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#!/usr/bin/env python
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import pdb, os, sys, gc, math, re, threading, time, struct, string
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from optparse import OptionParser, OptionGroup, Option, SUPPRESS_HELP
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fileExtensions = { \
'marc': ['.t16',],
'spectral': ['.spectralOut',],
}
releases = { \
'2010':['linux64',''],
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'2008r1':[''],
'2007r1':[''],
'2005r3':[''],
}
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# -----------------------------
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class vector: # mimic py_post node object
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# -----------------------------
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x,y,z = [None,None,None]
def __init__(self,coords):
self.x = coords[0]
self.y = coords[1]
self.z = coords[2]
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# -----------------------------
class element: # mimic py_post element object
# -----------------------------
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items = []
type = None
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def __init__(self,nodes,type):
self.items = nodes
self.type = type
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# -----------------------------
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class elemental_scalar: # mimic py_post element_scalar object
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# -----------------------------
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id = None
value = None
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def __init__(self,node,value):
self.id = node
self.value = value
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# -----------------------------
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class MPIEspectral_result: # mimic py_post result object
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# -----------------------------
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file = None
dataOffset = 0
N_elemental_scalars = 0
resolution = [0,0,0]
dimension = [0.0,0.0,0.0]
theTitle = ''
wd = ''
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geometry = ''
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extrapolate = ''
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N_loadcases = 0
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N_increments = 0
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_frequencies = []
_increments = []
_times = []
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increment = 0
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position = 0
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time = 0.0 # this is a dummy at the moment, we need to parse the load file and figure out what time a particular increment corresponds to
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N_nodes = 0
N_node_scalars = 0
N_elements = 0
N_element_scalars = 0
N_element_tensors = 0
def __init__(self,filename):
self.file = open(filename, 'rb')
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self.theTitle = self._keyedString('load')
self.wd = self._keyedString('workingdir')
self.geometry = self._keyedString('geometry')
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self.N_loadcases = self._keyedPackedArray('loadcases',count=1,type='i',default=1)[0]
self._frequencies = self._keyedPackedArray('frequencies',count=self.N_loadcases,type='i',default=1)
self._increments = self._keyedPackedArray('increments',count=self.N_loadcases,type='i')
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self._increments[0] -= 1 # delete zero'th entry
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self._times = self._keyedPackedArray('times',count=self.N_loadcases,type='d',default=0.0)
self.dimension = self._keyedPackedArray('dimension',count=3,type='d')
self.resolution = self._keyedPackedArray('resolution',count=3,type='i')
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self.N_nodes = (self.resolution[0]+1)*(self.resolution[1]+1)*(self.resolution[2]+1)
self.N_elements = self.resolution[0] * self.resolution[1] * self.resolution[2]
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self.N_element_scalars = self._keyedPackedArray('materialpoint_sizeResults',count=1,type='i',default=0)[0]
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self.file.seek(0)
self.dataOffset = self.file.read(2048).find('eoh')+7
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self.N_increments = 1 # add zero'th entry
for i in range(self.N_loadcases):
self.N_increments += self._increments[i]//self._frequencies[i]
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def __str__(self):
return '\n'.join([
'workdir: %s'%self.wd,
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'geometry: %s'%self.geometry,
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'loadcases: %i'%self.N_loadcases,
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'resolution: %s'%(','.join(map(str,self.resolution))),
'dimension: %s'%(','.join(map(str,self.dimension))),
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'header size: %i'%self.dataOffset,
'file size: %i'%(self.dataOffset+self.N_increments*(8+self.N_elements*self.N_element_scalars*8)),
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]
)
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def locateKeyValue(self,identifier):
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key = {'name':'','pos':0}
filepos = 0
while key['name'] != identifier and key['name'] != 'eoh' and filepos < 2048:
self.file.seek(filepos)
tag = self.file.read(4) # read the starting/ending tag
key['name'] = self.file.read(len(identifier)) # anticipate identifier
key['pos'] = self.file.tell() # remember position right after identifier
self.file.seek(filepos+4) # start looking after opening tag
filepos += 4 + self.file.read(2048).find(tag) + 4 # locate end of closing tag
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return key
def _keyedPackedArray(self,identifier,count = 3,type = 'd',default = None):
bytecount = {'d': 8,'i': 4}
