Merge branch 'development' of magit1.mpie.de:damask/DAMASK into development

This commit is contained in:
Philip Eisenlohr 2017-11-28 11:12:05 -05:00
commit 0c8c4b54aa
31 changed files with 200 additions and 2086 deletions

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v2.0.1-980-ge2c66ca v2.0.1-992-g20d8133

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@ -16,3 +16,10 @@ patch -p1 < installation/patch/nameOfPatch
* **PETSc-3.8** adjusts all includes nad calls to PETSc to the 3.8.x API * **PETSc-3.8** adjusts all includes nad calls to PETSc to the 3.8.x API
This allows to use the current version of PETSc This allows to use the current version of PETSc
## Create patch
commit your changes
```bash
git format-patch PATH_TO_COMPARE --stdout >
```

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<?xml version="1.0"?>
<h5ds>
<!--Top level attributes-->
<history>
<type>attr</type>
<h5path>/</h5path>
<category></category>
<description>store cmd history</description>
</history>
<inc>
<type>attr</type>
<h5path>/</h5path>
<category></category>
<description></description>
</inc>
<!--Geometry section-->
<Vx>
<type>Scalar</type>
<h5path>/Geometry/Vx</h5path>
<category>Geometry</category>
<description>Vector along x define the spectral mesh</description>
</Vx>
<Vy>
<type>Scalar</type>
<h5path>/Geometry/Vy</h5path>
<category>Geometry</category>
<description>Vector along y defines the spectral mesh</description>
</Vy>
<Vz>
<type>Scalar</type>
<h5path>/Geometry/Vz</h5path>
<category>Geometry</category>
<description>Vector along z defines the spectral mesh</description>
</Vz>
<ip>
<type>Scalar</type>
<h5path>/Geometry/ip</h5path>
<category>Geometry</category>
<description></description>
</ip>
<node>
<type>Scalar</type>
<h5path>/Geometry/node</h5path>
<category>Geometry</category>
<description></description>
</node>
<grain>
<type>Scalar</type>
<h5path>/Geometry/grain</h5path>
<category>Geometry</category>
<description></description>
</grain>
<pos>
<type>Vector</type>
<h5path>/Geometry/pos</h5path>
<category>Geometry</category>
<description></description>
</pos>
<elem>
<type>Scalar</type>
<h5path>/Geometry/elem</h5path>
<category>Geometry</category>
<description></description>
</elem>
<!--Crystallite section-->
<phase>
<type>Scalar</type>
<h5path>/Crystallite/phase</h5path>
<category>Crystallite</category>
<description></description>
</phase>
<texture>
<type>Scalar</type>
<h5path>/Crystallite/texture</h5path>
<category>Crystallite</category>
<description></description>
</texture>
<volume>
<type>Scalar</type>
<h5path>/Crystallite/volume</h5path>
<category>Crystallite</category>
<description></description>
</volume>
<orientation>
<type>Vector</type>
<h5path>/Crystallite/orientation</h5path>
<category>Crystallite</category>
<description></description>
</orientation>
<eulerangles>
<type>Vector</type>
<h5path>/Crystallite/eulerangles</h5path>
<category>Crystallite</category>
<description>Bunnge Euler angles in degrees</description>
</eulerangles>
<grainrotation>
<type>Vector</type>
<h5path>/Crystallite/grainrotation</h5path>
<category>Crystallite</category>
<description></description>
</grainrotation>
<f>
<type>Tensor</type>
<h5path>/Crystallite/f</h5path>
<category>Crystallite</category>
<description>deformation gradient (F)</description>
</f>
<p>
<type>Tensor</type>
<h5path>/Crystallite/p</h5path>
<category>Crystallite</category>
<description>Pikola Kirkhoff stress</description>
</p>
<Cauchy>
<type>Tensor</type>
<h5path>/Crystallite/Cauchy</h5path>
<category>Crystallite</category>
<description>Cauchy stress tensor</description>
</Cauchy>
<lnV>
<type>Tensor</type>
<h5path>/Crystallite/lnV</h5path>
<category>Crystallite</category>
<description></description>
</lnV>
<MisesCauchy>
<type>Scalar</type>
<h5path>/Crystallite/MisesCauchy</h5path>
<category>Crystallite</category>
<description>von Mises equivalent of Cauchy stress</description>
</MisesCauchy>
<MiseslnV>
<type>Scalar</type>
<h5path>/Crystallite/MiseslnV</h5path>
<category>Crystallite</category>
<description>left von Mises strain</description>
</MiseslnV>
<!--Constitutive section-->
<resistance_slip>
<type>Vector</type>
<h5path>/Constitutive/resistance_slip</h5path>
<category>Constitutive</category>
<description></description>
</resistance_slip>
<shearrate_slip>
<type>Vector</type>
<h5path>/Constitutive/shearrate_slip</h5path>
<category>Constitutive</category>
<description></description>
</shearrate_slip>
<resolvedstress_slip>
<type>Vector</type>
<h5path>/Constitutive/resolvedstress_slip</h5path>
<category>Constitutive</category>
<description></description>
</resolvedstress_slip>
<totalshear>
<type>Scalar</type>
<h5path>/Constitutive/totalshear</h5path>
<category>Constitutive</category>
<description></description>
</totalshear>
<accumulatedshear_slip>
<type>Matrix</type>
<h5path>/Constitutive/accumulatedshear_slip</h5path>
<category>Constitutive</category>
<description>vector contains accumulated shear per slip system</description>
</accumulatedshear_slip>
<!--Derived section-->
</h5ds>

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@ -1,31 +1,13 @@
# -*- coding: UTF-8 no BOM -*- # -*- coding: UTF-8 no BOM -*-
"""Main aggregator""" """Main aggregator"""
import os,sys,time import os
h5py_flag = os.path.join(os.path.dirname(__file__),'../../.noH5py')
h5py_grace = 7200 # only complain once every 7200 sec (2 hours)
h5py_msg = "h5py module not found."
now = time.time()
with open(os.path.join(os.path.dirname(__file__),'../../VERSION')) as f: with open(os.path.join(os.path.dirname(__file__),'../../VERSION')) as f:
version = f.readline()[:-1] version = f.readline()[:-1]
from .environment import Environment # noqa from .environment import Environment # noqa
from .asciitable import ASCIItable # noqa from .asciitable import ASCIItable # noqa
try:
from .h5table import H5Table # noqa
if os.path.exists(h5py_flag): os.remove(h5py_flag) # delete flagging file on success
except ImportError:
if os.path.exists(h5py_flag):
if now - os.path.getmtime(h5py_flag) > h5py_grace: # complain (again) every so-and-so often
sys.stderr.write(h5py_msg+'\n')
with open(h5py_flag, 'a'):
os.utime(h5py_flag,(now,now)) # update flag modification time to "now"
else:
open(h5py_flag, 'a').close() # create flagging file
sys.stderr.write(h5py_msg+'\n') # complain for the first time
from .config import Material # noqa from .config import Material # noqa
from .colormaps import Colormap, Color # noqa from .colormaps import Colormap, Color # noqa

