#parser.add_option( "-y", action="store", type="float", help="format of input file") #parser.add_option( "--yrange", action="store", type="float", help="y positions of the tip range (min,max,n) [A]", nargs=3) (options, args) = parser.parse_args() opt_dict = vars(options) print options if options.npy: data_format = "npy" else: data_format = "xsf" if options.points == []: sys.exit(HELP_MSG) print " >> OVEWRITING SETTINGS by params.ini " PPU.loadParams('params.ini') dz = PPU.params['scanStep'][2] Amp = [PPU.params['Amplitude']] scan_min = PPU.params['scanMin'] scan_max = PPU.params['scanMax'] scan_step = PPU.params['scanStep'] gridN = PPU.params['gridN'] gridA = PPU.params['gridA'][0] gridB = PPU.params['gridB'][1] gridC = PPU.params['gridC'][2] MAX = [gridA, gridB, gridC] print " >> OVEWRITING SETTINGS by command line arguments "
#parser.add_option( "--yrange", action="store", type="float", help="y positions of the tip range (min,max,n) [A]", nargs=3) (options, args) = parser.parse_args() opt_dict = vars(options) print options if options.npy: format ="npy" else: format ="xsf" if options.points==[]: sys.exit(HELP_MSG) print " >> OVEWRITING SETTINGS by params.ini " PPU.loadParams( 'params.ini' ) dz = PPU.params['scanStep'][2] Amp = [ PPU.params['Amplitude'] ] scan_min=PPU.params['scanMin'] scan_max=PPU.params['scanMax'] scan_step=PPU.params['scanStep'] gridN=PPU.params['gridN'] gridA=PPU.params['gridA'][0] gridB=PPU.params['gridB'][1] gridC=PPU.params['gridC'][2]