values = [default]*count
key = self.locateKeyValue(identifier)
if key['name'] == identifier:
self.file.seek(key['pos'])
for i in range(count):
values[i] = struct.unpack(type,self.file.read(bytecount[type]))[0]
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return values
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def _keyedString(self,identifier,default=None):
value = default
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self.file.seek(0)
m = re.search(r'(.{4})%s(.*?)\1'%identifier,self.file.read(2048),re.DOTALL)
if m:
value = m.group(2)
return value
def title(self):
return self.theTitle
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def moveto(self,pos):
self.position = pos
self.increment = 0
self.time = 0.0
p = pos
for l in range(self.N_loadcases):
if p <= self._increments[l]//self._frequencies[l]:
break
else:
self.increment += self._increments[l]
self.time += self._times[l]
p -= self._increments[l]//self._frequencies[l]
self.increment += self._frequencies[l] * p
self.time += self._times[l]/self._increments[l] * self._frequencies[l] * p
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def extrapolation(self,value):
self.extrapolate = value
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def node_sequence(self,n):
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return n-1
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def node_id(self,n):
return n+1
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def node(self,n):
a = self.resolution[0]+1
b = self.resolution[1]+1
c = self.resolution[2]+1
return vector([self.dimension[0] * (n%a) / self.resolution[0],
self.dimension[1] * ((n/a)%b) / self.resolution[1],
self.dimension[2] * ((n/a/b)%c) / self.resolution[2],
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])
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def element_sequence(self,e):
return e-1
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def element_id(self,e):
return e+1
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def element(self,e):
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a = self.resolution[0]+1
b = self.resolution[1]+1
c = self.resolution[2]+1
basenode = 1 + e+e/self.resolution[0] + e/self.resolution[0]/self.resolution[1]*a
basenode2 = basenode+a*b
return (element([basenode ,basenode +1,basenode +a+1,basenode +a,
basenode2 ,basenode2+1,basenode2+a+1,basenode2+a,
],117))
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def increments(self):
return self.N_increments
def nodes(self):
return self.N_nodes
def node_scalars(self):
return self.N_node_scalars
def elements(self):
return self.N_elements
def element_scalars(self):
return self.N_element_scalars
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def element_scalar(self,e,idx):
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self.file.seek(self.dataOffset+(self.position*(4+self.N_elements*self.N_element_scalars*8+4) + 4+(e*self.N_element_scalars + idx)*8))
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try:
value = struct.unpack('d',self.file.read(8))[0]
except:
print 'seeking',self.dataOffset+(self.position*(4+self.N_elements*self.N_element_scalars*8+4) + 4+(e*self.N_element_scalars + idx)*8)
print 'e',e,'idx',idx
sys.exit(1)
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return [elemental_scalar(node,value) for node in self.element(e).items]
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def element_scalar_label(elem,idx):
return 'User Defined Variable %i'%(idx+1)
def element_tensors(self):
return self.N_element_tensors
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# -----------------------------
class MyOption(Option):
# -----------------------------
# used for definition of new option parser action 'extend', which enables to take multiple option arguments
# taken from online tutorial http://docs.python.org/library/optparse.html
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ACTIONS = Option.ACTIONS + ("extend",)
STORE_ACTIONS = Option.STORE_ACTIONS + ("extend",)
TYPED_ACTIONS = Option.TYPED_ACTIONS + ("extend",)
ALWAYS_TYPED_ACTIONS = Option.ALWAYS_TYPED_ACTIONS + ("extend",)
def take_action(self, action, dest, opt, value, values, parser):
if action == "extend":
lvalue = value.split(",")
values.ensure_value(dest, []).extend(lvalue)
else:
Option.take_action(self, action, dest, opt, value, values, parser)
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# -----------------------------
class backgroundMessage(threading.Thread):
# -----------------------------
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def __init__(self):
threading.Thread.__init__(self)
self.message = ''
self.new_message = ''
self.counter = 0
self.symbols = ['- ', '\ ', '| ', '/ ',]
self.waittime = 0.5
def __quit__(self):
length = len(self.message) + len(self.symbols[self.counter])
sys.stderr.write(chr(8)*length + ' '*length + chr(8)*length)
sys.stderr.write('')
def run(self):
while not threading.enumerate()[0]._Thread__stopped:
time.sleep(self.waittime)
self.update_message()
self.__quit__()
def set_message(self, new_message):
self.new_message = new_message
self.print_message()
def print_message(self):
length = len(self.message) + len(self.symbols[self.counter])
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sys.stderr.write(chr(8)*length + ' '*length + chr(8)*length) # delete former message
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sys.stderr.write(self.symbols[self.counter] + self.new_message) # print new message
self.message = self.new_message
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def update_message(self):
self.counter = (self.counter + 1)%len(self.symbols)
self.print_message()
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# -----------------------------
def ipCoords(elemType, nodalCoordinates):
#
# returns IP coordinates for a given element
# -----------------------------
nodeWeightsPerNode = {
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7: [ [27.0, 9.0, 3.0, 9.0, 9.0, 3.0, 1.0, 3.0],
[ 9.0, 27.0, 9.0, 3.0, 3.0, 9.0, 3.0, 1.0],
[ 3.0, 9.0, 27.0, 9.0, 1.0, 3.0, 9.0, 3.0],
[ 9.0, 3.0, 9.0, 27.0, 3.0, 1.0, 3.0, 9.0],
[ 9.0, 3.0, 1.0, 3.0, 27.0, 9.0, 3.0, 9.0],
[ 3.0, 9.0, 3.0, 1.0, 9.0, 27.0, 9.0, 3.0],
[ 1.0, 3.0, 9.0, 3.0, 3.0, 9.0, 27.0, 9.0],
