197 lines
7.4 KiB
Python
197 lines
7.4 KiB
Python
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#!/usr/bin/env python2.7
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# -*- coding: UTF-8 no BOM -*-
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import os,re
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from optparse import OptionParser
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import damask
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scriptName = os.path.splitext(os.path.basename(__file__))[0]
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scriptID = ' '.join([scriptName,damask.version])
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def all_same(items,a):
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return all(x == a for x in items)
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def func(seq):
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for x in seq:
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try:
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yield float(x)
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except ValueError:
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yield x
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#--------------------------------------------------------------------------------------------------
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# MAIN
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#--------------------------------------------------------------------------------------------------
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parser = OptionParser(option_class=damask.extendableOption, usage='%prog options [file[s]]', description = """
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Recognize bounding surfaces and append them as physical sufaces in the geo file.
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""", version = scriptID)
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parser.add_option('-n','--numvol', dest = 'N', type='int', metavar='int',
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help='number of physical volumes' )
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parser.add_option('-f','--faces', dest = 'surfaces', action = 'extend', type = 'string', metavar = '<string LIST>',
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help = 'surfaces to tag {x, y, z}')
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parser.add_option('-s','--size', dest = 'size', type='float', metavar='float',
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help='mesh size [%default]' )
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parser.add_option('-d','--dim', dest = 'dimension', type='int', metavar='int',
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help='dimension of geometry [%default]' )
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(options, filename) = parser.parse_args()
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parser.set_defaults(size = 0.1,
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dimension = 3)
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my_geofile = filename[0]
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numVol = options.N
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PointCount = 0
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LineCount = 0
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LineLoopCount = 0
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point = []
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line = []
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lineloop = []
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f = open(my_geofile,'r')
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lines = f.readlines()
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f.close()
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for eachline in lines:
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if eachline.startswith('Point', 0, 5):
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PointCount += 1
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r = re.compile('{(.*?)}')
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m = r.search(eachline)
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if m:
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a = m.group(1)
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point.append(list(func(a.split(","))))
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elif eachline.startswith('Line (', 0, 6):
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LineCount += 1
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r = re.compile('{(.*?)}')
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m = r.search(eachline)
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if m:
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a = m.group(1)
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line.append(list(func(a.split(","))))
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elif eachline.startswith('Line Loop', 0, 9):
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LineLoopCount += 1
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r = re.compile('{(.*?)}')
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m = r.search(eachline)
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if m:
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a = m.group(1)
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lineloop.append(list(func(a.split(","))))
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x_coord = []; y_coord = []; z_coord = []
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xp = []; xm = []
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yp = []; ym = []
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zp = []; zm = []
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xmin = min([x[0] for x in point]); xmax = max([x[0] for x in point])
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ymin = min([x[1] for x in point]); ymax = max([x[1] for x in point])
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zmin = min([x[2] for x in point]); zmax = max([x[2] for x in point])
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if (options.dimension == 3):
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for i,l in enumerate(lineloop):
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for lines in l:
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for pts in line[int(abs(lines)-1)]:
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x_coord.append(point[int(pts)-1][0])
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y_coord.append(point[int(pts)-1][1])
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z_coord.append(point[int(pts)-1][2])
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if all_same(x_coord,xmax) and any([surface == 'x' for surface in options.surfaces]):
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xp.append(int(i+1))
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elif all_same(x_coord,xmin) and any([surface == 'x' for surface in options.surfaces]):
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xm.append(int(i+1))
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elif all_same(y_coord,ymax) and any([surface == 'y' for surface in options.surfaces]):
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yp.append(int(i+1))
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elif all_same(y_coord,ymin) and any([surface == 'y' for surface in options.surfaces]):
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ym.append(int(i+1))
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elif all_same(z_coord,zmax) and any([surface == 'z' for surface in options.surfaces]):