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# -*- coding: UTF-8 no BOM -*-
# ----------------------------------------------------------- #
# Ideally the h5py should be enough to serve as the data #
# interface for future DAMASK, but since we are still not #
# sure when this major shift will happen, it seems to be a #
# good idea to provide a interface class that help user ease #
# into using HDF5 as the new daily storage driver. #
# ----------------------------------------------------------- #
import os
import h5py
import numpy as np
import xml.etree.cElementTree as ET
# ---------------------------------------------------------------- #
# python 3 has no unicode object, this ensures that the code works #
# on Python 2&3 #
# ---------------------------------------------------------------- #
try:
test = isinstance('test', unicode)
except(NameError):
unicode = str
def lables_to_path(label, dsXMLPath=None):
"""Read the XML definition file and return the path."""
if dsXMLPath is None:
# use the default storage layout in DS_HDF5.xml
if "h5table.pyc" in __file__:
dsXMLPath = os.path.abspath(__file__).replace("h5table.pyc",
"DS_HDF5.xml")
else:
dsXMLPath = os.path.abspath(__file__).replace("h5table.py",
"DS_HDF5.xml")
# This current implementation requires that all variables
# stay under the root node, the nesting is defined through the
# h5path.
# Allow new derived data to be put under the root
tree = ET.parse(dsXMLPath)
try:
dataType = tree.find('{}/type'.format(label)).text
h5path = tree.find('{}/h5path'.format(label)).text
except:
dataType = "Scalar"
h5path = "/{}".format(label) # just put it under root
return (dataType, h5path)
class H5Table(object):
"""
Lightweight interface class for h5py
DESCRIPTION
-----------
Interface/wrapper class for manipulating data in HDF5 with DAMASK
specialized data structure.
--> try to maintain a minimal API design.
PARAMETERS
----------
h5f_path: str
Absolute path of the HDF5 file
METHOD
------
del_entry() -- Force delete attributes/group/datasets (dangerous)
get_attr() -- Return attributes if possible
add_attr() -- Add NEW attributes to dataset/group (no force overwrite)
get_data() -- Retrieve data in numpy.ndarray
add_data() -- Add dataset to H5 file
get_cmdlog() -- Return the command used to generate the data if possible
NOTE
----
1. As an interface class, it uses the lazy evaluation design
that reads the data only when it is absolutely necessary.
2. The command line used to generate each new feature is stored with
each dataset as dataset attribute.
"""
def __init__(self, h5f_path, new_file=False, dsXMLFile=None):
self.h5f_path = h5f_path
self.dsXMLFile = dsXMLFile
msg = 'Created by H5Talbe from DAMASK'
mode = 'w' if new_file else 'a'
with h5py.File(self.h5f_path, mode) as h5f:
h5f['/'].attrs['description'] = msg
def del_entry(self, feature_name):
"""Delete entry in HDF5 table"""
dataType, h5f_path = lables_to_path(feature_name,
dsXMLPath=self.dsXMLFile)
with h5py.File(self.h5f_path, 'a') as h5f:
del h5f[h5f_path]
def get_attr(self, attr_name):
dataType, h5f_path = lables_to_path(attr_name,
dsXMLPath=self.dsXMLFile)
with h5py.File(self.h5f_path, 'a') as h5f:
rst_attr = h5f[h5f_path].attrs[attr_name]
return rst_attr
def add_attr(self, attr_name, attr_data):
dataType, h5f_path = lables_to_path(attr_name,
dsXMLPath=self.dsXMLFile)
with h5py.File(self.h5f_path, 'a') as h5f:
h5f[h5f_path].attrs[attr_name] = attr_data
h5f.flush()
def get_data(self, feature_name=None):
"""Extract dataset from HDF5 table and return it in a numpy array"""
dataType, h5f_path = lables_to_path(feature_name,
dsXMLPath=self.dsXMLFile)
with h5py.File(self.h5f_path, 'a') as h5f:
h5f_dst = h5f[h5f_path] # get the handle for target dataset(table)
rst_data = np.zeros(h5f_dst.shape)
h5f_dst.read_direct(rst_data)
return rst_data
def add_data(self, feature_name, dataset, cmd_log=None):
"""Adding new feature into existing HDF5 file"""
dataType, h5f_path = lables_to_path(feature_name,
dsXMLPath=self.dsXMLFile)
with h5py.File(self.h5f_path, 'a') as h5f:
# NOTE:
# --> If dataset exists, delete the old one so as to write
# a new one. For brand new dataset. For brand new one,
# record its state as fresh in the cmd log.
try:
del h5f[h5f_path]
print("***deleting old {} from {}".format(feature_name,self.h5f_path))
except:
# if no cmd log, None will used
cmd_log = str(cmd_log) + " [FRESH]"
h5f.create_dataset(h5f_path, data=dataset)
# store the cmd in log is possible
if cmd_log is not None:
h5f[h5f_path].attrs['log'] = str(cmd_log)
h5f.flush()
def get_cmdlog(self, feature_name):
"""Get cmd history used to generate the feature"""
dataType, h5f_path = lables_to_path(feature_name,
dsXMLPath=self.dsXMLFile)
with h5py.File(self.h5f_path, 'a') as h5f:
cmd_logs = h5f[h5f_path].attrs['log']
return cmd_logs

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#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
import os
# import re
# import sys
import collections
# import math
import damask
# import numpy as np
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
# ----- Helper functions ----- #
def listify(x):
return x if isinstance(x, collections.Iterable) else [x]
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
usageEx = """
usage_in_details:
Column labels are tagged by '#label#' in formulas.
Use ';' for ',' in functions. Numpy is available as 'np'.
Special variables: #_row_# -- row index
Examples:
(1) magnitude of vector -- "np.linalg.norm(#vec#)"
(2) rounded root of row number -- "round(math.sqrt(#_row_#);3)"
"""
desp = "Add or alter column(s) with derived values according to "
desp += "user-defined arithmetic operation between column(s)."
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]' + usageEx,
description=desp,
version=scriptID)
parser.add_option('-l', '--label',
dest='labels',
action='extend', metavar='<string LIST>',
help='(list of) new column labels')
parser.add_option('-f', '--formula',
dest='formulas',
action='extend', metavar='<string LIST>',
help='(list of) formulas corresponding to labels')
parser.add_option('-c', '--condition',
dest='condition', metavar='string',
help='condition to filter rows')
parser.set_defaults(condition=None)
(options, filenames) = parser.parse_args()
# ----- parse formulas ----- #
for i in range(len(options.formulas)):
options.formulas[i] = options.formulas[i].replace(';', ',')
# ----- loop over input files ----- #
for name in filenames:
try:
h5f = damask.H5Table(name, new_file=False)
except:
print("!!!Cannot process {}".format(name))
continue
damask.util.report(scriptName, name)
# Note:
# --> not immediately needed, come back later

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#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
import os
import damask
import numpy as np
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
def getCauchy(f, p):
"""Return Cauchy stress for given f and p"""
# [Cauchy] = (1/det(F)) * [P].[F_transpose]
f = f.reshape((3, 3))
p = p.reshape((3, 3))
return 1.0/np.linalg.det(f)*np.dot(p, f.T).reshape(9)
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
desp = "Add column(s) containing Cauchy stress based on given column(s)"
desp += "of deformation gradient and first Piola--Kirchhoff stress."
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description=desp,
version=scriptID)
parser.add_option('-f', '--defgrad',
dest='defgrad',
type='string', metavar='string',
help='heading for deformation gradient [%default]')
parser.add_option('-p', '--stress',
dest='stress',
type='string', metavar='string',
help='heading for first Piola--Kirchhoff stress [%default]')
parser.set_defaults(defgrad='f',
stress='p')
(options, filenames) = parser.parse_args()
# ----- loop over input H5 files ----- #
for name in filenames:
try:
h5f = damask.H5Table(name, new_file=False)
except:
continue
damask.util.report(scriptName, name)
# ----- read in data ----- #
f = h5f.get_data("f")
p = h5f.get_data("p")
# ----- calculate Cauchy stress ----- #
cauchy = [getCauchy(f_i, p_i) for f_i, p_i in zip(f, p)]
# ----- write to HDF5 file ----- #
cmd_log = " ".join([scriptID, name])
h5f.add_data('Cauchy', np.array(cauchy), cmd_log=cmd_log)