[ 3.0, 1.0, 3.0, 9.0, 9.0, 3.0, 9.0, 27.0] ],
57: [ [27.0, 9.0, 3.0, 9.0, 9.0, 3.0, 1.0, 3.0],
[ 9.0, 27.0, 9.0, 3.0, 3.0, 9.0, 3.0, 1.0],
[ 3.0, 9.0, 27.0, 9.0, 1.0, 3.0, 9.0, 3.0],
[ 9.0, 3.0, 9.0, 27.0, 3.0, 1.0, 3.0, 9.0],
[ 9.0, 3.0, 1.0, 3.0, 27.0, 9.0, 3.0, 9.0],
[ 3.0, 9.0, 3.0, 1.0, 9.0, 27.0, 9.0, 3.0],
[ 1.0, 3.0, 9.0, 3.0, 3.0, 9.0, 27.0, 9.0],
[ 3.0, 1.0, 3.0, 9.0, 9.0, 3.0, 9.0, 27.0] ],
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117: [ [ 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0] ],
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125: [ [ 3.0, 0.0, 0.0, 4.0, 1.0, 4.0],
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[ 0.0, 3.0, 0.0, 4.0, 4.0, 1.0],
[ 0.0, 0.0, 3.0, 1.0, 4.0, 4.0],],
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136: [ [42.0, 15.0, 15.0, 14.0, 5.0, 5.0],
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[15.0, 42.0, 15.0, 5.0, 14.0, 5.0],
[15.0, 15.0, 42.0, 5.0, 5.0, 14.0],
[14.0, 5.0, 5.0, 42.0, 15.0, 15.0],
[ 5.0, 14.0, 5.0, 15.0, 42.0, 15.0],
[ 5.0, 5.0, 14.0, 15.0, 15.0, 42.0] ],
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}
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Nips = len(nodeWeightsPerNode[elemType])
ipCoordinates = [[0.0,0.0,0.0] for i in range(Nips)]
for ip in range(Nips):
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for node in range(len(nodeWeightsPerNode[elemType][ip])):
for i in range(3):
ipCoordinates[ip][i] += nodeWeightsPerNode[elemType][ip][node] * nodalCoordinates[node][i]
for i in range(3):
ipCoordinates[ip][i] /= sum(nodeWeightsPerNode[elemType][ip])
return ipCoordinates
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# -----------------------------
def ipIDs(elemType):
#
# returns IP numbers for given element type
# -----------------------------
ipPerNode = {
7: [ 1, 2, 4, 3, 5, 6, 8, 7 ],
57: [ 1, 2, 4, 3, 5, 6, 8, 7 ],
117: [ 1 ],
125: [ 1, 2, 3 ],
136: [ 1, 2, 3, 4, 5, 6 ],
}
return ipPerNode[elemType]
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# -----------------------------
def substituteLocation(string, mesh, coords):
#
# do variable interpolation in group and filter strings
# -----------------------------
substitute = string
substitute = substitute.replace('elem', str(mesh[0]))
substitute = substitute.replace('node', str(mesh[1]))
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substitute = substitute.replace('ip', str(mesh[2]))
substitute = substitute.replace('grain', str(mesh[3]))
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substitute = substitute.replace('x', '%.6g'%coords[0])
substitute = substitute.replace('y', '%.6g'%coords[1])
substitute = substitute.replace('z', '%.6g'%coords[2])
return substitute
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# -----------------------------
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def heading(glue,parts):
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#
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# joins pieces from parts by glue. second to last entry in pieces tells multiplicity
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# -----------------------------
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header = []
for pieces in parts:
if pieces[-2] == 0:
del pieces[-2]
header.append(glue.join(map(str,pieces)))
return header
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# -----------------------------
def mapIncremental(label, mapping, N, base, new):
#
# applies the function defined by "mapping"
# (can be either 'min','max','avg', 'sum', or user specified)
# to a list of data
# -----------------------------
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theMap = { 'min': lambda n,b,a: min(b,a),
'max': lambda n,b,a: max(b,a),
'avg': lambda n,b,a: (n*b+a)/(n+1),
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'avgabs': lambda n,b,a: (n*b+abs(a))/(n+1),
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'sum': lambda n,b,a: b+a,
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'sumabs': lambda n,b,a: b+abs(a),
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'unique': lambda n,b,a: {True:a,False:'n/a'}[n==0 or b==a]
}
if mapping in theMap:
mapped = map(theMap[mapping],[N]*len(base),base,new) # map one of the standard functions to data
if label.lower() == 'orientation': # orientation is special case:...
orientationNorm = math.sqrt(sum([q*q for q in mapped])) # ...calc norm of average quaternion
mapped = map(lambda x: x/orientationNorm, mapped) # ...renormalize quaternion
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else:
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try:
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mapped = eval('map(%s,[N]*len(base),base,new)'%mapping) # map user defined function to colums in chunks
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except:
mapped = ['n/a']*len(base)
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return mapped
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# -----------------------------
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def OpenPostfile(name,type):
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#
# open postfile with extrapolation mode "translate"
# -----------------------------
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p = {\
'spectral': MPIEspectral_result,\
'marc': post_open,\
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}[type](name)
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p.extrapolation('translate')
p.moveto(1)
return p
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# -----------------------------
def ParseOutputFormat(filename,what,me):
#
# parse .output* files in order to get a list of outputs
# -----------------------------
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content = []
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format = {'outputs':{},'specials':{'brothers':[]}}
for prefix in ['']+map(str,range(1,17)):
if os.path.exists(prefix+filename+'.output'+what):
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try:
file = open(prefix+filename+'.output'+what)
content = file.readlines()
file.close()
break
except:
pass
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if content == []: return format # nothing found...
