def calculateJumpData(self,
stackpartid,
reconrunid=None,
multimodelrunid=None,
sym='d7'):
if reconrunid is None and multimodelrunid is None:
return None
else:
#apDisplay.printMsg("calculating jump data for "+str(stackpartid))
jumpdata = {}
if multimodelrunid is None:
eulers = self.getEulersForParticle(stackpartid, reconrunid)
else:
eulers = self.getEulersForParticle_MMrun(
stackpartid, multimodelrunid)
if eulers is None:
return None
eulers.sort(self.sortByIteration)
distances = []
for i in range(len(eulers) - 1):
#calculate distance (in degrees) for D7 symmetry
dist = apEulerCalc.eulerCalculateDistanceSym(eulers[i],
eulers[i + 1],
sym=sym,
inplane=True)
distances.append(dist)
#f.write('%3.3f\t' % (dist))
distarray = numpy.asarray(distances, dtype=numpy.float32)
jumpdata['median'] = numpy.median(distarray)
jumpdata['mean'] = distarray.mean()
jumpdata['stdev'] = distarray.std()
jumpdata['min'] = distarray.min()
jumpdata['max'] = distarray.max()
return jumpdata
def calculateJumpData(self, stackpartid, reconrunid=None, multimodelrunid=None, sym='d7'):
if reconrunid is None and multimodelrunid is None:
return None
else:
#apDisplay.printMsg("calculating jump data for "+str(stackpartid))
jumpdata = {}
if multimodelrunid is None:
eulers = self.getEulersForParticle(stackpartid, reconrunid)
else:
eulers = self.getEulersForParticle_MMrun(stackpartid, multimodelrunid)
if eulers is None:
return None
eulers.sort(self.sortByIteration)
distances = []
for i in range(len(eulers)-1):
#calculate distance (in degrees) for D7 symmetry
dist = apEulerCalc.eulerCalculateDistanceSym(eulers[i], eulers[i+1], sym=sym, inplane=True)
distances.append(dist)
#f.write('%3.3f\t' % (dist))
distarray = numpy.asarray(distances, dtype=numpy.float32)
jumpdata['median'] = numpy.median(distarray)
jumpdata['mean'] = distarray.mean()
jumpdata['stdev'] = distarray.std()
jumpdata['min'] = distarray.min()
jumpdata['max'] = distarray.max()
return jumpdata
def calc3dRotationalDifference(self, eulerpair):
e1 = { "euler1": eulerpair['part1']['euler1'],
"euler2": eulerpair['part1']['euler2'],
"euler3": eulerpair['part1']['euler3'] }
e2 = { "euler1": eulerpair['part1']['euler1'],
"euler2": eulerpair['part1']['euler2'],
"euler3": eulerpair['part2']['euler3'] }
rotdist = apEulerCalc.eulerCalculateDistanceSym(e1, e2, sym=self.params['symmname'], inplane=True)
return rotdist
def calc3dRotationalDifference(self, eulerpair):
e1 = { "euler1": eulerpair['part1']['euler1'],
"euler2": eulerpair['part1']['euler2'],
"euler3": eulerpair['part1']['euler3'] }
e2 = { "euler1": eulerpair['part1']['euler1'],
"euler2": eulerpair['part1']['euler2'],
"euler3": eulerpair['part2']['euler3'] }
rotdist = apEulerCalc.eulerCalculateDistanceSym(e1, e2, sym=self.params['symmname'], inplane=True)
return rotdist
def processEulers(self, eulertree):
t0 = time.time()
#angdistlist = []
totdistlist = []
rotdistlist = []
t0 = time.time()
apDisplay.printMsg("Begin processing " + str(len(eulertree)) +
" euler distances")
count = 0
for eulerpair in eulertree:
count += 1
if count % 500 == 0:
sys.stderr.write(".")