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#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
import os
import sys
import math
import damask
import numpy as np
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
# TODO
# This implementation will have to iterate through the array one
# element at a time, maybe there are some other ways to make this
# faster.
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
desp = "Add RGB color value corresponding to TSL-OIM scheme for IPF."
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description=desp,
version=scriptID)
parser.add_option('-p', '--pole',
dest='pole',
type='float', nargs=3, metavar='float float float',
help='lab frame direction for IPF [%default]')
msg = ', '.join(damask.Symmetry.lattices[1:])
parser.add_option('-s', '--symmetry',
dest='symmetry',
type='choice', choices=damask.Symmetry.lattices[1:],
metavar='string',
help='crystal symmetry [%default] {{{}}} '.format(msg))
parser.add_option('-e', '--eulers',
dest='eulers',
type='string', metavar='string',
help='Euler angles label')
parser.add_option('-d', '--degrees',
dest='degrees',
action='store_true',
help='Euler angles are given in degrees [%default]')
parser.add_option('-m', '--matrix',
dest='matrix',
type='string', metavar='string',
help='orientation matrix label')
parser.add_option('-a',
dest='a',
type='string', metavar='string',
help='crystal frame a vector label')
parser.add_option('-b',
dest='b',
type='string', metavar='string',
help='crystal frame b vector label')
parser.add_option('-c',
dest='c',
type='string', metavar='string',
help='crystal frame c vector label')
parser.add_option('-q', '--quaternion',
dest='quaternion',
type='string', metavar='string',
help='quaternion label')
parser.set_defaults(pole=(0.0, 0.0, 1.0),
symmetry=damask.Symmetry.lattices[-1],
degrees=False)
(options, filenames) = parser.parse_args()
# safe guarding to have only one orientation representation
# use dynamic typing to group a,b,c into frame
options.frame = [options.a, options.b, options.c]
input = [options.eulers is not None,
all(options.frame),
options.matrix is not None,
options.quaternion is not None]
if np.sum(input) != 1:
parser.error('needs exactly one input format.')
# select input label that was requested (active)
label_active = np.where(input)[0][0]
(label, dim, inputtype) = [(options.eulers, 3, 'eulers'),
(options.frame, [3, 3, 3], 'frame'),
(options.matrix, 9, 'matrix'),
(options.quaternion, 4, 'quaternion')][label_active]
# rescale degrees to radians
toRadians = math.pi/180.0 if options.degrees else 1.0
# only use normalized pole
pole = np.array(options.pole)
pole /= np.linalg.norm(pole)
# ----- Loop over input files ----- #
for name in filenames:
try:
h5f = damask.H5Table(name, new_file=False)
except:
continue
damask.util.report(scriptName, name)
# extract data from HDF5 file
if inputtype == 'eulers':
orieData = h5f.get_data(label)
elif inputtype == 'matrix':
orieData = h5f.get_data(label)
orieData = orieData.reshape(orieData.shape[0], 3, 3)
elif inputtype == 'frame':
vctr_a = h5f.get_data(label[0])
vctr_b = h5f.get_data(label[1])
vctr_c = h5f.get_data(label[2])
frame = np.column_stack((vctr_a, vctr_b, vctr_c))
orieData = frame.reshape(frame.shape[0], 3, 3)
elif inputtype == 'quaternion':
orieData = h5f.get_data(label)
# calculate the IPF color
rgbArrays = np.zeros((orieData.shape[0], 3))
for ci in range(rgbArrays.shape[0]):
if inputtype == 'eulers':
o = damask.Orientation(Eulers=np.array(orieData[ci, :])*toRadians,
symmetry=options.symmetry).reduced()
elif inputtype == 'matrix':
o = damask.Orientation(matrix=orieData[ci, :, :].transpose(),
symmetry=options.symmetry).reduced()
elif inputtype == 'frame':
o = damask.Orientation(matrix=orieData[ci, :, :],
symmetry=options.symmetry).reduced()
elif inputtype == 'quaternion':
o = damask.Orientation(quaternion=orieData[ci, :],
symmetry=options.symmetry).reduced()
rgbArrays[ci, :] = o.IPFcolor(pole)
# compose labels/headers for IPF color (RGB)
labelIPF = 'IPF_{:g}{:g}{:g}_{sym}'.format(*options.pole,
sym=options.symmetry.lower())
# compose cmd history (go with dataset)
cmd_log = scriptID + '\t' + ' '.join(sys.argv[1:])
# write data to HDF5 file
h5f.add_data(labelIPF, rgbArrays, cmd_log=cmd_log)

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#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
import os
import sys
import math
import damask
import numpy as np
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
# ----- Helper functions ----- #
def calcMises(what, tensor):
"""Calculate von Mises equivalent"""
dev = tensor - np.trace(tensor)/3.0*np.eye(3)
symdev = 0.5*(dev+dev.T)
return math.sqrt(np.sum(symdev*symdev.T) *
{
'stress': 3.0/2.0,
'strain': 2.0/3.0,
}[what.lower()])
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
desp = "Add von Mises equivalent values for symmetric part of requested"
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description=desp,
version=scriptID)
parser.add_option('-e', '--strain',
dest='strain',
metavar='string',
help='name of dataset containing strain tensors')
parser.add_option('-s', '--stress',
dest='stress',
metavar='string',
help='name of dataset containing stress tensors')
parser.set_defaults(strain=None, stress=None)
(options, filenames) = parser.parse_args()
# ----- Loop over input files ----- #
for name in filenames:
try:
h5f = damask.H5Table(name, new_file=False)
except:
continue
damask.util.report(scriptName, name)
# TODO:
# Could use some refactoring here
if options.stress is not None:
# extract stress tensor from HDF5
tnsr = h5f.get_data(options.stress)
# calculate von Mises equivalent row by row
vmStress = np.zeros(tnsr.shape[0])
for ri in range(tnsr.shape[0]):
stressTnsr = tnsr[ri, :].reshape(3, 3)
vmStress[ri] = calcMises('stress', stressTnsr)
# compose label
label = "Mises{}".format(options.stress)
# prepare log info
cmd_log = scriptID + '\t' + ' '.join(sys.argv[1:])
# write data to HDF5 file
h5f.add_data(label, vmStress, cmd_log=cmd_log)
if options.strain is not None:
tnsr = h5f.get_data(options.strain)
vmStrain = np.zeros(tnsr.shape[0])
for ri in range(tnsr.shape[0]):
strainTnsr = tnsr[ri, :].reshape(3, 3)
vmStrain[ri] = calcMises('strain', strainTnsr)
label = "Mises{}".format(options.strain)
cmd_log = scriptID + '\t' + ' '.join(sys.argv[1:])
h5f.add_data(label, vmStrain, cmd_log=cmd_log)

