DAMASK_EICMD/processing/pre/mentat_spectralBox.py

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#!/usr/bin/env python
# -*- coding: UTF-8 no BOM -*-
import os, sys, math, re, threading, time, string, damask
from optparse import OptionParser, OptionGroup, Option, SUPPRESS_HELP
scriptID = '$Id$'
scriptName = scriptID.split()[1]
#-------------------------------------------------------------------------------------------------
def outMentat(cmd,locals):
#-------------------------------------------------------------------------------------------------
if cmd[0:3] == '(!)':
exec(cmd[3:])
elif cmd[0:3] == '(?)':
cmd = eval(cmd[3:])
py_send(cmd)
else:
py_send(cmd)
return
#-------------------------------------------------------------------------------------------------
def outStdout(cmd,locals):
#-------------------------------------------------------------------------------------------------
if cmd[0:3] == '(!)':
exec(cmd[3:])
elif cmd[0:3] == '(?)':
cmd = eval(cmd[3:])
print(cmd)
else:
print(cmd)
return
#-------------------------------------------------------------------------------------------------
def output(cmds,locals,dest):
#-------------------------------------------------------------------------------------------------
for cmd in cmds:
if isinstance(cmd,list):
output(cmd,locals,dest)
else:
{\
'Mentat': outMentat,\
'Stdout': outStdout,\
}[dest](str(cmd),locals)
return
#-------------------------------------------------------------------------------------------------
def init():
#-------------------------------------------------------------------------------------------------
return ["*new_model yes",
"*reset",
"*select_clear",
"*set_element_class hex8",
"*set_nodes off",
"*elements_solid",
"*show_view 4",
"*reset_view",
"*view_perspective",
"*redraw",
]
#-------------------------------------------------------------------------------------------------
def mesh(r,d):
#-------------------------------------------------------------------------------------------------
return [
"*add_nodes",
"%f %f %f"%(0.0,0.0,0.0),
"%f %f %f"%(0.0,0.0,d[2]),
"%f %f %f"%(0.0,d[1],d[2]),
"%f %f %f"%(0.0,d[1],0.0),
"%f %f %f"%(-d[0],0.0,0.0),
"%f %f %f"%(-d[0],0.0,d[2]),
"%f %f %f"%(-d[0],d[1],d[2]),
"%f %f %f"%(-d[0],d[1],0.0),
"*add_elements",
range(1,9),
"*sub_divisions",
"%i %i %i"%(r[2],r[1],r[0]),
"*subdivide_elements",
"all_existing",
"*set_sweep_tolerance",
"%f"%(float(min(d))/max(r)/2.0),
"*sweep_all",
"*renumber_all",
"*set_move_scale_factor x -1",
"*move_elements",
"all_existing",
"*flip_elements",
"all_existing",
"*fill_view",
]
#-------------------------------------------------------------------------------------------------
def material():
#-------------------------------------------------------------------------------------------------
cmds = [\
"*new_mater standard",
"*mater_option general:state:solid",
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"*mater_option structural:type:hypo_elast",
"*mater_name",
"hypela2",
"*add_mater_elements",
"all_existing",
"*geometry_type mech_three_solid",
# "*geometry_option red_integ_capacity:on", # see below: reduced integration with one IP gave trouble being always OUTDATED...
