')
self.assertAlmostEqual(dcheck, dfinal, 3)
return
def test_twophase_calculation(self):
"""check PDF calculation for 2 phases with different spdiameters
"""
d1 = 6
d2 = 9
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', d1)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', d2)
self.P.calc()
G2 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setphase(1)
self.P.setvar('spdiameter', d1)
self.P.setphase(2)
self.P.setvar('spdiameter', d2)
self.P.calc()
Gtot = numpy.array(self.P.getpdf_fit())
dG = (G1 + G2 - Gtot)
r = numpy.array(self.P.getR())
msd = numpy.dot(dG, dG) / len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
return
def test_twophase_refinement(self):
"""check PDF refinement of 2 phases that have different spdiameter.
"""
dcheck1 = 8.0
dstart1 = 8.2
dcheck2 = 6.0
dstart2 = 5.5
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', dcheck1)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('spdiameter', dcheck2)
self.P.calc()
G2 = numpy.array(self.P.getpdf_fit())
r = numpy.array(self.P.getR())
Gnoise = G1 + G2
Gnoise[::2] += 0.01
Gnoise[1::2] -= 0.01
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.read_data_lists('X', 0.0, 0.05, list(r), list(Gnoise))
self.P.setphase(1)
self.P.constrain('spdiameter', '@11')
self.P.setphase(2)
self.P.constrain('spdiameter', '@12')
self.P.setpar(11, dstart1)
self.P.setpar(12, dstart2)
self.P.refine()
dfinal2 = self.P.getvar('spdiameter')
self.P.setphase(1)
dfinal1 = self.P.getvar('spdiameter')
self.assertAlmostEqual(dcheck1, dfinal1, 3)
self.assertAlmostEqual(dcheck2, dfinal2, 3)
return
def test_spdiameter_io(self):
"""Check reading and writing of spdiameter from structure file.
"""
import re
self.P.read_struct(datafile('Ni.stru'))
self.assertEqual(0.0, self.P.getvar('spdiameter'))
# engine should not write shape factor when not defined
spdnone = self.P.save_struct_string(1)
self.assertTrue(not re.search('(?m)^shape +sphere,', spdnone))
self.P.setvar('spdiameter', 7)
spd7 = self.P.save_struct_string(1)
# spd7 should contain shape factor data
self.assertTrue(re.search('(?m)^shape +sphere,', spd7))
self.P.reset()
self.P.read_struct_string(spd7)
self.assertEqual(7.0, self.P.getvar('spdiameter'))
# try to read without comma
spd14 = re.sub('(?m)^shape +sphere.*$', 'shape sphere 14.00', spd7)
self.P.read_struct_string(spd14)
self.assertEqual(14.0, self.P.getvar('spdiameter'))
# try to read invalid shape data
sinvalid = re.sub('(?m)^shape .*', 'shape invalid, 1', spd7)
self.assertRaises(pdffit2.structureError, self.P.read_struct_string,
sinvalid)
return
class TestStepCutEnvelope(unittest.TestCase):
places = 6
def setUp(self):
self.P = PdfFit()
return
def tearDown(self):
self.P = None
return
def test_stepcut_calculation(self):
"""check calculation of sphere envelope factor
"""
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.calc()
stepcut = 8.0
r = numpy.array(self.P.getR())
G0 = numpy.array(self.P.getpdf_fit())
G0[r > stepcut] = 0.0
self.P.setvar('stepcut', stepcut)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
dG = (G0 - G1)
msd = numpy.dot(dG, dG) / len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
return
def test_twophase_stepcut_calculation(self):
"""check PDF calculation for 2 phases with different spdiameters
"""
d1 = 6
d2 = 9
self.P.read_struct(datafile('Ni.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('stepcut', d1)
self.P.calc()
G1 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setvar('stepcut', d2)
self.P.calc()
G2 = numpy.array(self.P.getpdf_fit())
self.P.reset()
self.P.read_struct(datafile('Ni.stru'))
self.P.read_struct(datafile('PbScW25TiO3.stru'))
self.P.alloc('X', 0.0, 0.05, 0.1, 10, 200)
self.P.setphase(1)
self.P.setvar('stepcut', d1)
self.P.setphase(2)
self.P.setvar('stepcut', d2)
self.P.calc()
Gtot = numpy.array(self.P.getpdf_fit())
dG = (G1 + G2 - Gtot)
r = numpy.array(self.P.getR())
msd = numpy.dot(dG, dG) / len(r)
self.assertAlmostEqual(0.0, numpy.sqrt(msd), self.places)
# G after step should be zero
self.assertTrue(numpy.all(0 == Gtot[r > max(d1, d2)]))
return
def test_stepcut_io(self):
"""Check reading and writing of stepcut from structure file.
"""
import re
self.P.read_struct(datafile('Ni.stru'))
self.assertEqual(0.0, self.P.getvar('stepcut'))
# engine should not write shape factor when not defined
sscnone = self.P.save_struct_string(1)
self.assertTrue(not re.search('(?m)^shape +stepcut,', sscnone))
self.P.setvar('stepcut', 7)
ssc7 = self.P.save_struct_string(1)
# ssc7 should contain shape factor data
self.assertTrue(re.search('(?m)^shape +stepcut,', ssc7))
self.P.reset()
self.P.read_struct_string(ssc7)
self.assertEqual(7.0, self.P.getvar('stepcut'))
# try to read without comma
ssc14 = re.sub('(?m)^shape +stepcut.*$', 'shape stepcut 14.00', ssc7)
self.P.read_struct_string(ssc14)
self.assertEqual(14.0, self.P.getvar('stepcut'))
# try to read invalid shape data
sinvalid = re.sub('(?m)^shape .*', 'shape invalid, 1', ssc7)
self.assertRaises(pdffit2.structureError, self.P.read_struct_string,
sinvalid)
return