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tag = ''
tagID = 0
for line in content:
if re.match("\s*$",line) or re.match("#",line): # skip blank lines and comments
continue
m = re.match("\[(.+)\]",line) # look for block indicator
if m: # next section
tag = m.group(1)
tagID += 1
format['specials']['brothers'].append(tag)
if tag == me or (me.isdigit() and tagID == int(me)):
format['specials']['_id'] = tagID
format['outputs'] = []
tag = me
else: # data from section
if tag == me:
(output,length) = line.split()
output.lower()
if length.isdigit():
length = int(length)
if re.match("\((.+)\)",output): # special data, e.g. (Ngrains)
format['specials'][output] = length
elif length > 0:
format['outputs'].append([output,length])
return format
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# -----------------------------
def ParsePostfile(p,filename, outputFormat):
#
# parse postfile in order to get position and labels of outputs
# needs "outputFormat" for mapping of output names to postfile output indices
# -----------------------------
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# --- build statistics
stat = { \
'IndexOfLabel': {}, \
'Title': p.title(), \
'Extrapolation': p.extrapolate, \
'NumberOfIncrements': p.increments(), \
'NumberOfNodes': p.nodes(), \
'NumberOfNodalScalars': p.node_scalars(), \
'LabelOfNodalScalar': [None]*p.node_scalars() , \
'NumberOfElements': p.elements(), \
'NumberOfElementalScalars': p.element_scalars(), \
'LabelOfElementalScalar': [None]*p.element_scalars() , \
'NumberOfElementalTensors': p.element_tensors(), \
'LabelOfElementalTensor': [None]*p.element_tensors(), \
}
# --- find labels
for labelIndex in range(stat['NumberOfNodalScalars']):
label = p.node_scalar_label(labelIndex)
stat['IndexOfLabel'][label] = labelIndex
stat['LabelOfNodalScalar'][labelIndex] = label
for labelIndex in range(stat['NumberOfElementalScalars']):
label = p.element_scalar_label(labelIndex)
stat['IndexOfLabel'][label] = labelIndex
stat['LabelOfElementalScalar'][labelIndex] = label
for labelIndex in range(stat['NumberOfElementalTensors']):
label = p.element_tensor_label(labelIndex)
stat['IndexOfLabel'][label] = labelIndex
stat['LabelOfElementalTensor'][labelIndex] = label
if 'User Defined Variable 1' in stat['IndexOfLabel']:
stat['IndexOfLabel']['GrainCount'] = stat['IndexOfLabel']['User Defined Variable 1']
if 'GrainCount' in stat['IndexOfLabel']: # does the result file contain relevant user defined output at all?
startIndex = stat['IndexOfLabel']['GrainCount'] - 1
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# We now have to find a mapping for each output label as defined in the .output* files to the output position in the post file
# Since we know where the user defined outputs start ("startIndex"), we can simply assign increasing indices to the labels
# given in the .output* file
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offset = 2
stat['LabelOfElementalScalar'][startIndex + offset] = 'HomogenizationCount'
for var in outputFormat['Homogenization']['outputs']:
if var[1] > 1:
for i in range(var[1]):
stat['IndexOfLabel']['%i_%s'%(i+1,var[0])] = startIndex + offset + (i+1)
else:
stat['IndexOfLabel']['%s'%(var[0])] = startIndex + offset + 1
offset += var[1]
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if '(ngrains)' in outputFormat['Homogenization']['specials']:
for grain in range(outputFormat['Homogenization']['specials']['(ngrains)']):
stat['IndexOfLabel']['%i_CrystalliteCount'%(grain+1)] = startIndex + offset + 1
offset += 1
for var in outputFormat['Crystallite']['outputs']:
if var[1] > 1:
for i in range(var[1]):
stat['IndexOfLabel']['%i_%i_%s'%(grain+1,i+1,var[0])] = startIndex + offset + (i+1)
else:
stat['IndexOfLabel']['%i_%s'%(grain+1,var[0])] = startIndex + offset + 1
offset += var[1]
stat['IndexOfLabel']['%i_ConstitutiveCount'%(grain+1)] = startIndex + offset + 1
offset += 1
for var in outputFormat['Constitutive']['outputs']:
if var[1] > 1:
for i in range(var[1]):
stat['IndexOfLabel']['%i_%i_%s'%(grain+1,i+1,var[0])] = startIndex + offset + (i+1)
else:
stat['IndexOfLabel']['%i_%s'%(grain+1,var[0])] = startIndex + offset + 1
offset += var[1]
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return stat
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# -----------------------------
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def SummarizePostfile(stat,where=sys.stdout,format='marc'):
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# -----------------------------
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where.write('\n\n')
where.write('title:\t%s'%stat['Title'] + '\n\n')
where.write('extraplation:\t%s'%stat['Extrapolation'] + '\n\n')
where.write('increments:\t%i'%(stat['NumberOfIncrements']) + '\n\n')
where.write('nodes:\t%i'%stat['NumberOfNodes'] + '\n\n')
where.write('elements:\t%i'%stat['NumberOfElements'] + '\n\n')
where.write('nodal scalars:\t%i'%stat['NumberOfNodalScalars'] + '\n\n ' + '\n '.join(stat['LabelOfNodalScalar']) + '\n\n')
where.write('elemental scalars:\t%i'%stat['NumberOfElementalScalars'] + '\n\n ' + '\n '.join(stat['LabelOfElementalScalar']) + '\n\n')
where.write('elemental tensors:\t%i'%stat['NumberOfElementalTensors'] + '\n\n ' + '\n '.join(stat['LabelOfElementalTensor']) + '\n\n')
return True
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# -----------------------------
# MAIN FUNCTION STARTS HERE
# -----------------------------
# --- input parsing
parser = OptionParser(option_class=MyOption, usage='%prog [options] resultfile', description = """
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Extract data from a .t16 (MSC.Marc) or .spectralOut results file.
