def main():
"""
Main
"""
global time_series
# get arguments from command line
args_parser = get_args_parser()
args = args_parser.parse_args()
# apply arguments
splashFilename = args.splashfile
time_series = args.time
# create the list of requested splash files
splash_files = list()
if time_series:
splashFilename = splash2xdmf.get_common_filename(splashFilename)
for s_filename in glob.glob("{}_*.h5".format(splashFilename)):
splash_files.append(s_filename)
else:
splash_files.append(splashFilename)
tmp = splashFilename.rfind(".h5")
splashFilename = splashFilename[:tmp]
output_filename = "{}.xmf".format(splashFilename)
if args.o:
if args.o.endswith(".xmf"):
output_filename = args.o
else:
print "The script was stopped, because your output filename doesn't have\nan ending paraview can work with. Please use the ending '.xmf'!"
sys.exit()
if args.no_splitgrid:
# create the basic xml structure using splash2xdmf
xdmf_root = splash2xdmf.create_xdmf_xml(splash_files, args)
# transform this xml using our pic semantic knowledge
transform_xdmf_xml(xdmf_root)
# create a xml file from the transformed structure
doc.appendChild(xdmf_root)
# write data to output file
splash2xdmf.write_xml_to_file(output_filename, doc)
else:
# create the basic xml structure for grid and poly using splash2xdmf
grid_xdmf_root, poly_xdmf_root = splash2xdmf.create_xdmf_xml(splash_files, args)
# transform these xml using our pic semantic knowledge
transform_xdmf_xml(grid_xdmf_root)
transform_xdmf_xml(poly_xdmf_root)
# create the xml files from the transformed structures
grid_doc.appendChild(grid_xdmf_root)
poly_doc.appendChild(poly_xdmf_root)
# create list of two output filenames with _grid and _poly extension
output_filename_list = splash2xdmf.handle_user_filename(output_filename)
# use output filename list to write data to the relating output file
for output_file in output_filename_list:
if output_file.endswith("_grid.xmf"):
splash2xdmf.write_xml_to_file(output_file, grid_doc)
if output_file.endswith("_poly.xmf"):
splash2xdmf.write_xml_to_file(output_file, poly_doc)
def main():
"""
Main
"""
global time_series
# get arguments from command line
args_parser = get_args_parser()
args = args_parser.parse_args()
# apply arguments
splashFilename = args.splashfile
time_series = args.time
# create the list of requested splash files
splash_files = list()
if time_series:
splashFilename = splash2xdmf.get_common_filename(splashFilename)
for s_filename in glob.glob("{}_*.h5".format(splashFilename)):
splash_files.append(s_filename)
else:
splash_files.append(splashFilename)
tmp = splashFilename.rfind(".h5")
splashFilename = splashFilename[:tmp]
output_filename = "{}.xmf".format(splashFilename)
if args.o:
if args.o.endswith(".xmf"):
output_filename = args.o
else:
print "The script was stopped, because your output filename doesn't have\nan ending paraview can work with. Please use the ending '.xmf'!"
sys.exit()
if args.no_splitgrid:
# create the basic xml structure using splash2xdmf
xdmf_root = splash2xdmf.create_xdmf_xml(splash_files, args)
# transform this xml using our pic semantic knowledge
transform_xdmf_xml(xdmf_root)
# create a xml file from the transformed structure
doc.appendChild(xdmf_root)
# write data to output file
splash2xdmf.write_xml_to_file(output_filename, doc)
else:
# create the basic xml structure for grid and poly using splash2xdmf
grid_xdmf_root, poly_xdmf_root = splash2xdmf.create_xdmf_xml(splash_files, args)
# transform these xml using our pic semantic knowledge
transform_xdmf_xml(grid_xdmf_root)
transform_xdmf_xml(poly_xdmf_root)
# create the xml files from the transformed structures
grid_doc.appendChild(grid_xdmf_root)
poly_doc.appendChild(poly_xdmf_root)
# create list of two output filenames with _grid and _poly extension
output_filename_list = splash2xdmf.handle_user_filename(output_filename)
# use output filename list to write data to the relating output file
for output_file in output_filename_list:
if output_file.endswith("_grid.xmf"):
splash2xdmf.write_xml_to_file(output_file, grid_doc)
if output_file.endswith("_poly.xmf"):
splash2xdmf.write_xml_to_file(output_file, poly_doc)
def main():
"""
Main
"""
# get arguments from command line
args_parser = get_args_parser()
args = args_parser.parse_args()
# apply arguments
splashFilename = args.splashfile
time_series = args.time
# create the list of requested splash files
splash_files = list()
if time_series:
splashFilename = splash2xdmf.get_common_filename(splashFilename)
for s_filename in glob.glob("{}_*.h5".format(splashFilename)):
splash_files.append(s_filename)
else:
splash_files.append(splashFilename)
# create the basic xml structure using splas2xdmf
xdmf_root = splash2xdmf.create_xdmf_xml(splash_files)
# transform this xml using our pic semantic knowledge
transform_xdmf_xml(xdmf_root)
# create a xml file from the transformed structure
doc.appendChild(xdmf_root)
output_filename = "{}.xmf".format(splashFilename)
if args.o:
output_filename = args.o
splash2xdmf.write_xml_to_file(output_filename, doc)
def main():
"""
Main
"""
# get arguments from command line
args_parser = get_args_parser()
args = args_parser.parse_args()
# apply arguments
splashFilename = args.splashfile
time_series = args.time
# create the list of requested splash files
splash_files = list()
if time_series:
splashFilename = splash2xdmf.get_common_filename(splashFilename)
for s_filename in glob.glob("{}_*.h5".format(splashFilename)):
splash_files.append(s_filename)
else:
splash_files.append(splashFilename)
# create the basic xml structure using splas2xdmf
xdmf_root = splash2xdmf.create_xdmf_xml(splash_files)
# transform this xml using our pic semantic knowledge
transform_xdmf_xml(xdmf_root)
# create a xml file from the transformed structure
doc.appendChild(xdmf_root)
output_filename = "{}.xmf".format(splashFilename)
if args.o:
output_filename = args.o
splash2xdmf.write_xml_to_file(output_filename, doc)