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#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
import os
import sys
import damask
import numpy as np
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
# ----- Helper functions ----- #
def operator(stretch, strain, eigenvalues):
# Albrecht Bertram: Elasticity and Plasticity of Large Deformations
# An Introduction (3rd Edition, 2012), p. 102
return {'V#ln': np.log(eigenvalues),
'U#ln': np.log(eigenvalues),
'V#Biot': (np.ones(3, 'd') - 1.0/eigenvalues),
'U#Biot': (eigenvalues - np.ones(3, 'd')),
'V#Green': (np.ones(3, 'd') - 1.0/eigenvalues/eigenvalues)*0.5,
'U#Green': (eigenvalues*eigenvalues - np.ones(3, 'd'))*0.5,
}[stretch+'#'+strain]
def calcEPS(defgrads, stretchType, strainType):
"""Calculate specific type of strain tensor"""
eps = np.zeros(defgrads.shape) # initialize container
# TODO:
# this loop can use some performance boost
# (multi-threading?)
for ri in range(defgrads.shape[0]):
f = defgrads[ri, :].reshape(3, 3)
U, S, Vh = np.linalg.svd(f)
R = np.dot(U, Vh) # rotation of polar decomposition
if stretchType == 'U':
stretch = np.dot(np.linalg.inv(R), f) # F = RU
elif stretchType == 'V':
stretch = np.dot(f, np.linalg.inv(R)) # F = VR
# kill nasty noisy data
stretch = np.where(abs(stretch) < 1e-12, 0, stretch)
(D, V) = np.linalg.eig(stretch)
# flip principal component with negative Eigen values
neg = np.where(D < 0.0)
D[neg] *= -1.
V[:, neg] *= -1.
# check each vector for orthogonality
# --> brutal force enforcing orthogonal base
# and re-normalize
for i, eigval in enumerate(D):
if np.dot(V[:, i], V[:, (i+1) % 3]) != 0.0:
V[:, (i+1) % 3] = np.cross(V[:, (i+2) % 3], V[:, i])
V[:, (i+1) % 3] /= np.sqrt(np.dot(V[:, (i+1) % 3],
V[:, (i+1) % 3].conj()))
# calculate requested version of strain tensor
d = operator(stretchType, strainType, D)
eps[ri] = (np.dot(V, np.dot(np.diag(d), V.T)).real).reshape(9)
return eps
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
desp = "Add column(s) containing given strains based on given stretches"
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description=desp,
version=scriptID)
msg = 'material strains based on right Cauchy-Green deformation, i.e., C and U'
parser.add_option('-u', '--right',
dest='right',
action='store_true',
help=msg)
msg = 'spatial strains based on left Cauchy--Green deformation, i.e., B and V'
parser.add_option('-v', '--left',
dest='left',
action='store_true',
help=msg)
parser.add_option('-0', '--logarithmic',
dest='logarithmic',
action='store_true',
help='calculate logarithmic strain tensor')
parser.add_option('-1', '--biot',
dest='biot',
action='store_true',
help='calculate biot strain tensor')
parser.add_option('-2', '--green',
dest='green',
action='store_true',
help='calculate green strain tensor')
# NOTE:
# It might be easier to just calculate one type of deformation gradient
# at a time.
msg = 'heading(s) of columns containing deformation tensor values'
parser.add_option('-f', '--defgrad',
dest='defgrad',
action='extend',
metavar='<string LIST>',
help=msg)
parser.set_defaults(right=False, left=False,
logarithmic=False, biot=False, green=False,
defgrad='f')
(options, filenames) = parser.parse_args()
stretches = []
strains = []
if options.right:
stretches.append('U')
if options.left:
stretches.append('V')
if options.logarithmic:
strains.append('ln')
if options.biot:
strains.append('Biot')
if options.green:
strains.append('Green')
if options.defgrad is None:
parser.error('no data column specified.')
# ----- Loop over input files ----- #
for name in filenames:
try:
h5f = damask.H5Table(name, new_file=False)
except:
continue
damask.util.report(scriptName, name)
# extract defgrads from HDF5 storage
F = h5f.get_data(options.defgrad)
# allow calculate multiple types of strain within the
# same cmd call
for stretchType in stretches:
for strainType in strains:
# calculate strain tensor for this type
eps = calcEPS(F, stretchType, strainType)
# compose labels/headers for this strain tensor
labelsStrain = strainType + stretchType
# prepare log info
cmd_log = scriptID + '\t' + ' '.join(sys.argv[1:])
# write data to HDF5 file
h5f.add_data(labelsStrain, eps, cmd_log=cmd_log)

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@ -1,130 +0,0 @@
#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
# ------------------------------------------------------------------- #
# NOTE: #
# 1. Current Xdmf rendering in Paraview has some memory issue where #
# large number of polyvertices will cause segmentation fault. By #
# default, paraview output a cell based xdmf description, which #
# is working for small and medium mesh (<10,000) points. Hence a #
# rectangular mesh is used as the de facto Geometry description #
# here. #
# 2. Due to the unstable state Xdmf, it is safer to use port data #
# to VTR rather than using xdmf as interpretive layer for data #
# visualization. #
# ------------------------------------------------------------------- #
import os
import damask
import h5py
import xml.etree.cElementTree as ET
from optparse import OptionParser
from xml.dom import minidom
from damask.h5table import lables_to_path
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName,damask.version])
# ----- HELPER FUNCTIONS -----#
def addTopLvlCmt(xmlstr, topLevelCmt):
"""Add top level comment to string from ET"""
# a quick hack to add the top level comment to XML file
# --> somehow Elementtree does not provide this functionality
# --> by default
strList = xmlstr.split("\n")
strList[0] += "\n"+topLevelCmt
return "\n".join(strList)
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
msg = 'Generate Xdmf wrapper for HDF5 file.'
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description = msg,
version = scriptID)
(options, filenames) = parser.parse_args()
h5f = filenames[0]
h5f_base = h5f.split("/")[-1]
# ----- parse HDF5 file ----- #
h5f_dataDim = {}
h5f_dataPath = {}
h5f_dataType = {}
with h5py.File(h5f, 'a') as f:
labels = f.keys()
labels += f['/Constitutive'].keys()
labels += f['/Crystallite'].keys()
labels += ['Vx', 'Vy', "Vz"]
# remove group names as they do not contain real data
# TODO: use h5py/H5table API to detect dataset name to
# avoid necessary name space pruning.
labels.remove('Constitutive')
labels.remove('Crystallite')
labels.remove('Geometry')
# loop through remaining labels
for label in labels:
dataType, h5Path = lables_to_path(label)
h5f_dataType[label] = dataType
h5f_dataDim[label] = " ".join(map(str,f[h5Path].shape))
h5f_dataPath[label] = h5Path
# ----- constructing xdmf elements ----- #
root = ET.Element("Xdmf", version='3.3')
root.set('xmlns:xi', "http://www.w3.org/2001/XInclude")
root.append(ET.Comment('Generated Xdmf wapper for DAMASH H5 output'))
# usually there should only be ONE domain
domain = ET.SubElement(root, 'Domain',
Name=h5f_base.split(".")[0])
# use global topology through reference
grid = ET.SubElement(domain, 'Grid', GridType="Uniform")
# geometry section
geometry = ET.SubElement(grid, 'Geometry', GeometryType="VXVYVZ")
for vector in ["Vz", "Vy", "Vx"]:
dataitem = ET.SubElement(geometry, "DataItem",
DataType="Float",
Dimensions=h5f_dataDim[vector],
Name=vector,
Format="HDF")
dataitem.text = h5f_base.split("/")[-1] + ":{}".format(h5f_dataPath[vector])
# topology section
# TODO: support for other format based on given option
meshDim = [h5f_dataDim["Vz"], h5f_dataDim["Vy"], h5f_dataDim["Vx"]]
topology = ET.SubElement(grid, 'Topology',
TopologyType="3DRectMesh",
Dimensions=" ".join(map(str, meshDim)))
# attributes section
# Question: how to properly handle data mapping for multiphase situations
labelsProcessed = ['Vx', 'Vy', 'Vz']
# walk through each attributes
for label in labels:
if label in labelsProcessed: continue
print("adding {}...".format(label))
attr = ET.SubElement(grid, 'Attribute',
Name=label,
Type="None",
Center="Cell")
dataitem = ET.SubElement(attr, 'DataItem',
Name=label,
Format='HDF',
Dimensions=h5f_dataDim[label])
dataitem.text = h5f_base + ":" + h5f_dataPath[label]
# update progress list
labelsProcessed.append(label)
# pretty print the xdmf(xml) file content
xmlstr = minidom.parseString(ET.tostring(root)).toprettyxml(indent="\t")
xmlstr = addTopLvlCmt(xmlstr, '<!DOCTYPE Xdmf SYSTEM "Xdmf.dtd" []>')
# write str to file through native python API
with open(h5f.replace(".h5", ".xmf"), 'w') as f:
f.write(xmlstr)

