# coding=UTF-8 ''' nozoscip LJ Global state v0.8.0 ** Almost all values here Will be overriden by data in LJ.conf at startup ** LICENCE : CC BY by Sam Neurohack, Loloster, pclf from /team/laser ''' #ConfigName = "setexample.conf" ConfigName = "LJ.conf" debug = 10 ljpath='' anims= [[],[],[],[]] # How many lasers are connected. Different that "currentlaser" and "dacnumber" (=autodetected) LaserNumber = 4 # What laser client to listen at launch SceneNumber = 0 MaxScenes = 3 screen_size = [400,400] xy_center = [screen_size[0]/2,screen_size[1]/2] LjayServerIP = '192.168.1.13' oscIPin = '192.168.1.15' nozoscIP = '192.168.1.15' wwwIP = '192.168.1.15' # gstt.Laser select to what laser modifcation will occur. # Can be changed with /noteon 16-23 Laser = 0 # gstt.simuPL select what point list number to display in webUI simulator # Can be changed with /noteon 24-31 simuPL = 1 # gstt.laserIPS. lasersIPS = ['192.168.1.5','192.168.1.6','192.168.1.3','192.168.1.4'] maxdacs = 4 # Autodetected by DAChecks() in main3 : # Store connected dacs. Maybe laser 1 in LJ.conf is not connected but Laser 2 is. dacs = [-1, -1, -1, -1] # Actual number of connected DACs dacnumber = 0 # gstt.kpps stores kpps for each laser. # ** Will be overridden by LJ.conf file values ** kpps = [25000,25000,25000,25000] lasertype = ["LOCAL","LOCAL","LOCAL","LOCAL"] intensity = [-1,-1,-1,-1] # gstt.GridDisplay : if = 1 Curve points actually sent to PL are replaced by a grid GridDisplay = [0,0,0,0] # Transformation Matrix for each laser EDH = [[], [], [], []] # EDH = [[], [], [], []] # Etherdreams reports # ipconn is initial newdac to its etherdream lstt_ipconn = [[-1], [-1], [-1], [-1]] # dacstt is dac light engine state lstt_dacstt = [[-1], [-1], [-1], [-1]] # store last dac answers : ACK, not ACK,... lstt_dacanswers = [[-1], [-1], [-1], [-1]] # store last number of points sent to etherdreams buffer lstt_points = [[0], [0], [0], [0]] swapX = [1,1,1,-1] swapY = [1,1,1,-1] lsteps = [[],[],[],[]] # For glitch art : change position and number of points added by tracer.py # shortline is for distance with next point, shorter than 4000 (in etherdream coordinates) # i.e (0.25,3) means add 3 points at 25% on the line. stepshortline = [(1.0, 8)] stepslongline = [(0.25, 3), (0.75, 3), (1.0, 10)] #stepslongline = [(0.25,1), (0.75, 1), (1.0, 1)] #stepshortline = [(1.0, 8)] #stepslongline = [(1.0, 1)] #stepshortline = [(1.0, 1)] point = [0,0,0] cc = [0] * 256 lfo = [0] * 10 osc = [0] * 255 oscInUse = [0] * 255 knob = [0] * 33 # Viewer distance (cc 21) cc[21]=60 viewer_distance = cc[21] * 8 # fov (cc 22) cc[22]= 60 fov = 4 * cc[22] JumpFlag =0 # OSC ports #temporaray fix hack : iport=nozoport iport = 8002 # LJ input port oport = 8001 # LJ output port noziport=8003 #nozosc.py receiving commands port nozoport=8001 #nozosc.py sending port to LJay (main.py) nozuport=0 #linux serial usb port connecting nozoid devices ACM0 by default angleX = 0 angleY = 0 angleZ = 0 # multilasers arrays centerX = [0,0,0,0] centerY = [0,0,0,0] zoomX = [0,0,0,0] zoomY = [0,0,0,0] sizeX = [0,0,0,0] sizeY = [0,0,0,0] finANGLE = [0,0,0,0] warpdest = [[[ 1. , 0. , 0.],[ 0. , 1. , 0.],[ 0. , 0. , 1.]], [[ 1. , 0. , 0.],[ 0. , 1. , 0.],[ 0. , 0. , 1.]], [[ 1. , 0. , 0.],[ 0. , 1. , 0.],[ 0. , 0. , 1.]], [[ 1. , 0. , 0.],[ 0. , 1. , 0.],[ 0. , 0. , 1.]] ] BeatstepLayer = 1 BeatstepLayers = ['XY','Live',"Align","Zregulators"] TouchOSCPort = 8101 TouchOSCIP = '192.168.2.67' # iPad 1 #TouchOSCIP = '192.168.2.156' # iPad mini #TouchOSCIP = '192.168.43.146' # iPad mini @ fuzz #TouchOSCIP = '192.168.151.213' # CCN #TouchOSCIP = '127.0.0.1' # Localhost