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List of output variables is given by options '--ns','--es','--et','--ho','--cr','--co'.
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Filters and separations use 'elem','node','ip','grain', and 'x','y','z' as key words.
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Example:
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1) get averaged results in slices perpendicular to x for all negative y coordinates
--filter 'y < 0.0' --separation x --map 'avg'
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2) global sum of squared data falling into first quadrant arc between R1 and R2
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--filter 'x >= 0.0 and y >= 0.0 and x*x + y*y >= R1*R1 and x*x + y*y <= R2*R2'
--map 'lambda n,b,a: n*b+a*a'
User mappings need to be formulated in an incremental fashion for each new data point, a(dd),
and may use the current (incremental) result, b(ase), as well as the number, n(umber),
of already processed data points for evaluation.
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$Id$
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""")
parser.add_option('-i','--info', action='store_true', dest='info', \
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help='list contents of resultfile [%default]')
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parser.add_option( '--prefix', dest='prefix', \
help='prefix to result file name [%default]')
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parser.add_option('-d','--dir', dest='directory', \
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help='name of subdirectory to hold output [%default]')
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parser.add_option('-s','--split', action='store_true', dest='separateFiles', \
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help='split output per increment [%default]')
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parser.add_option('-r','--range', dest='range', type='int', nargs=3, \
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help='range of increments to output (start, end, step) [all]')
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parser.add_option('--sloppy', action='store_true', dest='sloppy', \
help='do not pre-check validity of increment range')
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parser.add_option('-m','--map', dest='func', type='string', \
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help='data reduction mapping ["%default"] out of min, max, avg, avgabs, sum, sumabs or user-lambda')
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parser.add_option('-p','--type', dest='filetype', type='string', \
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help = 'type of result file [%default]')
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group_material = OptionGroup(parser,'Material identifier')
group_material.add_option('--homogenization', dest='homog', type='string', \
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help='homogenization identifier (as string or integer [%default])')
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group_material.add_option('--crystallite', dest='cryst', type='string', \
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help='crystallite identifier (as string or integer [%default])')
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group_material.add_option('--phase', dest='phase', type='string', \
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help='phase identifier (as string or integer [%default])')
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group_special = OptionGroup(parser,'Special outputs')
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group_special.add_option('-t','--time', action='store_true', dest='time', \
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help='output time of increment [%default]')
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group_special.add_option('-f','--filter', dest='filter', type='string', \
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help='condition(s) to filter results [%default]')
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group_special.add_option('--separation', action='extend', dest='separation', type='string', \
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help='properties to separate results [%default]')
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group_special.add_option('--sort', action='extend', dest='sort', type='string', \
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help='properties to sort results [%default]')
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group_general = OptionGroup(parser,'General outputs')
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group_general.add_option('--ns', action='extend', dest='nodalScalar', type='string', \
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help='list of nodal scalars to extract')
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group_general.add_option('--es', action='extend', dest='elementalScalar', type='string', \
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help='list of elemental scalars to extract')
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group_general.add_option('--et', action='extend', dest='elementalTensor', type='string', \
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help='list of elemental tensors to extract')
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group_general.add_option('--ho', action='extend', dest='homogenizationResult', type='string', \
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help='list of homogenization results to extract')
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group_general.add_option('--cr', action='extend', dest='crystalliteResult', type='string', \
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help='list of crystallite results to extract')
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group_general.add_option('--co', action='extend', dest='constitutiveResult', type='string', \
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help='list of constitutive results to extract')
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parser.add_option_group(group_material)
parser.add_option_group(group_general)
parser.add_option_group(group_special)
parser.set_defaults(info = False)
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parser.set_defaults(sloppy = False)
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parser.set_defaults(prefix = '')
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parser.set_defaults(directory = 'postProc')
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parser.set_defaults(filetype = None)
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parser.set_defaults(func = 'avg')
parser.set_defaults(homog = '1')
parser.set_defaults(cryst = '1')
parser.set_defaults(phase = '1')
parser.set_defaults(filter = '')
parser.set_defaults(separation = [])
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parser.set_defaults(sort = [])
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parser.set_defaults(inc = False)
parser.set_defaults(time = False)
parser.set_defaults(separateFiles = False)
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(options, files) = parser.parse_args()
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# --- basic sanity checks
if files == []:
parser.print_help()
parser.error('no file specified...')