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@ -1,191 +0,0 @@
#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
import os
import vtk
import damask
from vtk.util import numpy_support
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
msg = "Add scalars, vectors, and/or an RGB tuple from"
msg += "an HDF5 to existing VTK rectilinear grid (.vtr/.vtk)."
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description=msg,
version=scriptID)
parser.add_option('--vtk',
dest='vtk',
type='string', metavar='string',
help='VTK file name')
parser.add_option('--inplace',
dest='inplace',
action='store_true',
help='modify VTK file in-place')
parser.add_option('-r', '--render',
dest='render',
action='store_true',
help='open output in VTK render window')
parser.add_option('-d', '--data',
dest='data',
action='extend', metavar='<string LIST>',
help='scalar/vector value(s) label(s)')
parser.add_option('-t', '--tensor',
dest='tensor',
action='extend', metavar='<string LIST>',
help='tensor (3x3) value label(s)')
parser.add_option('-c', '--color',
dest='color',
action='extend', metavar='<string LIST>',
help='RGB color tuple label')
parser.add_option('-m',
'--mode',
dest='mode',
metavar='string',
type='choice', choices=['cell', 'point'],
help='cell-centered or point-centered coordinates')
parser.set_defaults(data=[],
tensor=[],
color=[],
mode='cell',
inplace=False,
render=False)
(options, filenames) = parser.parse_args()
# ----- Legacy VTK format support ----- #
if os.path.splitext(options.vtk)[1] == '.vtr':
reader = vtk.vtkXMLRectilinearGridReader()
reader.SetFileName(options.vtk)
reader.Update()
rGrid = reader.GetOutput()
elif os.path.splitext(options.vtk)[1] == '.vtk':
reader = vtk.vtkGenericDataObjectReader()
reader.SetFileName(options.vtk)
reader.Update()
rGrid = reader.GetRectilinearGridOutput()
else:
parser.error('Unsupported VTK file type extension.')
Npoints = rGrid.GetNumberOfPoints()
Ncells = rGrid.GetNumberOfCells()
# ----- Summary output (Sanity Check) ----- #
msg = '{}: {} points and {} cells...'.format(options.vtk,
Npoints,
Ncells)
damask.util.croak(msg)
# ----- Read HDF5 file ----- #
# NOTE:
# --> It is possible in the future we are trying to add data
# from different increment into the same VTK file, but
# this feature is not supported for the moment.
# --> Let it fail, if the HDF5 is invalid, python interpretor
# --> should be able to catch this error.
h5f = damask.H5Table(filenames[0], new_file=False)
# ----- Process data ----- #
featureToAdd = {'data': options.data,
'tensor': options.tensor,
'color': options.color}
VTKarray = {} # store all vtkData in dict, then ship them to file
for dataType in featureToAdd.keys():
featureNames = featureToAdd[dataType]
for featureName in featureNames:
VTKtype = vtk.VTK_DOUBLE
VTKdata = h5f.get_data(featureName)
if dataType == 'color':
VTKtype = vtk.VTK_UNSIGNED_CHAR
VTKdata = (VTKdata*255).astype(int)
elif dataType == 'tensor':
# Force symmetries tensor type data
VTKdata[:, 1] = VTKdata[:, 3] = 0.5*(VTKdata[:, 1]+VTKdata[:, 3])
VTKdata[:, 2] = VTKdata[:, 6] = 0.5*(VTKdata[:, 2]+VTKdata[:, 6])
VTKdata[:, 5] = VTKdata[:, 7] = 0.5*(VTKdata[:, 5]+VTKdata[:, 7])
# use vtk build-in numpy support to add data (much faster)
# NOTE:
# --> deep copy is necessary here, otherwise memory leak could occur
VTKarray[featureName] = numpy_support.numpy_to_vtk(num_array=VTKdata,
deep=True,
array_type=VTKtype)
VTKarray[featureName].SetName(featureName)
# ----- ship data to vtkGrid ----- #
mode = options.mode
damask.util.croak('{} mode...'.format(mode))
# NOTE:
# --> For unknown reason, Paraview only recognize one
# tensor attributes per cell, thus it would be safe
# to only add one attributes as tensor.
for dataType in featureToAdd.keys():
featureNames = featureToAdd[dataType]
for featureName in featureNames:
if dataType == 'color':
if mode == 'cell':
rGrid.GetCellData().SetScalars(VTKarray[featureName])
elif mode == 'point':
rGrid.GetPointData().SetScalars(VTKarray[featureName])
elif dataType == 'tensor':
if mode == 'cell':
rGrid.GetCellData().SetTensors(VTKarray[featureName])
elif mode == 'point':
rGrid.GetPointData().SetTensors(VTKarray[featureName])
else:
if mode == 'cell':
rGrid.GetCellData().AddArray(VTKarray[featureName])
elif mode == 'point':
rGrid.GetPointData().AddArray(VTKarray[featureName])
rGrid.Modified()
if vtk.VTK_MAJOR_VERSION <= 5:
rGrid.Update()
# ----- write Grid to VTK file ----- #
writer = vtk.vtkXMLRectilinearGridWriter()
writer.SetDataModeToBinary()
writer.SetCompressorTypeToZLib()
vtkFileN = os.path.splitext(options.vtk)[0]
vtkExtsn = '.vtr' if options.inplace else '_added.vtr'
writer.SetFileName(vtkFileN+vtkExtsn)
if vtk.VTK_MAJOR_VERSION <= 5:
writer.SetInput(rGrid)
else:
writer.SetInputData(rGrid)
writer.Write()
# ----- render results from script ----- #
if options.render:
mapper = vtk.vtkDataSetMapper()
mapper.SetInputData(rGrid)
actor = vtk.vtkActor()
actor.SetMapper(mapper)
# Create the graphics structure. The renderer renders into the
# render window. The render window interactor captures mouse events
# and will perform appropriate camera or actor manipulation
# depending on the nature of the events.
ren = vtk.vtkRenderer()
renWin = vtk.vtkRenderWindow()
renWin.AddRenderer(ren)
ren.AddActor(actor)
ren.SetBackground(1, 1, 1)
renWin.SetSize(200, 200)
iren = vtk.vtkRenderWindowInteractor()
iren.SetRenderWindow(renWin)
iren.Initialize()
renWin.Render()
iren.Start()

