deleted old incarnation...
new script follows established option parsing. can rescale (increase only) the number of grid points in any dimension (with or without concurrent dimension scaling).
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#!/usr/bin/env python
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# -*- coding: UTF-8 no BOM -*-
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import os,sys,string,re,math,numpy
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from optparse import OptionParser, OptionGroup, Option, SUPPRESS_HELP
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# -----------------------------
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class extendedOption(Option):
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# -----------------------------
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# used for definition of new option parser action 'extend', which enables to take multiple option arguments
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# taken from online tutorial http://docs.python.org/library/optparse.html
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ACTIONS = Option.ACTIONS + ("extend",)
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STORE_ACTIONS = Option.STORE_ACTIONS + ("extend",)
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TYPED_ACTIONS = Option.TYPED_ACTIONS + ("extend",)
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ALWAYS_TYPED_ACTIONS = Option.ALWAYS_TYPED_ACTIONS + ("extend",)
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def take_action(self, action, dest, opt, value, values, parser):
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if action == "extend":
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lvalue = value.split(",")
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values.ensure_value(dest, []).extend(lvalue)
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else:
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Option.take_action(self, action, dest, opt, value, values, parser)
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# ----------------------- MAIN -------------------------------
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identifiers = {
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'resolution': ['a','b','c'],
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'dimension': ['x','y','z'],
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}
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mappings = {
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'resolution': lambda x: int(x),
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'dimension': lambda x: float(x),
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}
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parser = OptionParser(option_class=extendedOption, usage='%prog options [file[s]]', description = """
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Multiplies a spectral geometry description independently in x, y, and z direction at fixed dimension.
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""" + string.replace('$Id: spectral_geomCrop.py 1449 2012-04-24 11:31:18Z MPIE\t.elachkar $','\n','\\n')
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)
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parser.add_option('-f', '--factor', dest='factor', type='int', nargs = 3, \
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help='multiplication factors of a,b,c resolution')
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parser.add_option('-2', '--twodimensional', dest='twoD', action='store_true', \
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help='output geom file with two-dimensional data arrangement')
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parser.add_option('-k', '--keep', dest='keepDimension', action='store_true', \
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help='keep dimension as before')
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parser.set_defaults(factor = [1,1,1])
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parser.set_defaults(twoD = False)
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parser.set_defaults(keepDimension = False)
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(options, filenames) = parser.parse_args()
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prefix = 'mult%ix%ix%i'%(options.factor[0],options.factor[1],options.factor[2])
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# ------------------------------------------ setup file handles ---------------------------------------
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files = []
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if filenames == []:
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files.append({'name':'STDIN', 'input':sys.stdin, 'output':sys.stdout})
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else:
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for name in filenames:
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if os.path.exists(name):
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files.append({'name':name, 'input':open(name), 'output':open(prefix+'_'+name,'w')})
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# ------------------------------------------ loop over input files ---------------------------------------
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for file in files:
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if file['name'] != 'STDIN': print file['name']
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# get labels by either read the first row, or - if keyword header is present - the last line of the header
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firstline = file['input'].readline()
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m = re.search('(\d+)\s*head', firstline.lower())
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if m:
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headerlines = int(m.group(1))
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headers = [firstline]+[file['input'].readline() for i in range(headerlines)]
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else:
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headerlines = 1
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headers = firstline
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content = file['input'].readlines()
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file['input'].close()
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resolution = [0,0,0]
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dimension = [0.0,0.0,0.0]
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resolution_blown = [0,0,0]
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dimension_blown = [0.0,0.0,0.0]
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new_header = []
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for header in headers:
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headitems = header.split()
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if headitems[0] == 'resolution': # located resolution entry
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for i in xrange(3):
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resolution[i] = mappings['resolution'](headitems[headitems.index(identifiers['resolution'][i])+1])
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resolution_blown[i] = resolution[i]*options.factor[i]
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header = "resolution\ta %i\tb %i\tc %i\n"%(resolution_blown[0],resolution_blown[1],resolution_blown[2])
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if headitems[0] == 'dimension': # located dimension entry
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for i in xrange(3):
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dimension[i] = mappings['dimension'](headitems[headitems.index(identifiers['dimension'][i])+1])
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if options.keepDimension: dimension_blown[i] = dimension[i]
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else: dimension_blown[i] = dimension[i]*options.factor[i]
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header = "dimension\tx %f\ty %f\tz %f\n"%(dimension_blown[0],dimension_blown[1],dimension_blown[2])
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new_header.append(header)
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if resolution == [0,0,0]:
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print 'no resolution info found.'