if not os.path.exists(files[0]):
parser.print_help()
parser.error('invalid file "%s" specified...'%files[0])
# --- figure out filetype
if options.filetype == None:
ext = os.path.splitext(files[0])[1]
for theType in fileExtensions.keys():
if ext in fileExtensions[theType]:
options.filetype = theType
break
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options.filetype = options.filetype.lower()
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# --- more sanity checks
if options.filetype not in ['marc','spectral']:
parser.print_help()
parser.error('file type "%s" not supported...'%options.filetype)
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if options.filetype == 'marc':
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try:
file = open('%s/../MSCpath'%os.path.dirname(os.path.realpath(sys.argv[0])))
MSCpath = os.path.normpath(file.readline().strip())
file.close()
except:
MSCpath = '/msc'
for release,subdirs in sorted(releases.items(),reverse=True):
for subdir in subdirs:
libPath = '%s/mentat%s/shlib/%s'%(MSCpath,release,subdir)
if os.path.exists(libPath):
sys.path.append(libPath)
break
else:
continue
break
try:
from py_post import *
except:
print('error: no valid Mentat release found in %s'%MSCpath)
sys.exit(-1)
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else:
def post_open():
return
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if options.constitutiveResult and not options.phase:
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parser.print_help()
parser.error('constitutive results require phase...')
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if options.nodalScalar and ( options.elementalScalar or options.elementalTensor
or options.homogenizationResult or options.crystalliteResult or options.constitutiveResult ):
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parser.print_help()
parser.error('not allowed to mix nodal with elemental results...')
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if not options.nodalScalar: options.nodalScalar = []
if not options.elementalScalar: options.elementalScalar = []
if not options.elementalTensor: options.elementalTensor = []
if not options.homogenizationResult: options.homogenizationResult = []
if not options.crystalliteResult: options.crystalliteResult = []
if not options.constitutiveResult: options.constitutiveResult = []
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options.sort.reverse()
options.separation.reverse()
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# --- start background messaging
bg = backgroundMessage()
bg.start()
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# --- parse .output and .t16 files
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if os.path.splitext(files[0])[1] == '':
filename = files[0]
extension = fileExtensions[options.filetype]
else:
filename = os.path.splitext(files[0])[0]
extension = os.path.splitext(files[0])[1]
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outputFormat = {}
me = {
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'Homogenization': options.homog,
'Crystallite': options.cryst,
'Constitutive': options.phase,
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}
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bg.set_message('parsing .output files...')
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for what in me:
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outputFormat[what] = ParseOutputFormat(filename, what, me[what])
if not '_id' in outputFormat[what]['specials']:
print "'%s' not found in <%s>"%(me[what], what)
print '\n'.join(map(lambda x:' '+x, outputFormat[what]['specials']['brothers']))
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bg.set_message('opening result file...')
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p = OpenPostfile(filename+extension,options.filetype)
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bg.set_message('parsing result file...')
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stat = ParsePostfile(p, filename, outputFormat)
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if options.filetype == 'marc':
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stat['NumberOfIncrements'] -= 1 # t16 contains one "virtual" increment (at 0)
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# --- sanity check for output variables
# for mentat variables (nodalScalar,elementalScalar,elementalTensor) we simply have to check whether the label is found in the stat[indexOfLabel] dictionary
# for user defined variables (homogenizationResult,crystalliteResult,constitutiveResult) we have to check the corresponding outputFormat, since the namescheme in stat['IndexOfLabel'] is different
for opt in ['nodalScalar','elementalScalar','elementalTensor','homogenizationResult','crystalliteResult','constitutiveResult']:
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if eval('options.%s'%opt):
for label in eval('options.%s'%opt):
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if (opt in ['nodalScalar','elementalScalar','elementalTensor'] and label not in stat['IndexOfLabel'] and label not in ['elements',]) \
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or (opt in ['homogenizationResult','crystalliteResult','constitutiveResult'] \
and (not outputFormat[opt[:-6].capitalize()]['outputs'] or not label in zip(*outputFormat[opt[:-6].capitalize()]['outputs'])[0])):
parser.error('%s "%s" unknown...'%(opt,label))
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# --- output info
if options.info:
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if options.filetype == 'marc':
print '\n\nMentat release %s'%release
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if options.filetype == 'spectral':
print '\n\n',p
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SummarizePostfile(stat,sys.stderr)
print '\nUser Defined Outputs'
for what in me:
print '\n ',what,':'
for output in outputFormat[what]['outputs']:
print ' ',output
sys.exit(0)
2010-08-17 02:17:27 +05:30
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# --- build connectivity maps
elementsOfNode = {}
for e in xrange(stat['NumberOfElements']):
if e%1000 == 0:
bg.set_message('connect elem %i...'%e)
for n in map(p.node_sequence,p.element(e).items):
if n not in elementsOfNode:
elementsOfNode[n] = [p.element_id(e)]
else:
elementsOfNode[n] += [p.element_id(e)]
maxCountElementsOfNode = 0
for l in elementsOfNode.values():
maxCountElementsOfNode = max(maxCountElementsOfNode,len(l))
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# --- get output data from .t16 file
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positions = range(stat['NumberOfIncrements'])
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if options.filetype == 'marc':
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offset_pos = 1
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else:
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offset_pos = 0
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if options.range:
options.range = list(options.range)
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if options.sloppy:
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positions = range(options.range[0],options.range[1]+1,options.range[2])
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else:
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positions = range( max(0,options.range[0]),
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min(stat['NumberOfIncrements'],options.range[1]+1),
options.range[2])
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2010-11-02 21:15:23 +05:30
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# --------------------------- build group membership --------------------------------
2010-11-02 21:15:23 +05:30
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p.moveto(positions[0]+offset_pos)
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index = {}
groups = []
groupCount = 0
memberCount = 0
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if options.nodalScalar:
for n in xrange(stat['NumberOfNodes']):
if n%1000 == 0:
bg.set_message('scan node %i...'%n)
myNodeID = p.node_id(n)
myNodeCoordinates = [p.node(n).x, p.node(n).y, p.node(n).z]
myElemID = 0
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myIpID = 0
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myGrainID = 0
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# --- filter valid locations
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filter = substituteLocation(options.filter, [myElemID,myNodeID,myIpID,myGrainID], myNodeCoordinates) # generates an expression that is only true for the locations specified by options.filter
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if filter != '' and not eval(filter): # for all filter expressions that are not true:...
