#!/usr/bin/env python2.7 # -*- coding: UTF-8 no BOM -*- import os,sys,math import numpy as np import multiprocessing from optparse import OptionParser,OptionGroup from scipy import spatial import damask scriptName = os.path.splitext(os.path.basename(__file__))[0] scriptID = ' '.join([scriptName,damask.version]) def meshgrid2(*arrs): """Code inspired by http://stackoverflow.com/questions/1827489/numpy-meshgrid-in-3d""" arrs = tuple(reversed(arrs)) arrs = tuple(arrs) lens = np.array(map(len, arrs)) dim = len(arrs) ans = [] for i, arr in enumerate(arrs): slc = np.ones(dim,'i') slc[i] = lens[i] arr2 = np.asarray(arr).reshape(slc) for j, sz in enumerate(lens): if j != i: arr2 = arr2.repeat(sz, axis=j) ans.insert(0,arr2) return tuple(ans) def findClosestSeed(fargs): point, seeds, myWeights = fargs tmp = np.repeat(point.reshape(3,1), len(seeds), axis=1).T dist = np.sum((tmp - seeds)**2,axis=1) -myWeights return np.argmin(dist) # seed point closest to point def laguerreTessellation(undeformed, coords, weights, grains, periodic = True, cpus = 2): copies = \ np.array([ [ -1,-1,-1 ], [ 0,-1,-1 ], [ 1,-1,-1 ], [ -1, 0,-1 ], [ 0, 0,-1 ], [ 1, 0,-1 ], [ -1, 1,-1 ], [ 0, 1,-1 ], [ 1, 1,-1 ], [ -1,-1, 0 ], [ 0,-1, 0 ], [ 1,-1, 0 ], [ -1, 0, 0 ], [ 0, 0, 0 ], [ 1, 0, 0 ], [ -1, 1, 0 ], [ 0, 1, 0 ], [ 1, 1, 0 ], [ -1,-1, 1 ], [ 0,-1, 1 ], [ 1,-1, 1 ], [ -1, 0, 1 ], [ 0, 0, 1 ], [ 1, 0, 1 ], [ -1, 1, 1 ], [ 0, 1, 1 ], [ 1, 1, 1 ], ]).astype(float)*info['size'] if periodic else \ np.array([ [ 0, 0, 0 ], ]).astype(float) repeatweights = np.tile(weights,len(copies)).flatten(order='F') # Laguerre weights (1,2,3,1,2,3,...,1,2,3) for i,vec in enumerate(copies): # periodic copies of seed points ... try: seeds = np.append(seeds, coords+vec, axis=0) # ... (1+a,2+a,3+a,...,1+z,2+z,3+z) except NameError: seeds = coords+vec if (repeatweights == 0.0).all(): # standard Voronoi (no weights, KD tree) myKDTree = spatial.cKDTree(seeds) devNull,closestSeeds = myKDTree.query(undeformed) else: damask.util.croak('...using {} cpu{}'.format(options.cpus, 's' if options.cpus > 1 else '')) arguments = [[arg,seeds,repeatweights] for arg in list(undeformed)] if cpus > 1: # use multithreading pool = multiprocessing.Pool(processes = cpus) # initialize workers result = pool.map_async(findClosestSeed, arguments) # evaluate function in parallel pool.close() pool.join() closestSeeds = np.array(result.get()).flatten() else: closestSeeds = np.zeros(len(arguments),dtype='i') for i,arg in enumerate(arguments): closestSeeds[i] = findClosestSeed(arg) # closestSeed is modulo number of original seed points (i.e. excluding periodic copies) return grains[closestSeeds%coords.shape[0]] # -------------------------------------------------------------------- # MAIN # -------------------------------------------------------------------- parser = OptionParser(option_class=damask.extendableOption, usage='%prog option(s) [seedfile(s)]', description = """ Generate geometry description and material configuration by tessellation of given seeds file. """, version = scriptID) group = OptionGroup(parser, "Tessellation","") group.add_option('-l', '--laguerre', dest = 'laguerre', action = 'store_true', help = 'use Laguerre (weighted Voronoi) tessellation') group.add_option('--cpus', dest = 'cpus', type = 'int', metavar = 'int', help = 'number of parallel processes to use for Laguerre tessellation [%default]') group.add_option('--nonperiodic', dest = 'periodic', action = 'store_false', help = 'nonperiodic tessellation') parser.add_option_group(group) group = OptionGroup(parser, "Geometry","") group.add_option('-g', '--grid', dest = 'grid', type = 'int', nargs = 3, metavar = ' '.join(['int']*3), help = 'a,b,c grid of hexahedral