#!/usr/bin/python3 # -*- coding: utf-8 -*- # -*- mode: Python -*- ''' lj23layers v0.7.6 for LJ v0.8+ LJ functions (API) for python plugins/clients "layers" version : - "PL" has been replaced by "layer" - "Client" Each program using this API to manage complexity, should declare itself by calling Config, but it's not mandatory Config(redisIP, client number, name) Basic Draw : - PolyLineOneColor, rPolyLineOneColor, LineTo, Line - PolyLineRGB, rPolyLineRGB, LineRGBTo, LineRGB - rgb2int(r,g,b) - Drawlayer (point list number) : once you stacked all wanted elements, like 2 polylines, send them to lasers. - DrawDests(): Draw all requested destinations for each layer . High level draw : - Text(word, integercolor, layer , xpos, ypos, resize, rotx, roty, rotz) : Display a word - TextRGB(word, red, green, blue, ...) - Embeded font1 Laser objects (name and convenient group of parameters for one or several point lists) - RelativeObject - FixedObject "Destinations" : Tell for given Layer a scene/Laser ("destination"). Each Layer can have different destination (i.e to display same stuff on different laser) OSC and plugins functions : SendLJ(adress,message) LJ remote control. See commands.py SendResol(address,message) Send OSC message to Resolume. WebStatus(message) display message on webui SendIntensity(laser, intensity) Sendkpps(laser, kpps) Ljscene(client) Change scene number in redis keys Ljlayer(layer) Change layer number in redis keys = laser target. ClosePlugin(name) Send UI closing info of given plugin OSCstart() Start the OSC system. OSCframe() Handle incoming OSC message. Calling the right callback OSCstop() Properly close the OSC system OSCping() /ping Answer to LJ pings by sending /pong name OSCquit() /quit Exit calling script using name in terminal OSCadddest(layer, scene, laser) Add a destination OSCdeldest(layer , scene, laser) Delete a destination OSCobj() /name/obj objectname attribute value for automation OSCvar() /name/var variablename value for automation OSCdebug() ** Joystick management is removed. Get it back in todolist ** setup_controls(joystick) XboxController getLeftHori, getLeftVert, getRightHori, getRightVert, getLeftTrigger, getRightTrigger Ps3Controller getLeftHori, getLeftVert, getRightHori, getRightVert, getLeftTrigger, getRightTrigger, getUp, getDown, getLeft, getRight, getFire1, getFire2(self): MySaitekController getLeftHori,getLeftVert, getRightHori,getRightVert, getLeftTrigger,getRightTrigger MyThrustController getLeftHori, getLeftVert, getRightHori, getRightVert, getLeftTrigger, getRightTrigger CSLController getLeftHori,getLeftVert,getRightHori, getRightVert,getLeftTrigger,getRightTrigger,getFire1,getFire2 my USB Joystick getUp,getDown,getLeft,getRight,etLeftTrigger, getRightTrigger,getFire1, getFire2 Class management manuals: https://stackoverflow.com/questions/739882/iterating-over-object-instances-of-a-given-class-in-python https://stackoverflow.com/questions/8628123/counting-instances-of-a-class http://effbot.org/pyfaq/how-do-i-get-a-list-of-all-instances-of-a-given-class.htm LICENCE : CC Sam Neurohack ''' import math import redis import sys import weakref import struct import numpy as np import gstt from multiprocessing import Process, Queue, TimeoutError is_py2 = sys.version[0] == '2' if is_py2: from OSC import OSCServer, OSCClient, OSCMessage #print ("Importing lj23 and OSC from libs...") else: from OSC3 import OSCServer, OSCClient, OSCMessage #print ("Importing lj23 and OSC3 from libs...") #redisIP = '127.0.0.1' #r = redis.StrictRedis(host=redisIP, port=6379, db=0) ClientNumber = 0 name = "noname" oscrun = True point_list = [] layers = [[],[],[],[],[],[],[],[],[],[]] fft3Groups = [-1,-1,-1,-1] Dests = dict() oscIPresol = "127.0.0.1" oscPORTresol = 7000 # 3D to 2D projection parameters fov = 256 viewer_distance = 100 ''' Laser "objects" set a name and convenient group of parameters for one or several point lists RelativeObject is for point lists around 0,0 with builtin move/rotation. How to init with object color, xpos,... : osciObj = lj.RelativeObject('osciObj', True, 