#!/usr/bin/env python import os, sys, math, re, threading, time from optparse import OptionParser, OptionGroup, Option, SUPPRESS_HELP releases = {'2010':['linux64',''], '2008r1':[''], '2007r1':[''], '2005r3':[''], } file = open('%s/../MSCpath'%os.path.dirname(sys.argv[0])) MSCpath = os.path.normpath(file.readline().strip()) file.close() 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 from py_mentat import * 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](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(N,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", "1 2 3 4 5 6 7 8", "*sub_divisions", "%i %i %i"%(N[2],N[1],N[0]), "*subdivide_elements", "all_existing", "*set_sweep_tolerance", "%f"%(float(min(d))/max(N)/2.0), "*sweep_all", "*renumber_all", "*set_move_scale_factor x -1", "*move_elements", "all_existing", "*flip_elements", "all_existing", "*fill_view", ] def initial_conditions(N,data): elements = [] element = 0 for line in data: element += 1 phi1,phi,phi2,x,y,z,id,phase = line.split() id = int(id) if len(elements) < id: for i in range(id-len(elements)): elements.append([]) elements[id-1].append(element) cmds = [\ "*new_icond", "*icond_name homogenization", "*icond_type state_variable", "*icond_param_value state_var_id 2", "*icond_dof_value var 1", "*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", map(str,elementList), "#", ]) return cmds # ----------------------- MAIN ------------------------------- parser = OptionParser() parser.add_option("-p", "--port", type="int",\ dest="port",\ help="Mentat connection port") parser.add_option("-d", "--dimension", type="int", nargs=3,\ dest="d",\ help="physical dimension") parser.add_option("-N", "--subdivisions", type="int", nargs=3,\ dest="N",\ help="number of subdivisions") parser.set_defaults(d = (16,16,16)) parser.set_defaults(N = (16,16,16)) (options, args) = parser.parse_args() if not os.path.isfile(args[0]): parser.error("cannot open %s"%args[0]) file = open(args[0]) content = file.readlines() file.close() cmds = [\ init(), mesh(options.N,options.d), initial_conditions(options.N,content), ] outputLocals = {} if (options.port != None): py_connect('',options.port) output(cmds,outputLocals,'Mentat') py_disconnect() else: output(cmds,outputLocals,'Stdout')