"*add_geometry_elements",
"all_existing",
]
return cmds
#-------------------------------------------------------------------------------------------------
def geometry():
#-------------------------------------------------------------------------------------------------
cmds = [\
"*geometry_type mech_three_solid",
# "*geometry_option red_integ_capacity:on",
"*add_geometry_elements",
"all_existing",
"*element_type 7", # we are NOT using reduced integration (type 117) but opt for /elementhomogeneous/ in the respective phase description (material.config)
"all_existing",
]
return cmds
#-------------------------------------------------------------------------------------------------
def initial_conditions(homogenization,microstructures):
#-------------------------------------------------------------------------------------------------
elements = []
element = 0
for id in microstructures:
element += 1
if len(elements) < id:
for i in range(id-len(elements)):
elements.append([])
elements[id-1].append(element)
cmds = [\
"*new_icond",
"*icond_name _temperature",
"*icond_type state_variable",
"*icond_param_value state_var_id 1",
"*icond_dof_value var 300",
"*add_icond_elements",
"all_existing",
"*new_icond",
"*icond_name _homogenization",
"*icond_type state_variable",
"*icond_param_value state_var_id 2",
"*icond_dof_value var %i"%homogenization,
"*add_icond_elements",
"all_existing",
]
for grain,elementList in enumerate(elements):
cmds.append([\
"*new_icond",
"*icond_name microstructure_%i"%(grain+1),
"*icond_type state_variable",
"*icond_param_value state_var_id 3",
"*icond_dof_value var %i"%(grain+1),
"*add_icond_elements",
elementList,
"#",
])
return cmds
#-------------------------------------------------------------------------------------------------
def parse_geomFile(content,homog):
#-------------------------------------------------------------------------------------------------
(skip,key) = content[0].split()[:2]
if key[:4].lower() == 'head':
skip = int(skip)+1
else:
skip = 0
grid = [0,0,0]
size = [0.0,0.0,0.0]
homog = 0
for line in content[:skip]:
data = line.split()
if data[0].lower() == 'grid' or data[0].lower() == 'resolution':
grid = map(int,data[2:8:2])
if data[0].lower() == 'size' or data[0].lower() == 'dimension':
size = map(float,data[2:8:2])
if data[0].lower() == 'homogenization':
homog = int(data[1])
microstructures = []
for line in content[skip:]:
microstructures.append(int(line.split()[0]))
return (grid,size,homog,microstructures)
#-------------------------------------------------------------------------------------------------
def parse_spectralFile(content,homog):
#-------------------------------------------------------------------------------------------------
coords = [{},{},{}]
maxBox = [-1.0e20,-1.0e20,-1.0e20]
minBox = [ 1.0e20, 1.0e20, 1.0e20]
grid = [0.0,0.0,0.0]
size = [0,0,0]
microstructures = []
for line in content:
data = line.split()[3:7]
microstructures.append(int(data[3]))
for i in range(3):
maxBox[i] = max(maxBox[i],float(data[i]))
minBox[i] = min(minBox[i],float(data[i]))
coords[i][data[i]] = True
for i in range(3):
grid[i] = len(coords[i])
size[i] = (maxBox[i]-minBox[i])*grid[i]/(grid[i]-1.0)
return (grid,size,homog,microstructures)
#--------------------------------------------------------------------------------------------------
# MAIN
#--------------------------------------------------------------------------------------------------
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parser = OptionParser(usage='%prog [options] spectral.datafile', description = """
Generate FE hexahedral mesh from spectral description file.
Acceptable formats are
geom: header plus list of grain numbers or
spectral: phi1,Phi,phi2,x,y,z,id,phase.
""" + string.replace(scriptID,'\n','\\n')
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)
parser.add_option("-p", "--port", type="int",\
dest="port",\
help="Mentat connection port")
parser.add_option("-g", "--geom", action="store_const", const="geom",\
dest="filetype",\
help="file has 'geom' format")
parser.add_option("-s", "--spectral", action="store_const", const="spectral",\
dest="filetype",\
help="file has 'spectral' format (VPSC Lebensohn)")
parser.add_option("--homogenization", type="int",\
dest="homogenization",\
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help="homogenization index from material.config (only required for geom file type)")
parser.set_defaults(filetype = 'geom')
parser.set_defaults(homogenization = 1)
(options, args) = parser.parse_args()
sys.path.append(damask.solver.Marc().libraryPath('../../'))
try:
from py_mentat import *
except:
print('no valid Mentat release found')
if options.port != None: sys.exit(-1)
if not os.path.isfile(args[0]):
parser.error("cannot open %s"%args[0])
file = open(args[0])
content = file.readlines()
file.close()
print('\033[1m'+scriptName+'\033[0m\n')
if options.filetype not in ['spectral','geom']:
options.filetype = os.path.splitext(args[0])[1][1:]
print('\nparsing %s...'%options.filetype,)
sys.stdout.flush()
(grid,size,homog,microstructures) = {\
'geom': parse_geomFile,
'spectral': parse_spectralFile,
}[options.filetype](content,options.homogenization)
print('%i microstructures in %s with grid %s and homogenization %i\n'%(len(list(set(microstructures))),str(size),str(grid),homog))
cmds = [\
init(),
mesh(grid,size),
material(),
geometry(),
initial_conditions(homog,microstructures),
'*identify_sets',
'*redraw',
]
outputLocals = {}
if (options.port != None):
py_connect('',options.port)
output(cmds,outputLocals,'Mentat')
py_disconnect()
else:
output(cmds,outputLocals,'Stdout')