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@ -1,135 +0,0 @@
#!/usr/bin/env python2.7
# -*- coding: UTF-8 no BOM -*-
# ------------------------------------------------------------------ #
# NOTE: #
# 1. It might be a good idea to separate IO and calculation. #
# 2. Some of the calculation could be useful in other situations, #
# why not build a math_util, or math_sup module that contains #
# all the useful functions. #
# ------------------------------------------------------------------ #
import os
import vtk
import numpy as np
import damask
from optparse import OptionParser
scriptName = os.path.splitext(os.path.basename(__file__))[0]
scriptID = ' '.join([scriptName, damask.version])
# ----- HELPER FUNCTION ----- #
def getMeshFromXYZ(xyzArray, mode):
"""Calc Vx,Vy,Vz vectors for vtk rectangular mesh"""
# NOTE:
# --> np.unique will automatically sort the list
# --> although not exactly n(1), but since mesh dimension should
# small anyway, so this is still light weight.
dim = xyzArray.shape[1] # 2D:2, 3D:3
coords = [np.unique(xyzArray[:, i]) for i in range(dim)]
if mode == 'cell':
# since x, y, z might now have the same number of elements,
# we have to deal with them individually
for ri in range(dim):
vctr_pt = coords[ri]
vctr_cell = np.empty(len(vctr_pt)+1)
# calculate first and last end point
vctr_cell[0] = vctr_pt[0] - 0.5*abs(vctr_pt[1] - vctr_pt[0])
vctr_cell[-1] = vctr_pt[-1] + 0.5*abs(vctr_pt[-2] - vctr_pt[-1])
for cj in range(1, len(vctr_cell)-1):
vctr_cell[cj] = 0.5*(vctr_pt[cj-1] + vctr_pt[cj])
# update the coords
coords[ri] = vctr_cell
if dim < 3:
coords.append([0]) # expand to a 3D with 0 for z
# auxiliary description
grid = np.array(map(len, coords), 'i')
N = grid.prod() if mode == 'point' else (grid-1).prod()
return coords, grid, N
# --------------------------------------------------------------------
# MAIN
# --------------------------------------------------------------------
msg = "Create regular voxel grid from points in an ASCIItable."
parser = OptionParser(option_class=damask.extendableOption,
usage='%prog options [file[s]]',
description=msg,
version=scriptID)
parser.add_option('-m',
'--mode',
dest='mode',
metavar='string',
type='choice', choices=['cell', 'point'],
help='cell-centered or point-centered coordinates')
parser.add_option('-p',
'--pos', '--position',
dest='pos',
type='string', metavar='string',
help='label of coordinates [%default]')
parser.set_defaults(mode='cell',
pos='pos')
(options, filenames) = parser.parse_args()
# ----- loop over input files ----- #
for name in filenames:
try:
h5f = damask.H5Table(name, new_file=False)
except:
continue
damask.util.report(scriptName, name)
# ----- read xyzArray from HDF5 file ----- #
xyzArray = h5f.get_data(options.pos)
# ----- figure out size and grid ----- #
coords, grid, N = getMeshFromXYZ(xyzArray, options.mode)
# ----- process data ----- #
rGrid = vtk.vtkRectilinearGrid()
# WARNING: list expansion does not work here as these are
# just pointers for a vtk instance. Simply put,
# DON't USE
# [<VTK_CONSTRUCTOR>] * <NUM_OF_ELEMENTS>
coordArray = [vtk.vtkDoubleArray(),
vtk.vtkDoubleArray(),
vtk.vtkDoubleArray()]
rGrid.SetDimensions(*grid)
for i, points in enumerate(coords):
for point in points:
coordArray[i].InsertNextValue(point)
rGrid.SetXCoordinates(coordArray[0])
rGrid.SetYCoordinates(coordArray[1])
rGrid.SetZCoordinates(coordArray[2])
# ----- output result ----- #
dirPath = os.path.split(name)[0]
if name:
writer = vtk.vtkXMLRectilinearGridWriter()
writer.SetCompressorTypeToZLib()
writer.SetDataModeToBinary()
# getting the name is a little bit tricky
vtkFileName = os.path.splitext(os.path.split(name)[1])[0]
vtkFileName += '_{}({})'.format(options.pos, options.mode)
vtkFileName += '.' + writer.GetDefaultFileExtension()
writer.SetFileName(os.path.join(dirPath, vtkFileName))
else:
writer = vtk.vtkDataSetWriter()
writer.SetHeader('# powered by '+scriptID)
writer.WriteToOutputStringOn()
if vtk.VTK_MAJOR_VERSION <= 5:
writer.SetInput(rGrid)
else:
writer.SetInputData(rGrid)
writer.Write()

0
processing/pre/3DRVEfrom2Dang.py Normal file → Executable file
View File

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@ -186,11 +186,11 @@ subroutine constitutive_init()
if (any(phase_kinematics == KINEMATICS_hydrogen_strain_ID)) call kinematics_hydrogen_strain_init(FILEUNIT) if (any(phase_kinematics == KINEMATICS_hydrogen_strain_ID)) call kinematics_hydrogen_strain_init(FILEUNIT)
close(FILEUNIT) close(FILEUNIT)
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- constitutive init -+>>>' write(6,'(/,a)') ' <<<+- constitutive init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
mainProcess: if (worldrank == 0) then
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
! write description file for constitutive output ! write description file for constitutive output
call IO_write_jobFile(FILEUNIT,'outputConstitutive') call IO_write_jobFile(FILEUNIT,'outputConstitutive')

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@ -72,8 +72,6 @@ subroutine damage_local_init(fileUnit)
damage, & damage, &
damage_initialPhi, & damage_initialPhi, &
material_partHomogenization material_partHomogenization
use numerics,only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit integer(pInt), intent(in) :: fileUnit
@ -86,11 +84,9 @@ subroutine damage_local_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- damage_'//DAMAGE_local_label//' init -+>>>' write(6,'(/,a)') ' <<<+- damage_'//DAMAGE_local_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(damage_type == DAMAGE_local_ID),pInt) maxNinstance = int(count(damage_type == DAMAGE_local_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -26,19 +26,15 @@ subroutine damage_none_init()
use IO, only: & use IO, only: &
IO_timeStamp IO_timeStamp
use material use material
use numerics, only: &
worldrank
implicit none implicit none
integer(pInt) :: & integer(pInt) :: &
homog, & homog, &
NofMyHomog NofMyHomog
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- damage_'//DAMAGE_none_label//' init -+>>>' write(6,'(/,a)') ' <<<+- damage_'//DAMAGE_none_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
initializeInstances: do homog = 1_pInt, material_Nhomogenization initializeInstances: do homog = 1_pInt, material_Nhomogenization

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@ -77,8 +77,6 @@ subroutine damage_nonlocal_init(fileUnit)
damage, & damage, &
damage_initialPhi, & damage_initialPhi, &
material_partHomogenization material_partHomogenization
use numerics,only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit integer(pInt), intent(in) :: fileUnit
@ -91,11 +89,9 @@ subroutine damage_nonlocal_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- damage_'//DAMAGE_nonlocal_label//' init -+>>>' write(6,'(/,a)') ' <<<+- damage_'//DAMAGE_nonlocal_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(damage_type == DAMAGE_nonlocal_ID),pInt) maxNinstance = int(count(damage_type == DAMAGE_nonlocal_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -100,8 +100,6 @@ subroutine homogenization_RGC_init(fileUnit)
FE_geomtype FE_geomtype
use IO use IO
use material use material
use numerics, only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit !< file pointer to material configuration integer(pInt), intent(in) :: fileUnit !< file pointer to material configuration
@ -117,11 +115,9 @@ subroutine homogenization_RGC_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- homogenization_'//HOMOGENIZATION_RGC_label//' init -+>>>' write(6,'(/,a)') ' <<<+- homogenization_'//HOMOGENIZATION_RGC_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(homogenization_type == HOMOGENIZATION_RGC_ID),pInt) maxNinstance = int(count(homogenization_type == HOMOGENIZATION_RGC_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -62,8 +62,6 @@ subroutine homogenization_isostrain_init(fileUnit)
debug_levelBasic debug_levelBasic
use IO use IO
use material use material
use numerics, only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit integer(pInt), intent(in) :: fileUnit
@ -80,11 +78,9 @@ subroutine homogenization_isostrain_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- homogenization_'//HOMOGENIZATION_ISOSTRAIN_label//' init -+>>>' write(6,'(/,a)') ' <<<+- homogenization_'//HOMOGENIZATION_ISOSTRAIN_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = count(homogenization_type == HOMOGENIZATION_ISOSTRAIN_ID) maxNinstance = count(homogenization_type == HOMOGENIZATION_ISOSTRAIN_ID)
if (maxNinstance == 0) return if (maxNinstance == 0) return

