# coding=UTF-8 """ LJay/LJ v0.8 Command line arguments parser by Sam Neurohack from /team/laser """ from libs3 import gstt import argparse import subprocess from libs3 import settings as Settings def handle(): #have to be done before importing bhorosc.py to get correct port assignment argsparser = argparse.ArgumentParser(description="LJ v0.8") argsparser.add_argument("-r","--redisIP",help="IP address to bind builtin servers (OSC and websocket) also must be the Redis server IP ",type=str) argsparser.add_argument("-L","--Lasers",help="Number of lasers requested (1 by default).",type=int) argsparser.add_argument("-v","--verbose",help="Debug mode 0,1 or 2 (0 by default)",type=int) argsparser.add_argument("-x","--invx",help="Invert laser 0 X axis again",action="store_true") argsparser.add_argument("-y","--invy",help="Invert laser 0 Y axis again",action="store_true") argsparser.add_argument("-d","--display",help="Point List number displayed in simulator",type=int) argsparser.add_argument("-a","--align",help="Reset laser 0 alignement values",action="store_true") argsparser.add_argument("-i","--iport",help="port number for builtin LJ OSC server (8002 by default)",type=int) argsparser.add_argument("-n","--nozoidIP",help="IP for llstr' Nozoid OSC server port 8003 ('127.0.0.1' by default)",type=str) argsparser.add_argument("-b","--oscserverip",help="IP for OSC output ('127.0.0.1' by default)",type=str) argsparser.add_argument("-o","--oport",help="OSC output port number (8001 by default)",type=int) argsparser.add_argument("-w","--webui",help="Regen the webui",action="store_true") # Keep it ! if new features of cli.py is used in a monolaser program # argsparser.add_argument("-l","--laser",help="Last digit of etherdream ip address 192.168.1.0/24 (4 by default). Localhost if digit provided is 0.",type=int) args = argsparser.parse_args() # Verbose = debug if args.verbose != None: #print "setting gstt.debug to", args.verbose gstt.debug = args.verbose else: gstt.debug = 0 # Webui regen if args.webui == True: subprocess.call(['python','webui/build.py']) # Ports arguments if args.iport: iport = args.iport gstt.iport = iport else: iport = gstt.iport if args.oport: oport = args.oport gstt.oport = oport else: oport = gstt.oport if gstt.debug > 0: print("Accept OSC port arg : ",gstt.oport) print("Send OSC to port arg :",gstt.iport) # X Y inversion arguments if args.invx == True: gstt.swapX[0] = -1 * gstt.swapX[0] gstt.centerx[0] = 0 gstt.centery[0] = 0 #WriteSettings() print("laser 0 X new invertion Asked") if gstt.swapX[0] == 1: print ("X not Inverted") else: print ("X Inverted") if args.invy == True: gstt.swapY[0] = -1 * gstt.swapY[0] gstt.centerx[0] = 0 gstt.centery[0] = 0 #WriteSettings() print("laser 0 Y new invertion Asked") if gstt.swapY[0] == 1: print ("Y not Inverted") else: print("Y inverted") # Redis Computer IP if args.redisIP != None: gstt.RediServerIP = args.redisIP # Point list number used by simulator if args.display != None: gstt.simuPL = args.display print("Display : " + str(gstt.simuPL)) # Lasers = number of laser connected otherwise will be autodetected with one minimum if args.Lasers != None: gstt.LaserNumber = args.Lasers Settings.Write() if args.oscserverip != None: gstt.oscIPin = args.oscserverip else: gstt.oscIPin = '127.0.0.1' if args.nozoidIP != None: gstt.nozoscIP = args.nozoidIP else: gstt.nozoscIP = '127.0.0.1' # Etherdream target for mono laser program ''' if args.laser != None: lstdgtlaser = args.laser if lstdgtlaser == 0: etherIP = "127.0.0.1" else: etherIP = "192.168.1."+str(lstdgtlaser) else: etherIP = "192.168.1.4" #print ("Laser 1 etherIP:",etherIP) ''' # Reset alignment values if args.align == True: gstt.centerx[0] = 0 gstt.centery[0] = 0 gstt.zoomx[0] = 15 gstt.zoomy[0] = 15 gstt.sizex[0] = 32000 gstt.sizey[0] = 32000 gstt.finangle[0] = 0.0 gstt.swapx[0] = 1 gstt.swapy[0] = 1 #Settings.Write() handle()