#eulerpair['angdist'] = apEulerCalc.eulerCalculateDistanceSym(eulerpair['part1'],
# eulerpair['part2'], sym=self.params['symmname'], inplane=False)
eulerpair['totdist'] = apEulerCalc.eulerCalculateDistanceSym(
eulerpair['part1'],
eulerpair['part2'],
sym=self.params['symmname'],
inplane=True)
eulerpair['rotdist'] = self.calc2dRotationalDifference(eulerpair)
### ignore rejected particles
#if eulerpair['part1']['reject'] == 0 or eulerpair['part2']['reject'] == 0:
#print eulerpair['part1']['mirror'],eulerpair['part2']['mirror'],eulerpair['totdist']
#angdistlist.append(eulerpair['angdist'])
totdistlist.append(eulerpair['totdist'])
rotdistlist.append(eulerpair['rotdist'])
apDisplay.printMsg("Processed " + str(len(eulertree)) + " eulers in " +
apDisplay.timeString(time.time() - t0))
self.writeRawDataFile(eulertree)
self.writeKeepFiles(eulertree)
#self.writeScatterFile(eulertree)
print "ANGLE EULER DATA:"
#D-symmetry goes to 90, all other 180
#self.analyzeList(angdistlist, tuple((0,None,self.params['stepsize'])), "angdata"+self.datastr+".dat")
print "PLANE ROTATION DATA:"
self.analyzeList(rotdistlist,
tuple((None, None, self.params['stepsize'])),
"rotdata" + self.datastr + ".dat")
print "TOTAL EULER DATA:"
#D-symmetry goes to 90, all other 180
self.analyzeList(totdistlist, tuple(
(0, None, self.params['stepsize'])),
"totaldata" + self.datastr + ".dat")
apDisplay.printMsg("Processed " + str(len(eulertree)) + " eulers in " +
apDisplay.timeString(time.time() - t0))
def processEulers(self, eulertree):
t0 = time.time()
#angdistlist = []
totdistlist = []
rotdistlist = []
t0 = time.time()
apDisplay.printMsg("Begin processing "+str(len(eulertree))+" euler distances")
count = 0
for eulerpair in eulertree:
count += 1
if count % 500 == 0:
sys.stderr.write(".")
#eulerpair['angdist'] = apEulerCalc.eulerCalculateDistanceSym(eulerpair['part1'],
# eulerpair['part2'], sym=self.params['symmname'], inplane=False)
eulerpair['totdist'] = apEulerCalc.eulerCalculateDistanceSym(eulerpair['part1'],
eulerpair['part2'], sym=self.params['symmname'], inplane=True)
eulerpair['rotdist'] = self.calc2dRotationalDifference(eulerpair)
### ignore rejected particles
#if eulerpair['part1']['reject'] == 0 or eulerpair['part2']['reject'] == 0:
#print eulerpair['part1']['mirror'],eulerpair['part2']['mirror'],eulerpair['totdist']
#angdistlist.append(eulerpair['angdist'])
totdistlist.append(eulerpair['totdist'])
rotdistlist.append(eulerpair['rotdist'])
apDisplay.printMsg("Processed "+str(len(eulertree))+" eulers in "
+apDisplay.timeString(time.time()-t0))
self.writeRawDataFile(eulertree)
self.writeKeepFiles(eulertree)
#self.writeScatterFile(eulertree)
print "ANGLE EULER DATA:"
#D-symmetry goes to 90, all other 180
#self.analyzeList(angdistlist, tuple((0,None,self.params['stepsize'])), "angdata"+self.datastr+".dat")
print "PLANE ROTATION DATA:"
self.analyzeList(rotdistlist, tuple((None,None,self.params['stepsize'])), "rotdata"+self.datastr+".dat")
print "TOTAL EULER DATA:"
#D-symmetry goes to 90, all other 180
self.analyzeList(totdistlist, tuple((0,None,self.params['stepsize'])), "totaldata"+self.datastr+".dat")
apDisplay.printMsg("Processed "+str(len(eulertree))+" eulers in "+apDisplay.timeString(time.time()-t0))