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@ -29,19 +29,15 @@ subroutine homogenization_none_init()
use IO, only: & use IO, only: &
IO_timeStamp IO_timeStamp
use material use material
use numerics, only: &
worldrank
implicit none implicit none
integer(pInt) :: & integer(pInt) :: &
homog, & homog, &
NofMyHomog NofMyHomog
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- homogenization_'//HOMOGENIZATION_NONE_label//' init -+>>>' write(6,'(/,a)') ' <<<+- homogenization_'//HOMOGENIZATION_NONE_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
initializeInstances: do homog = 1_pInt, material_Nhomogenization initializeInstances: do homog = 1_pInt, material_Nhomogenization

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@ -84,8 +84,6 @@ subroutine hydrogenflux_cahnhilliard_init(fileUnit)
hydrogenflux_initialCh, & hydrogenflux_initialCh, &
material_partHomogenization, & material_partHomogenization, &
material_partPhase material_partPhase
use numerics,only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit integer(pInt), intent(in) :: fileUnit
@ -98,11 +96,9 @@ subroutine hydrogenflux_cahnhilliard_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- hydrogenflux_'//HYDROGENFLUX_cahnhilliard_label//' init -+>>>' write(6,'(/,a)') ' <<<+- hydrogenflux_'//HYDROGENFLUX_cahnhilliard_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(hydrogenflux_type == HYDROGENFLUX_cahnhilliard_ID),pInt) maxNinstance = int(count(hydrogenflux_type == HYDROGENFLUX_cahnhilliard_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -27,19 +27,15 @@ subroutine hydrogenflux_isoconc_init()
use IO, only: & use IO, only: &
IO_timeStamp IO_timeStamp
use material use material
use numerics, only: &
worldrank
implicit none implicit none
integer(pInt) :: & integer(pInt) :: &
homog, & homog, &
NofMyHomog NofMyHomog
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- hydrogenflux_'//HYDROGENFLUX_isoconc_label//' init -+>>>' write(6,'(/,a)') ' <<<+- hydrogenflux_'//HYDROGENFLUX_isoconc_label//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
initializeInstances: do homog = 1_pInt, material_Nhomogenization initializeInstances: do homog = 1_pInt, material_Nhomogenization

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@ -81,8 +81,6 @@ subroutine kinematics_cleavage_opening_init(fileUnit)
KINEMATICS_cleavage_opening_ID, & KINEMATICS_cleavage_opening_ID, &
material_Nphase, & material_Nphase, &
MATERIAL_partPhase MATERIAL_partPhase
use numerics,only: &
worldrank
use lattice, only: & use lattice, only: &
lattice_maxNcleavageFamily, & lattice_maxNcleavageFamily, &
lattice_NcleavageSystem lattice_NcleavageSystem
@ -97,11 +95,9 @@ subroutine kinematics_cleavage_opening_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_cleavage_opening_LABEL//' init -+>>>' write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_cleavage_opening_LABEL//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(phase_kinematics == KINEMATICS_cleavage_opening_ID),pInt) maxNinstance = int(count(phase_kinematics == KINEMATICS_cleavage_opening_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -81,8 +81,6 @@ subroutine kinematics_slipplane_opening_init(fileUnit)
KINEMATICS_slipplane_opening_ID, & KINEMATICS_slipplane_opening_ID, &
material_Nphase, & material_Nphase, &
MATERIAL_partPhase MATERIAL_partPhase
use numerics,only: &
worldrank
use lattice, only: & use lattice, only: &
lattice_maxNslipFamily, & lattice_maxNslipFamily, &
lattice_NslipSystem lattice_NslipSystem
@ -97,11 +95,9 @@ subroutine kinematics_slipplane_opening_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_slipplane_opening_LABEL//' init -+>>>' write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_slipplane_opening_LABEL//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(phase_kinematics == KINEMATICS_slipplane_opening_ID),pInt) maxNinstance = int(count(phase_kinematics == KINEMATICS_slipplane_opening_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -71,8 +71,6 @@ subroutine kinematics_thermal_expansion_init(fileUnit)
KINEMATICS_thermal_expansion_ID, & KINEMATICS_thermal_expansion_ID, &
material_Nphase, & material_Nphase, &
MATERIAL_partPhase MATERIAL_partPhase
use numerics,only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit integer(pInt), intent(in) :: fileUnit
@ -83,11 +81,9 @@ subroutine kinematics_thermal_expansion_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_thermal_expansion_LABEL//' init -+>>>' write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_thermal_expansion_LABEL//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(phase_kinematics == KINEMATICS_thermal_expansion_ID),pInt) maxNinstance = int(count(phase_kinematics == KINEMATICS_thermal_expansion_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -71,8 +71,6 @@ subroutine kinematics_vacancy_strain_init(fileUnit)
KINEMATICS_vacancy_strain_ID, & KINEMATICS_vacancy_strain_ID, &
material_Nphase, & material_Nphase, &
MATERIAL_partPhase MATERIAL_partPhase
use numerics,only: &
worldrank
implicit none implicit none
integer(pInt), intent(in) :: fileUnit integer(pInt), intent(in) :: fileUnit
@ -83,11 +81,9 @@ subroutine kinematics_vacancy_strain_init(fileUnit)
tag = '', & tag = '', &
line = '' line = ''
mainProcess: if (worldrank == 0) then
write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_vacancy_strain_LABEL//' init -+>>>' write(6,'(/,a)') ' <<<+- kinematics_'//KINEMATICS_vacancy_strain_LABEL//' init -+>>>'
write(6,'(a15,a)') ' Current time: ',IO_timeStamp() write(6,'(a15,a)') ' Current time: ',IO_timeStamp()
#include "compilation_info.f90" #include "compilation_info.f90"
endif mainProcess
maxNinstance = int(count(phase_kinematics == KINEMATICS_vacancy_strain_ID),pInt) maxNinstance = int(count(phase_kinematics == KINEMATICS_vacancy_strain_ID),pInt)
if (maxNinstance == 0_pInt) return if (maxNinstance == 0_pInt) return