continue # ... ignore this data point and continue with next
2010-08-17 02:17:27 +05:30
2011-04-12 23:16:35 +05:30
# --- group data locations
2010-08-17 02:17:27 +05:30
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grp = substituteLocation('#'.join(options.separation), [myElemID,myNodeID,myIpID,myGrainID], myNodeCoordinates) # generates a unique key for a group of separated data based on the separation criterium for the location
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if grp not in index: # create a new group if not yet present
index[grp] = groupCount
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groups.append([[0,0,0,0,0.0,0.0,0.0]]) # initialize with avg location
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groupCount += 1
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groups[index[grp]][0][:4] = mapIncremental('','unique',
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len(groups[index[grp]])-1,
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groups[index[grp]][0][:4],
[myElemID,myNodeID,myIpID,myGrainID]) # keep only if unique average location
groups[index[grp]][0][4:] = mapIncremental('','avg',
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len(groups[index[grp]])-1,
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groups[index[grp]][0][4:],
myNodeCoordinates) # incrementally update average location
groups[index[grp]].append([myElemID,myNodeID,myIpID,myGrainID,0]) # append a new list defining each group member
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memberCount += 1
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else:
for e in xrange(stat['NumberOfElements']):
if e%1000 == 0:
bg.set_message('scan elem %i...'%e)
myElemID = p.element_id(e)
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myIpCoordinates = ipCoords(p.element(e).type, map(lambda node: [node.x, node.y, node.z], map(p.node, map(p.node_sequence, p.element(e).items))))
myIpIDs = ipIDs(p.element(e).type)
Nips = len(myIpIDs)
myNodeIDs = p.element(e).items[:Nips]
for n in range(Nips):
myIpID = myIpIDs[n]
myNodeID = myNodeIDs[n]
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for g in range(('GrainCount' in stat['IndexOfLabel'] and int(p.element_scalar(e, stat['IndexOfLabel']['GrainCount'])[0].value))
or 1):
myGrainID = g + 1
2011-02-02 00:02:20 +05:30
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# --- filter valid locations
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filter = substituteLocation(options.filter, [myElemID,myNodeID,myIpID,myGrainID], myIpCoordinates[n]) # generates an expression that is only true for the locations specified by options.filter
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if filter != '' and not eval(filter): # for all filter expressions that are not true:...
continue # ... ignore this data point and continue with next
# --- group data locations
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grp = substituteLocation('#'.join(options.separation), [myElemID,myNodeID,myIpID,myGrainID], myIpCoordinates[n]) # generates a unique key for a group of separated data based on the separation criterium for the location
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if grp not in index: # create a new group if not yet present
index[grp] = groupCount
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groups.append([[0,0,0,0,0.0,0.0,0.0]]) # initialize with avg location
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groupCount += 1
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groups[index[grp]][0][:4] = mapIncremental('','unique',
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len(groups[index[grp]])-1,
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groups[index[grp]][0][:4],
[myElemID,myNodeID,myIpID,myGrainID]) # keep only if unique average location
groups[index[grp]][0][4:] = mapIncremental('','avg',
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len(groups[index[grp]])-1,
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groups[index[grp]][0][4:],
myIpCoordinates[n]) # incrementally update average location
groups[index[grp]].append([myElemID,myNodeID,myIpID,myGrainID,n]) # append a new list defining each group member
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memberCount += 1
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# --------------------------- sort groups --------------------------------
where = {
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'elem': 0,
'node': 1,
'ip': 2,
'grain': 3,
'x': 4,
'y': 5,
'z': 6,
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}
sortProperties = []
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for item in options.separation:
if item not in options.sort:
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sortProperties.append(item)
theKeys = []
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for criterium in options.sort+sortProperties:
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if criterium in where:
theKeys.append('x[0][%i]'%where[criterium])
sortKeys = eval('lambda x:(%s)'%(','.join(theKeys)))
bg.set_message('sorting groups...')
