forked from protonphoton/LJ
286 lines
7.4 KiB
Python
286 lines
7.4 KiB
Python
# coding=UTF-8
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"""
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LJ OSC and Websockets laser commands
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v0.7.0
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LICENCE : CC
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by Sam Neurohack, Loloster,
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from /team/laser
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"""
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import types, time
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import gstt
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import homographyp
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import settings
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import redis
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r = redis.StrictRedis(host=gstt.LjayServerIP , port=6379, db=0)
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def UserOn(laser):
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print "User for laser ", laser
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r.set('/order/'+str(laser), 0)
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def NewEDH(laser):
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print "New EDH requested for laser ", laser
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settings.Write()
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print "Settings saving swapX ", gstt.swapX[laser]
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print "Settings saving swapY ", gstt.swapY[laser]
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homographyp.newEDH(laser)
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def BlackOn(laser):
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print "Black for laser ", laser
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r.set('/order/'+str(laser), 2)
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def GridOn(laser):
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print "Grid for laser ", laser
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r.set('/order/'+str(laser), 3)
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def Resampler(laser,lsteps):
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# lsteps is a string like : "[ (1.0, 8),(0.25, 3), (0.75, 3), (1.0, 10)]"
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print "Resampler change for laser ", laser
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r.set('/resampler/' + str(laser), lsteps)
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r.set('/order/'+str(laser), 4)
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def LasClientChange(clientnumber):
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#
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if r.get("/pl/"+str(clientnumber)+"/0") != None:
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print "Switching to laser client", clientnumber
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gstt.LasClientNumber = clientnumber
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r.set('/clientkey', "/pl/"+str(clientnumber)+"/")
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print "clientkey set to", "/pl/"+str(clientnumber)+"/"
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for laserid in xrange(0,gstt.LaserNumber):
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r.set('/order/'+str(laserid), 5)
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else:
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print "ERROR : MaxLasClient is set to ", gstt.MaxLasClient
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def NoteOn(note):
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print "NoteOn", note
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# Change laser client
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if note < 8:
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LasClientChange(note)
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# Change PL displayed on webui
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if note > 23 and note < 32:
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if note - 24 > gstt.LaserNumber -1:
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print "Only",gstt.LaserNumber,"lasers asked, you dum ass !"
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else:
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gstt.Laser = note -24
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print "Current Laser switched to",gstt.Laser
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def handler(oscpath, args):
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print ""
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print "Handler"
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if oscpath[1] == "client" or oscpath[1] =="noteon":
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if oscpath[1] == "client":
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LasClientChange(int(args[0]))
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else:
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NoteOn(int(args[0]))
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else:
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pathlength = len(oscpath)
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if pathlength == 3:
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laser = int(oscpath[2])
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else:
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laser = int(oscpath[3])
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print "args[0] :",args[0]," ", type(args[0])
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# /grid/lasernumber value (0 or 1)
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if oscpath[1] == "grid":
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if args[0] == "1":
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print "Grid requested for laser ", laser
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GridOn(laser)
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else:
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print "No grid for laser ", laser
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UserOn(laser)
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# /black/lasernumber value (0 or 1)
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if oscpath[1] == "black":
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if args[0] == "1":
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print "Black requested for laser ", laser
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BlackOn(laser)
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else:
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print "No black for laser ", laser
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UserOn(laser)
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# /ip/lasernumber value
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if oscpath[1] == "ip":
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print "New IP for laser ", laser
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gstt.lasersIPS[laser]= args[0]
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settings.Write()
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# /kpps/lasernumber value
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# Live change of kpps is not implemented in newdac.py. Change will effect next startup.