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@ -96,19 +96,19 @@ module lattice
real(pReal), dimension(3+3,LATTICE_fcc_Nslip), parameter, private :: & real(pReal), dimension(3+3,LATTICE_fcc_Nslip), parameter, private :: &
LATTICE_fcc_systemSlip = reshape(real([& LATTICE_fcc_systemSlip = reshape(real([&
! Slip direction Plane normal ! Slip direction Plane normal ! SCHMID-BOAS notation
0, 1,-1, 1, 1, 1, & 0, 1,-1, 1, 1, 1, & ! B2
-1, 0, 1, 1, 1, 1, & -1, 0, 1, 1, 1, 1, & ! B4
1,-1, 0, 1, 1, 1, & 1,-1, 0, 1, 1, 1, & ! B5
0,-1,-1, -1,-1, 1, & 0,-1,-1, -1,-1, 1, & ! C1
1, 0, 1, -1,-1, 1, & 1, 0, 1, -1,-1, 1, & ! C3
-1, 1, 0, -1,-1, 1, & -1, 1, 0, -1,-1, 1, & ! C5
0,-1, 1, 1,-1,-1, & 0,-1, 1, 1,-1,-1, & ! A2
-1, 0,-1, 1,-1,-1, & -1, 0,-1, 1,-1,-1, & ! A3
1, 1, 0, 1,-1,-1, & 1, 1, 0, 1,-1,-1, & ! A6
0, 1, 1, -1, 1,-1, & 0, 1, 1, -1, 1,-1, & ! D1
1, 0,-1, -1, 1,-1, & 1, 0,-1, -1, 1,-1, & ! D4
-1,-1, 0, -1, 1,-1 & -1,-1, 0, -1, 1,-1 & ! D6
],pReal),[ 3_pInt + 3_pInt,LATTICE_fcc_Nslip]) !< Slip system <110>{111} directions. Sorted according to Eisenlohr & Hantcherli ],pReal),[ 3_pInt + 3_pInt,LATTICE_fcc_Nslip]) !< Slip system <110>{111} directions. Sorted according to Eisenlohr & Hantcherli
real(pReal), dimension(3+3,LATTICE_fcc_Ntwin), parameter, private :: & real(pReal), dimension(3+3,LATTICE_fcc_Ntwin), parameter, private :: &

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@ -1178,7 +1178,7 @@ end subroutine plastic_disloUCLA_dotState
function plastic_disloUCLA_postResults(Tstar_v,Temperature,ipc,ip,el) function plastic_disloUCLA_postResults(Tstar_v,Temperature,ipc,ip,el)
use prec, only: & use prec, only: &
tol_math_check, & tol_math_check, &
dEq dEq, dNeq0
use math, only: & use math, only: &
pi pi
use material, only: & use material, only: &
@ -1445,9 +1445,13 @@ function plastic_disloUCLA_postResults(Tstar_v,Temperature,ipc,ip,el)
index_myFamily = sum(lattice_NslipSystem(1:f-1_pInt,ph)) ! at which index starts my family index_myFamily = sum(lattice_NslipSystem(1:f-1_pInt,ph)) ! at which index starts my family
slipSystems2: do i = 1_pInt,plastic_disloUCLA_Nslip(f,instance) slipSystems2: do i = 1_pInt,plastic_disloUCLA_Nslip(f,instance)
j = j + 1_pInt j = j + 1_pInt
if (dNeq0(abs(dot_product(Tstar_v,lattice_Sslip_v(:,1,index_myFamily+i,ph))))) then
plastic_disloUCLA_postResults(c+j) = & plastic_disloUCLA_postResults(c+j) = &
(3.0_pReal*lattice_mu(ph)*plastic_disloUCLA_burgersPerSlipSystem(j,instance))/& (3.0_pReal*lattice_mu(ph)*plastic_disloUCLA_burgersPerSlipSystem(j,instance))/&
(16.0_pReal*pi*abs(dot_product(Tstar_v,lattice_Sslip_v(:,1,index_myFamily+i,ph)))) (16.0_pReal*pi*abs(dot_product(Tstar_v,lattice_Sslip_v(:,1,index_myFamily+i,ph))))
else
plastic_disloUCLA_postResults(c+j) = huge(1.0_pReal)
endif
plastic_disloUCLA_postResults(c+j)=min(plastic_disloUCLA_postResults(c+j),& plastic_disloUCLA_postResults(c+j)=min(plastic_disloUCLA_postResults(c+j),&
state(instance)%mfp_slip(j,of)) state(instance)%mfp_slip(j,of))
enddo slipSystems2; enddo slipFamilies2 enddo slipSystems2; enddo slipFamilies2

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@ -137,6 +137,7 @@ end subroutine prec_init
!> @brief equality comparison for float with double precision !> @brief equality comparison for float with double precision
! replaces "==" but for certain (relative) tolerance. Counterpart to dNeq ! replaces "==" but for certain (relative) tolerance. Counterpart to dNeq
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/ ! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
! AlmostEqualRelative
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
logical elemental pure function dEq(a,b,tol) logical elemental pure function dEq(a,b,tol)
@ -153,6 +154,7 @@ end function dEq
!> @brief inequality comparison for float with double precision !> @brief inequality comparison for float with double precision
! replaces "!=" but for certain (relative) tolerance. Counterpart to dEq ! replaces "!=" but for certain (relative) tolerance. Counterpart to dEq
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/ ! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
! AlmostEqualRelative NOT
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
logical elemental pure function dNeq(a,b,tol) logical elemental pure function dNeq(a,b,tol)
@ -167,33 +169,35 @@ end function dNeq
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
!> @brief equality to 0 comparison for float with double precision !> @brief equality to 0 comparison for float with double precision
! replaces "==0" but for certain (absolute) tolerance. Counterpart to dNeq0 ! replaces "==0" but everything not representable as a normal number is treated as 0. Counterpart to dNeq0
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/ ! https://de.mathworks.com/help/matlab/ref/realmin.html
! https://docs.oracle.com/cd/E19957-01/806-3568/ncg_math.html
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
logical elemental pure function dEq0(a,tol) logical elemental pure function dEq0(a,tol)
implicit none implicit none
real(pReal), intent(in) :: a real(pReal), intent(in) :: a
real(pReal), intent(in), optional :: tol real(pReal), intent(in), optional :: tol
real(pReal), parameter :: eps = 2.220446049250313E-16 ! DBL_EPSILON in C real(pReal), parameter :: eps = 2.2250738585072014E-308 ! smallest non-denormalized number
dEq0 = merge(.True., .False.,abs(a) <= merge(tol,eps,present(tol))*10.0_pReal) dEq0 = merge(.True., .False.,abs(a) <= merge(tol,eps,present(tol)))
end function dEq0 end function dEq0
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
!> @brief inequality to 0 comparison for float with double precision !> @brief inequality to 0 comparison for float with double precision
! replaces "!=0" but for certain (absolute) tolerance. Counterpart to dEq0 ! replaces "!=0" but everything not representable as a normal number is treated as 0. Counterpart to dEq0
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/ ! https://de.mathworks.com/help/matlab/ref/realmin.html
! https://docs.oracle.com/cd/E19957-01/806-3568/ncg_math.html
!-------------------------------------------------------------------------------------------------- !--------------------------------------------------------------------------------------------------
logical elemental pure function dNeq0(a,tol) logical elemental pure function dNeq0(a,tol)
implicit none implicit none
real(pReal), intent(in) :: a real(pReal), intent(in) :: a
real(pReal), intent(in), optional :: tol real(pReal), intent(in), optional :: tol
real(pReal), parameter :: eps = 2.220446049250313E-16 ! DBL_EPSILON in C real(pReal), parameter :: eps = 2.2250738585072014E-308 ! smallest non-denormalized number
dNeq0 = merge(.False., .True.,abs(a) <= merge(tol,eps,present(tol))*10.0_pReal) dNeq0 = merge(.False., .True.,abs(a) <= merge(tol,eps,present(tol)))
end function dNeq0 end function dNeq0