groups.sort(key = sortKeys) # in-place sorting to save mem
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# --------------------------- create output directory --------------------------------
dirname = os.path.abspath(os.path.dirname(filename))+os.sep+options.directory
if not os.path.isdir(dirname):
os.mkdir(dirname,0755)
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fileOpen = False
assembleHeader = True
header = []
standard = ['inc'] + \
{True: ['time'],
False:[]}[options.time] + \
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['elem','node','ip','grain'] + \
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{True: ['node.x','node.y','node.z'],
False:['ip.x','ip.y','ip.z']}[options.nodalScalar != []]
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# --------------------------- loop over positions --------------------------------
bg.set_message('getting increments...')
increments = [None]*len(positions)
for incCount,position in enumerate(positions):
p.moveto(position+offset_pos)
increments[incCount] = p.increment # remember "real" increment at this position
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time_start = time.time()
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for incCount,position in enumerate(positions):
p.moveto(position+offset_pos)
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# --------------------------- file management --------------------------------
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if options.separateFiles:
if fileOpen:
file.close()
fileOpen = False
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outFilename = eval('"'+eval("'%%s_inc%%0%ii.txt'%(math.log10(max(increments+[1]))+1)")+'"%(dirname + os.sep + options.prefix + os.path.split(filename)[1],increments[incCount])')
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else:
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outFilename = '%s.txt'%(dirname + os.sep + options.prefix + os.path.split(filename)[1])
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if not fileOpen:
file = open(outFilename,'w')
fileOpen = True
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file.write('2\theader\n')
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file.write(string.replace('$Id$','\n','\\n')+
'\t' + ' '.join(sys.argv[1:]) + '\n')
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headerWritten = False
file.flush()
# --------------------------- read and map data per group --------------------------------
member = 0
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for group in groups:
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N = 0 # group member counter
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for (e,n,i,g,n_local) in group[1:]: # loop over group members
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member += 1
if member%1000 == 0:
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time_delta = ((len(positions)*memberCount)/float(member+incCount*memberCount)-1.0)*(time.time()-time_start)
bg.set_message('(%02i:%02i:%02i) processing point %i of %i from position %i...'%(time_delta//3600,time_delta%3600//60,time_delta%60,member,memberCount,position))
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newby = [] # current member's data
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if options.nodalScalar:
for label in options.nodalScalar:
if label == 'elements':
length = maxCountElementsOfNode
content = elementsOfNode[p.node_sequence(n)]+[0]*(length-len(elementsOfNode[p.node_sequence(n)]))
else:
length = 1
content = [ p.node_scalar(p.node_sequence(n),stat['IndexOfLabel'][label]) ]
if assembleHeader: header += heading('_',[[component,label] for component in range(int(length>1),length+int(length>1))])
newby.append({'label':label,
'len':length,
'content':content })
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if options.elementalScalar:
for label in options.elementalScalar:
if assembleHeader:
header += [label.replace(' ','')]
newby.append({'label':label,
'len':1,
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'content':[ p.element_scalar(p.element_sequence(e),stat['IndexOfLabel'][label])[n_local].value ]})
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if options.elementalTensor:
for label in options.elementalTensor:
if assembleHeader:
header += heading('.',[[label.replace(' ',''),component] for component in ['intensity','t11','t22','t33','t12','t23','t13']])
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myTensor = p.element_tensor(p.element_sequence(e),stat['IndexOfLabel'][label])[n_local]
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newby.append({'label':label,
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'len':7,
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'content':[ myTensor.intensity,
myTensor.t11, myTensor.t22, myTensor.t33,
myTensor.t12, myTensor.t23, myTensor.t13,
]})
if options.homogenizationResult or \
options.crystalliteResult or \
options.constitutiveResult:
for (label,resultType) in zip(options.homogenizationResult +
options.crystalliteResult +
options.constitutiveResult,
['Homogenization']*len(options.homogenizationResult) +
['Crystallite']*len(options.crystalliteResult) +
['Constitutive']*len(options.constitutiveResult)
):
outputIndex = list(zip(*outputFormat[resultType]['outputs'])[0]).index(label) # find the position of this output in the outputFormat
length = int(outputFormat[resultType]['outputs'][outputIndex][1])
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thisHead = heading('_',[[component,label] for component in range(int(length>1),length+int(length>1))])
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if assembleHeader: header += thisHead
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if resultType != 'Homogenization':
thisHead = heading('_',[[g,component,label] for component in range(int(length>1),length+int(length>1))])
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newby.append({'label':label,
'len':length,
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'content':[ p.element_scalar(p.element_sequence(e),stat['IndexOfLabel'][head])[n_local].value
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for head in thisHead ]})
assembleHeader = False
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if N == 0:
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mappedResult = [float(x) for x in xrange(len(header))] # initialize with debug data (should get deleted by *N at N=0)
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pos = 0
for chunk in newby:
mappedResult[pos:pos+chunk['len']] = mapIncremental(chunk['label'],options.func,
N,mappedResult[pos:pos+chunk['len']],chunk['content'])
pos += chunk['len']
N += 1
# --- write data row to file ---
if not headerWritten:
file.write('\t'.join(standard + header) + '\n')
headerWritten = True
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file.write('\t'.join(map(str,[p.increment] + \
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{True:[p.time],False:[]}[options.time] + \
group[0] + \
mappedResult)
) + '\n')
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if fileOpen:
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file.close()
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# --------------------------- DONE --------------------------------