box') group.add_option('-s', '--size', dest = 'size', type = 'float', nargs = 3, metavar=' '.join(['float']*3), help = 'x,y,z size of hexahedral box') group.add_option('-o', '--origin', dest = 'origin', type = 'float', nargs = 3, metavar=' '.join(['float']*3), help = 'origin of grid') group.add_option('--nonnormalized', dest = 'normalized', action = 'store_false', help = 'seed coordinates are not normalized to a unit cube') parser.add_option_group(group) group = OptionGroup(parser, "Seeds","") group.add_option('-p', '--pos', '--seedposition', dest = 'pos', type = 'string', metavar = 'string', help = 'label of coordinates [%default]') group.add_option('-w', '--weight', dest = 'weight', type = 'string', metavar = 'string', help = 'label of weights [%default]') group.add_option('-m', '--microstructure', dest = 'microstructure', type = 'string', metavar = 'string', help = 'label of microstructures [%default]') group.add_option('-e', '--eulers', dest = 'eulers', type = 'string', metavar = 'string', help = 'label of Euler angles [%default]') group.add_option('--axes', dest = 'axes', type = 'string', nargs = 3, metavar = ' '.join(['string']*3), help = 'orientation coordinate frame in terms of position coordinate frame') parser.add_option_group(group) group = OptionGroup(parser, "Configuration","") group.add_option('--without-config', dest = 'config', action = 'store_false', help = 'omit material configuration header') group.add_option('--homogenization', dest = 'homogenization', type = 'int', metavar = 'int', help = 'homogenization index to be used [%default]') group.add_option('--crystallite', dest = 'crystallite', type = 'int', metavar = 'int', help = 'crystallite index to be used [%default]') group.add_option('--phase', dest = 'phase', type = 'int', metavar = 'int', help = 'phase index to be used [%default]') parser.add_option_group(group) parser.set_defaults(pos = 'pos', weight = 'weight', microstructure = 'microstructure', eulers = 'euler', homogenization = 1, crystallite = 1, phase = 1, cpus = 2, laguerre = False, periodic = True, normalized = True, config = True, ) (options,filenames) = parser.parse_args() # --- loop over input files ------------------------------------------------------------------------- if filenames == []: filenames = [None] for name in filenames: try: table = damask.ASCIItable(name = name, outname = os.path.splitext(name)[0]+'.geom' if name else name, buffered = False) except: continue damask.util.report(scriptName,name) # --- read header ---------------------------------------------------------------------------- table.head_read() info,extra_header = table.head_getGeom() if options.grid is not None: info['grid'] = options.grid if options.size is not None: info['size'] = options.size if options.origin is not None: info['origin'] = options.origin # ------------------------------------------ sanity checks --------------------------------------- remarks = [] errors = [] labels = [] hasGrains = table.label_dimension(options.microstructure) == 1 hasEulers = table.label_dimension(options.eulers) == 3 hasWeights = table.label_dimension(options.weight) == 1 and options.laguerre if np.any(info['grid'] < 1): errors.append('invalid grid a b c.') if np.any(info['size'] <= 0.0) \ and np.all(info['grid'] < 1): errors.append('invalid size x y z.') else: for i in range(3): if info['size'][i] <= 0.0: # any invalid size? info['size'][i] = float(info['grid'][i])/max(info['grid']) # normalize to grid remarks.append('rescaling size {} to {}...'.format(['x','y','z'][i],info['size'][i])) if table.label_dimension(options.pos) != 3: errors.append('seed positions "{}" have dimension {}.'