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if oscpath[1] == "kpps":
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print "New kpps for laser ", laser, " next startup", int(args[0])
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gstt.kpps[laser]= int(args[0])
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settings.Write()
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# /angle/lasernumber value
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if oscpath[1] == "angle":
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print "New Angle modification for laser ", oscpath[2], ":", float(args[0])
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gstt.finANGLE[laser] += float(args[0])
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NewEDH(laser)
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"New angle", gstt.finANGLE[laser]
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# /intens/lasernumber value
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if oscpath[1] == "intens":
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print "New intensity requested for laser ", laser, ":", int(args[0])
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print "Change not implemented yet"
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# /resampler/lasernumber lsteps
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# lsteps is a string like "[ (1.0, 8),(0.25, 3), (0.75, 3), (1.0, 10)]"
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if oscpath[1] == "resampler":
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Resampler(laser,args[0])
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# /mouse/lasernumber value (0 or 1)
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if oscpath[1] == "mouse":
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if args[0] == "1":
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print "Mouse requested for laser ", oscpath[2]
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gstt.Laser = oscpath[2]
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else:
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print "No mouse for laser ", oscpath[2]
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# /swap/X/lasernumber value (0 or 1)
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if oscpath[1] == "swap" and oscpath[2] == "X":
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print "swapX was", gstt.swapX[laser]
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if args[0] == "0":
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print "swap X -1 for laser ", laser
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gstt.swapX[laser]= -1
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NewEDH(laser)
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else:
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print "swap X 1 for laser ", laser
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gstt.swapX[laser]= 1
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NewEDH(laser)
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# /swap/Y/lasernumber value (0 or 1)
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if oscpath[1] == "swap" and oscpath[2] == "Y":
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print "swapY was", gstt.swapX[laser]
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if args[0] == "0":
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print "swap Y -1 for laser ", laser
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gstt.swapY[laser]= -1
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NewEDH(laser)
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else:
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print "swap Y 1 for laser ", laser
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gstt.swapY[laser]= 1
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NewEDH(laser)
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# /loffset/X/lasernumber value
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if oscpath[1] == "loffset" and oscpath[2] == "X":
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print "offset/X laser", laser, "modified to", args[0]
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gstt.centerX[laser] -= int(args[0])
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NewEDH(laser)
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# /loffset/Y/lasernumber value
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if oscpath[1] == "loffset" and oscpath[2] == "Y":
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print "offset/Y laser", laser, "modified to", args[0]
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gstt.centerY[laser] -= int(args[0])
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NewEDH(laser)
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# /scale/X/lasernumber value
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if oscpath[1] == "scale" and oscpath[2] == "X":
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if gstt.zoomX[laser] + int(args[0]) > 0:
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gstt.zoomX[laser] += int(args[0])
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print "scale/X laser", laser , "modified to", gstt.zoomX[laser]
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NewEDH(laser)
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# /scale/Y/lasernumber value
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if oscpath[1] == "scale" and oscpath[2] == "Y":
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if gstt.zoomY[laser] + int(args[0]) > 0:
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gstt.zoomY[laser] += int(args[0])
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print "scale/Y laser", laser, "modified to", gstt.zoomY[laser]
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NewEDH(laser)
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'''
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For reference values of EDH modifier if assign to keyboard keys (was alignp)
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gstt.centerY[gstt.Laser] -= 20
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gstt.centerY[gstt.Laser] += 20
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gstt.zoomX[gstt.Laser]-= 0.1
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gstt.zoomX[gstt.Laser] += 0.1
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gstt.zoomY[gstt.Laser] -= 0.1
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gstt.zoomY[gstt.Laser] += 0.1
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gstt.sizeX[gstt.Laser] -= 50
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gstt.sizeX[gstt.Laser] += 50
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gstt.sizeY[gstt.Laser] -= 50
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gstt.sizeY[gstt.Laser] += 50
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gstt.finANGLE[gstt.Laser] -= 0.001
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gstt.finANGLE[gstt.Laser] += 0.001
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Code for bit analysis 2 bits / laser to encode order.
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# Grid PL is Laser bit 0 = 1 and bit 1 = 1
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#order = r.get('/order')
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#neworder = order | (1<<laser*2)
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#neworder = neworder | (1<< 1+laser*2)
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#r.set('/order', str(neworder))
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# Laser bit 0 = 0 and bit 1 = 0 : USER PL
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#order = r.get('/order')
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#neworder = order & ~(1<< laser*2)
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#neworder = neworder & ~(1<< 1+ laser*2)
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#r.set('/order', str(neworder))
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# Laser bit 0 = 0 and bit 1 = 1 : New EDH
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#order = r.get('/order')
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#neworder = order & ~(1<< laser*2)
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#neworder = neworder | (1<< 1+laser*2)
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#r.set('/order', str(neworder))
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# Black PL is Laser bit 0 = 1 and bit 1 = 0 :
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#order = r.get('/order')
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#neworder = order | (1<<laser*2)
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#neworder = neworder & ~(1<< 1+laser*2)
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'''
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