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sys.exit(1)
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if dimension == [0.0,0.0,0.0]:
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print 'no dimension info found.'
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sys.exit(1)
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if file['name'] != 'STDIN':
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print 'resolution: %s'%(' x '.join(map(str,resolution_blown)))
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print 'dimension: %s'%(' x '.join(map(str,dimension_blown)))
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microstructure = numpy.zeros(resolution,'i')
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i = 0
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for line in content:
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for item in map(int,line.split()):
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microstructure[i%resolution[0],(i/resolution[0])%resolution[1],i/resolution[0]/resolution[1]] = item
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i += 1
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formatwidth = int(math.floor(math.log10(microstructure.max())))
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# ------------------------------------------ assemble header ---------------------------------------
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output = ''.join(new_header)
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# ------------------------------------- regenerate texture information ----------------------------------
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for z in xrange(resolution[2]):
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for c in xrange(options.factor[2]):
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for y in xrange(resolution[1]):
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for b in xrange(options.factor[1]):
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for x in xrange(resolution[0]):
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for a in xrange(options.factor[0]):
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output += ('%%%ii'%formatwidth)%microstructure[x,y,z] + {True:' ',False:'\n'}[options.twoD]
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output += {True:'\n',False:''}[options.twoD]
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# ------------------------------------------ output result ---------------------------------------
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file['output'].write(output)
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file['input'].close()
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if file['name'] != 'STDIN':
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file['output'].close()
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@ -1,54 +0,0 @@
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#!/usr/bin/env python
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# -*- coding: UTF-8 no BOM -*-
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#scale the size of a given .geom file (first argument, without extension) in x y z direction by given commandline argument
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#(integer in each direction)
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#be carefull, last line should be empty (line break after last number)
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import sys, time, re
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scale = [0 for i in range(3)]
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scale[0] = int(sys.argv[2])
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scale[1] = int(sys.argv[3])
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scale[2] = int(sys.argv[4])
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resolution = [3 for i in range(3)]
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dimension = [0.0 for i in range(3)]
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file_in = open(sys.argv[1]+'.geom','r')
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for i in range(3):
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input = file_in.readline()
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if re.match('resolution',input):
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resolution[0] = int(re.findall('\S*',''.join(re.findall('a\s*\S*',input)))[-2])
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resolution[1] = int(re.findall('\S*',''.join(re.findall('b\s*\S*',input)))[-2])
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resolution[2] = int(re.findall('\S*',''.join(re.findall('c\s*\S*',input)))[-2])
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if re.match('dimension',input):
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dimension[0] = float(re.findall('\S*',''.join(re.findall('x\s*\S*',input)))[-2])
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dimension[1] = float(re.findall('\S*',''.join(re.findall('y\s*\S*',input)))[-2])
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dimension[2] = float(re.findall('\S*',''.join(re.findall('z\s*\S*',input)))[-2])
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output = ''
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for x in range(resolution[0]*resolution[1]*resolution[2]):
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a=file_in.readline()
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for i in range(scale[0]):
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output += a
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output_separated = output.splitlines(True)
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resolution[0] = resolution[0]*scale[0] #scale resolution 1
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output = ''
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for z in range(resolution[2]):
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for y in range(resolution[1]):
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for i in range(scale[1]):
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output += ''.join(output_separated[z*resolution[0]*resolution[1]+y*resolution[0]:\
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z*resolution[0]*resolution[1]+y*resolution[0]+resolution[0]])
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resolution[1] = resolution[1]*scale[1] #scale resolution 2
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output_separated = output.splitlines(True)
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output = ''
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for z in range(resolution[2]):
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for i in range(scale[2]):
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output += ''.join(output_separated[z*resolution[0]*resolution[1]:\
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z*resolution[0]*resolution[1]+resolution[0]*resolution[1]])
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resolution[2] = resolution[2]*scale[2] #scale resolution 2
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file_out = open(sys.argv[1]+'_scaled_'+str(sys.argv[2])+'-'+str(sys.argv[3])+'-'+str(sys.argv[4])+'.geom','w')
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file_out.write('resolution a '+str(resolution[0])+' b '+str(resolution[1])+' z '+str(resolution[2])+'\n')
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file_out.write('dimension x '+str(dimension[0])+' y '+str(dimension[1])+' z '+str(dimension[2])+'\n')
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file_out.write('homogenization 1\n')
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file_out.write(output)
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