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zp.append(int(i+1))
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elif all_same(z_coord,zmin) and any([surface == 'z' for surface in options.surfaces]):
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zm.append(int(i+1))
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x_coord = []
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y_coord = []
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z_coord = []
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with open(my_geofile,'a') as f:
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f.write('Delete Physicals; \n')
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if any([surface == 'x' for surface in options.surfaces]):
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f.write('%s%s%s\n' %('Physical Surface(1) = {',','.join(map(str, xp)),'};'))
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f.write('%s%s%s\n' %('Physical Surface(2) = {',','.join(map(str, xm)),'};'))
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if any([surface == 'y' for surface in options.surfaces]):
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f.write('%s%s%s\n' %('Physical Surface(3) = {',','.join(map(str, yp)),'};'))
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f.write('%s%s%s\n' %('Physical Surface(4) = {',','.join(map(str, ym)),'};'))
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if any([surface == 'z' for surface in options.surfaces]):
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f.write('%s%s%s\n' %('Physical Surface(5) = {',','.join(map(str, zp)),'};'))
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f.write('%s%s%s\n' %('Physical Surface(6) = {',','.join(map(str, zm)),'};'))
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for i in range(numVol):
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f.write('%s%d%s%d%s\n' %('Physical Volume (', i+1,') = {',i+1,'};'))
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f.write('Field[1] = Box;\n')
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f.write('%s%f%s\n' %('Field[1].VIn = ', options.size,';'))
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f.write('%s%f%s\n' %('Field[1].VOut = ',options.size,';'))
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f.write('%s%f%s\n' %('Field[1].XMin = ',xmin,';'))
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f.write('%s%f%s\n' %('Field[1].XMax = ',xmax,';'))
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f.write('%s%f%s\n' %('Field[1].YMin = ',ymin,';'))
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f.write('%s%f%s\n' %('Field[1].YMax = ',ymax,';'))
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f.write('%s%f%s\n' %('Field[1].ZMin = ',zmin,';'))
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f.write('%s%f%s\n' %('Field[1].ZMax = ',zmax,';'))
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f.write('Background Field = 1;\n')
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f.close()
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elif (options.dimension == 2):
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for i,l in enumerate(line):
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# for pts in line[int(abs(lines)-1)]:
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for pts in l:
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x_coord.append(point[int(pts)-1][0])
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y_coord.append(point[int(pts)-1][1])
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z_coord.append(point[int(pts)-1][2])
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if all_same(x_coord,xmax) and any([surface == 'x' for surface in options.surfaces]):
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xp.append(int(i+1))
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elif all_same(x_coord,xmin) and any([surface == 'x' for surface in options.surfaces]):
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xm.append(int(i+1))
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elif all_same(y_coord,ymax) and any([surface == 'y' for surface in options.surfaces]):
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yp.append(int(i+1))
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elif all_same(y_coord,ymin) and any([surface == 'y' for surface in options.surfaces]):
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ym.append(int(i+1))
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elif all_same(z_coord,zmax) and any([surface == 'z' for surface in options.surfaces]):
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zp.append(int(i+1))
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elif all_same(z_coord,zmin) and any([surface == 'z' for surface in options.surfaces]):
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zm.append(int(i+1))
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x_coord = []
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y_coord = []
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z_coord = []
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with open(my_geofile,'a') as f:
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f.write('Delete Physicals; \n')
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if any([surface == 'x' for surface in options.surfaces]):
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f.write('%s%s%s\n' %('Physical Line(1) = {',','.join(map(str, xp)),'};'))
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f.write('%s%s%s\n' %('Physical Line(2) = {',','.join(map(str, xm)),'};'))
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if any([surface == 'y' for surface in options.surfaces]):
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f.write('%s%s%s\n' %('Physical Line(3) = {',','.join(map(str, yp)),'};'))
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f.write('%s%s%s\n' %('Physical Line(4) = {',','.join(map(str, ym)),'};'))
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if any([surface == 'z' for surface in options.surfaces]):
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f.write('%s%s%s\n' %('Physical Line(5) = {',','.join(map(str, zp)),'};'))
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f.write('%s%s%s\n' %('Physical Line(6) = {',','.join(map(str, zm)),'};'))
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for i in range(numVol):
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f.write('%s%d%s%d%s\n' %('Physical Surface (', i+1,') = {',i+1,'};'))
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f.write('Field[1] = Box;\n')
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f.write('%s%f%s\n' %('Field[1].VIn = ', options.size,';'))
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f.write('%s%f%s\n' %('Field[1].VOut = ',options.size,';'))
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f.write('%s%f%s\n' %('Field[1].XMin = ',xmin,';'))
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f.write('%s%f%s\n' %('Field[1].XMax = ',xmax,';'))
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f.write('%s%f%s\n' %('Field[1].YMin = ',ymin,';'))
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f.write('%s%f%s\n' %('Field[1].YMax = ',ymax,';'))
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f.write('%s%f%s\n' %('Field[1].ZMin = ',zmin,';'))
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f.write('%s%f%s\n' %('Field[1].ZMax = ',zmax,';'))
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f.write('Background Field = 1;\n')
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f.close()
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