.format(options.pos, table.label_dimension(options.pos))) else: labels += [options.pos] if not options.normalized: remarks.append('using real-space seed coordinates...') if not hasEulers: remarks.append('missing seed orientations...') else: labels += [options.eulers] if not hasGrains: remarks.append('missing seed microstructure indices...') else: labels += [options.microstructure] if options.laguerre and not hasWeights: remarks.append('missing seed weights...') else: labels += [options.weight] if remarks != []: damask.util.croak(remarks) if errors != []: damask.util.croak(errors) table.close(dismiss=True) continue # ------------------------------------------ read seeds --------------------------------------- table.data_readArray(labels) coords = table.data[:,table.label_indexrange(options.pos)] * info['size'] if options.normalized \ else table.data[:,table.label_indexrange(options.pos)] - info['origin'] eulers = table.data[:,table.label_indexrange(options.eulers)] if hasEulers \ else np.zeros(3*len(coords)) grains = table.data[:,table.label_indexrange(options.microstructure)].astype('i') if hasGrains \ else 1+np.arange(len(coords)) weights = table.data[:,table.label_indexrange(options.weight)] if hasWeights \ else np.zeros(len(coords)) grainIDs = np.unique(grains).astype('i') NgrainIDs = len(grainIDs) # --- tessellate microstructure ------------------------------------------------------------ x = (np.arange(info['grid'][0])+0.5)*info['size'][0]/info['grid'][0] y = (np.arange(info['grid'][1])+0.5)*info['size'][1]/info['grid'][1] z = (np.arange(info['grid'][2])+0.5)*info['size'][2]/info['grid'][2] damask.util.croak('tessellating...') grid = np.vstack(meshgrid2(x, y, z)).reshape(3,-1).T indices = laguerreTessellation(grid, coords, weights, grains, options.periodic, options.cpus) # --- write header ------------------------------------------------------------------------ usedGrainIDs = np.intersect1d(grainIDs,indices) info['microstructures'] = len(usedGrainIDs) if info['homogenization'] == 0: info['homogenization'] = options.homogenization damask.util.report_geom(info,['grid','size','origin','homogenization',]) damask.util.croak(['microstructures: {}{}'.format(info['microstructures'], (' out of {}'.format(NgrainIDs) if NgrainIDs != info['microstructures'] else '')), ]) config_header = [] formatwidth = 1+int(math.log10(NgrainIDs)) if options.config: config_header += [''] for i,ID in enumerate(grainIDs): config_header += ['[Grain{}]'.format(str(ID).zfill(formatwidth)), 'crystallite {}'.format(options.crystallite), '(constituent)\tphase {}\ttexture {}\tfraction 1.0'.format(options.phase,str(ID).rjust(formatwidth)), ] if hasEulers: config_header += [''] for ID in grainIDs: eulerID = np.nonzero(grains == ID)[0][0] # find first occurrence of this grain id config_header += ['[Grain{}]'.format(str(ID).zfill(formatwidth)), '(gauss)\tphi1 {:g}\tPhi {:g}\tphi2 {:g}\tscatter 0.0\tfraction 1.0'.format(*eulers[eulerID]) ] if options.axes is not None: config_header.append('axes\t{} {} {}'.format(*options.axes)) table.labels_clear() table.info_clear() table.info_append([ scriptID + ' ' + ' '.join(sys.argv[1:]), "grid\ta {}\tb {}\tc {}".format(*info['grid']), "size\tx {}\ty {}\tz {}".format(*info['size']), "origin\tx {}\ty {}\tz {}".format(*info['origin']), "homogenization\t{}".format(info['homogenization']), "microstructures\t{}".format(info['microstructures']), config_header, ]) table.head_write() # --- write microstructure information ------------------------------------------------------------ table.data = indices.reshape(info['grid'][1]*info['grid'][2],info['grid'][0]) table.data_writeArray('%%%ii'%(formatwidth),delimiter=' ') #--- output finalization -------------------------------------------------------------------------- table.close()