255, [], white, red, green,blue,0 , False, centerX , centerY , 1 , Xrot , Yrot , Zrot) How to use in drawing functions : you're free to use 0, some or all of any laserobject attributes - draw one or several pointlists with 'A' laserobject color and 'B' laserobject xpos ypos ? - Change color of 'main' object and all other objects using it will change also how to change attribute : osciObj.resize = 2 or /pluginame/change 'OsciObj' 'resize' 2 ''' class RelativeObject: kind = 'relative' counter = 0 def __init__(self, name, active, intensity, xy, color, red, green, blue, layer , closed, xpos , ypos , resize , rotx , roty , rotz): self.name = name self.active = active # True/False self.intensity = intensity self.xy = [] # Dots list self.color = color # RGB color in int self.red = red self.green = green self.blue = blue self.layer = layer self.closed = closed self.xpos = xpos self.ypos = ypos self.resize = resize self.rotx = rotx self.roty = roty self.rotz = rotz RelativeObject.counter += 1 #type(self).counter += 1 def __del__(self): RelativeObject.counter -= 1 # Fixed Laser object : point list in 'pygame' space (top left = 0,0 / bottom right) class FixedObject: kind = 'fixed' counter = 0 def __init__(self, name, intensity, active, xy, color, red, green, blue, layer , closed): self.name = name self.active = active # True/False self.intensity = intensity self.xy = [] self.color = color self.red = red self.green = green self.blue = blue self.layer = layer self.closed = closed FixedObject.counter += 1 def __del__(self): FixedObject.counter -= 1 ''' class IterDest(type): def __new__ (cls, name, bases, dct): dct['_instances'] = [] return super().__new__(cls, name, bases, dct) def __call__(cls, *args, **kwargs): instance = super().__call__(*args, **kwargs) cls._instances.append(instance) return instance def __iter__(cls): return iter(cls._instances) class DestObject(): # class Destinations(metaclass=IterDest): __metaclass__ = IterDest counter = 0 def __init__(self, name, number, active, layer , scene, laser): self.name = name self.number = number self.active = active self.layer = layer self.scene = scene self.laser = laser DestObject.counter += 1 def __del__(self): DestObject.counter -= 1 ''' class DestObject(): # class Destinations(metaclass=IterDest): _instances = set() counter = 0 def __init__(self, name, number, active, layer , scene, laser): self.name = name self.number = number self.active = active self.layer = layer self.scene = scene self.laser = laser self._instances.add(weakref.ref(self)) DestObject.counter += 1 @classmethod def getinstances(cls): dead = set() for ref in cls._instances: obj = ref() if obj is not None: yield obj else: dead.add(ref) cls._instances -= dead def __del__(self): DestObject.counter -= 1 def Config(redIP,client,myname): global ClientNumber, name, redisIP, r redisIP = redIP r = redis.StrictRedis(host=redisIP, port=6379, db=0) # ClientNumber 255 are not drawing anything like artnet ClientNumber = client #print ("client configured",ClientNumber) name = myname print ("lj23layers : Plugin declare its name :",name) #print layer return r def LjClient(client): global ClientNumber ClientNumber = client def Ljlayer(somelayer): global layer layer = somelayer def fromRedis(n): encoded = r.get(n) #print("") #print('fromredis key',n,":",encoded) h, w = struct.unpack('>II',encoded[:8]) #print("fromredis array size",n,":",h,w) a = np.frombuffer(encoded, dtype=np.int16, offset=8).reshape(h,w) #print("fromredis array",n,":",a) return a # Store Numpy array 'a' in Redis key 'n' # Write also in redis key 'a' numpy array, its 2 dimensions size : h time w values def toRedis(n,a): #print("array.shape", a.shape, len(a.shape) ) if len(a.shape) == 1: h = a.shape[0] w = 1 else: h,w = a.shape #print("toredis", n,"h",h,"w",w,"a",a) shape = struct.pack('>II',h,w) #shape = struct.pack('>II',len(a),1) #print("toredis",n,a) encoded = shape + a.tobytes() # Store encoded data in Redis return r.set(n,encoded) # # OSC functions # # OSC clients def SendLJ(oscaddress,oscargs=''): oscmsg = OSCMessage() oscmsg.setAddress(oscaddress) oscmsg.append(oscargs) osclientlj = OSCClient() osclientlj.connect((redisIP, 8002)) #print("lj23layers for", name, "sending OSC message :", oscmsg, "to", redisIP, ":8002") if gstt.debug >0: print("lj23layers for", name, "sending OSC message :", oscmsg, "to", redisIP, ":8002") try: osclientlj.sendto(oscmsg, (redisIP, 8002)) oscmsg.clearData() except: print ('Connection to LJ refused : died ?') pass #time.sleep(0.001 # Resolume OSC Arena client. # sendresol(oscaddress, [arg1, arg2,...]) # example : sendresol("/noteon",note) def SendResol(oscaddress,oscargs): oscmsg = OSCMessage() oscmsg.setAddress(oscaddress) oscmsg.append(oscargs) osclientresol = OSCClient() osclientresol.connect((oscIPresol, oscPORTresol)) print("lj23layers sending OSC message : ", oscmsg, "to Resolume", oscIPresol, ":", oscPORTresol) try: osclientresol.sendto(oscmsg, (oscIPresol, oscPORTresol)) oscmsg.clearData() except: print ('Connection to Resolume refused : died ?') pass def SendIntensity(laser, intensity): r.set('/intensity/' + str(laser), str(intensity)) r.set('/order/'+str(laser), 6) SendLJ("/kpps/" + str(layer)+ " " + str(int(args[1]))) def Sendkpps(laser, kpps): r.set('/kpps/' + str(laser), str(kpps)) r.set('/order/'+str(laser), 7) def WebStatus(message): SendLJ("/status", message) # Closing plugin messages to LJ def ClosePlugin(): WebStatus(name+" Exiting") SendLJ("/"+name+"/start",0) # RAW OSC Frame available ? def OSCframe(): # clear timed_out flag #print "oscframe" oscserver.timed_out = False # handle all pending requests then return while not oscserver.timed_out: oscserver.handle_request() # Answer to LJ pings with /pong value def OSCping(path, tags, args, source): #def OSCping(): if gstt.debug >0: print(name, "lj23layers got /ping from LJ -> reply /pong", name) SendLJ("/pong",name) # Properly close the system. def OSCstop(): oscserver.close() # change debug level (0-2) def OSCdebug(path, tags, args, source): print("new debug level", args[0] ) gstt.debug = int(args[0]) # /quit def OSCquit(path, tags, args, source): global oscrun oscrun = False print('lj23layers got /quit for',name) #WebStatus(name + " quit.") #SendLJ("/"+name+"/start",0) #print("Stopping OSC...") #OSCstop() #sys.exit() # default handler def OSChandler(path, tags, args, source): oscaddress = ''.join(path.split("/")) print("lj23layers Default OSC Handler for",name,": msg from Client :" + str(source[0]),) print("OSC address", path) if len(args) > 0: print("with args", args) #oscIPout = str(source[0]) #osclient.connect((oscIPout, oscPORTout)) # for any laser object : /pluginame/obj objectname attribute value # like : /pluginname/obj 'fft' 'xpos' 100 # attributes for all lj Objects: name, xy_list, c, layer # + for RelativeObjects : closed, xpos , ypos , resize , rotx , roty , rotz def OSCobj(path, tags, args, source): obj = eval(args[0]+"."+ args[1]) obj = args[2] def OSCvar(path, tags, args, source): obj = eval(args[0]) obj = args[1] def addOSCdefaults(server): global oscserver oscserver = server oscserver.addMsgHandler( "default", OSChandler ) oscserver.addMsgHandler( "/ping", OSCping) oscserver.addMsgHandler( "/quit", OSCquit) oscserver.addMsgHandler( "/debug", OSCdebug) oscserver.addMsgHandler( "/"+ name + "/adddest", OSCadddest) oscserver.addMsgHandler( "/"+ name + "/deldest", OSCdeldest) oscserver.addMsgHandler( "/"+ name + "/dest", OSCdest) oscserver.addMsgHandler( "/"+ name + "/obj", OSCobj) oscserver.addMsgHandler( "/"+ name + "/var", OSCvar) # # Color functions # # input hexcode = '0xff00ff' def hex2rgb(hexcode): hexcode = hexcode[2:] return tuple(int(hexcode[i:i+2], 16) for i in (0, 2, 4)) #return tuple(map(ord,hexcode[1:].decode('hex'))) # input rgb=(255,0,255) output '0xff00ff' #def rgb2hex(rgb): # return '0x%02x%02x%02x' % tuple(rgb) def rgb2hex(r, g, b): return hex((r << 16) + (g << 8) + b) #def rgb2int(rgb): # return int('0x%02x%02x%02x' % tuple(rgb),0) def rgb2int(r,g,b): return int('0x%02x%02x%02x' % (r,g,b),0) def int2rgb(intcode): #hexcode = '0x{0:06X}'.format(intcode) hexcode = '{0:06X}'.format(intcode) return tuple(int(hexcode[i:i+2], 16) for i in (0, 2, 4)) # # Drawing basic functions # # Lines def Line(xy1, xy2, c, layer ): LineTo(xy1, 0, layer ) LineTo(xy2, c , layer ) def rLine(xy1, xy2, c, layer , xpos = 0, ypos =0, resize =0.7, rotx =0, roty =0 , rotz=0): rLineTo(xy1, 0, layer ) rLineTo(xy2, c , layer ) def LineRGB(xy1, xy2, red,green,blue, layer ): LineTo(xy1, 0, layer ) LineTo(xy2, int('0x%02x%02x%02x' % (red,green,blue),0) , layer ) # Lineto def LineTo(xy, c, layer ): layers[layer].append((xy + (c,))) def LineRGBTo(xy, red, green, blue, layer ): LineTo(xy, int('0x%02x%02x%02x' % (red,green,blue),0), layer ) def rLineTo(xy, c, layer , xpos = 0, ypos =0, resize =0.7, rotx =0, roty =0 , rotz=0): layers[layer ].append((Pointransf(xy, xpos, ypos, resize, rotx, roty, rotz) + (c,))) # Polylines def PolyLineOneColor(xy_list, c, layer , closed ): #print "--" #print "c",c #print "xy_list",xy_list #print "--" xy0 = None for xy in xy_list: if xy0 is None: xy0 = xy #print "xy0:",xy0 LineTo(xy0,0, layer ) LineTo(xy0,c, layer ) else: #print "xy:",xy LineTo(xy,c, layer ) if closed: LineTo(xy0,c, layer ) def PolyLineRGB(xy_list, red, green, blue, layer , closed ): PolyLineOneColor(xy_list, int('0x%02x%02x%02x' % (red,green,blue),0), layer , closed ) # rPolylines # Send 2D point list around 0,0 with 3D rotation resizing and reposition around xpos ypos #def rPolyLineOneColor(self, xy_list, c, layer , closed, xpos = 0, ypos =0, resize =1, rotx =0, roty =0 , rotz=0): def rPolyLineOneColor(xy_list, c, layer , closed, xpos = 0, ypos =0, resize =0.7, rotx =0, roty =0 , rotz=0): xy0 = None for xy in xy_list: if xy0 is None: xy0 = xy LineTo(Pointransf(xy0, xpos, ypos, resize, rotx, roty, rotz), 0, layer ) LineTo(Pointransf(xy0, xpos, ypos, resize, rotx, roty, rotz), c, layer ) else: LineTo(Pointransf(xy, xpos, ypos, resize, rotx, roty, rotz), c, layer ) if closed: LineTo(Pointransf(xy0, xpos, ypos, resize, rotx, roty, rotz), c, layer ) def rPolyLineRGB(xy_list, red, green, blue, layer , closed, xpos = 0, ypos =0, resize =0.7, rotx =0, roty =0 , rotz=0): rPolyLineOneColor(xy_list, int('0x%02x%02x%02x' % (red,green,blue),0), layer , closed, xpos = 0, ypos =0, resize =0.7, rotx =0, roty =0 , rotz=0) # Computing points coordinates for rPolyline function from 3D and around 0,0 to pygame coordinates def Pointransf(xy, xpos = 0, ypos =0, resize =1, rotx =0, roty =0 , rotz=0): x = xy[0] * resize y = xy[1] * resize z = xy[2] * resize rad = math.radians(rotx) cosaX = math.cos(rad) sinaX = math.sin(rad) y2 = y y = y2 * cosaX - z * sinaX z = y2 * sinaX + z * cosaX rad = math.radians(roty) cosaY = math.cos(rad) sinaY = math.sin(rad) z2 = z z = z2 * cosaY - x * sinaY x = z2 * sinaY + x * cosaY rad = math.radians(rotz) cosZ = math.cos(rad) sinZ = math.sin(rad) x2 = x x = x2 * cosZ - y * sinZ y = x2 * sinZ + y * cosZ #print("transf",xy, (x + xpos,y+ ypos)) factor = resize / (10*(viewer_distance + z)) #print("resize", resize, "z", z, "factor", factor) #print("perspec", xy, (x * factor) + xpos, (- y * factor)+ ypos) #print() return ((x * factor) + xpos, (y * factor)+ ypos) #return (x + xpos, y + ypos) #to understand why it get negative Y """ Transforms this 3D point to 2D using a perspective projection. """ factor = fov / (viewer_distance + z) print("z", z, "factor", factor) #x = (x * factor) #y = (- y * factor) print("perspec", xy, (x * factor) + xpos, (- y * factor)+ ypos) print() return (x + xpos, y + ypos) #return (x, y) def Lineslayer(layer): print("Stupido !! your code is to old : use Drawlayer() instead of LinesPL()") Drawlayer(layer ) def Draw(layer): #print '/pl/0/'+str(layer), str(layers[layer]) if r.set('/pl/'+str(ClientNumber)+'/'+str(layer), str(layers[layer])) == True: #print '/pl/'+str(ClientNumber)+'/'+str(layer), str(layers[layer]) layers[layer] = [] return True else: return False def Resetlayer(self, layer): layers[layer] = [] # # "Destinations" management for layers # # Add a destination for a given layer def Addest(layer, scene, laser): print (name,'adding',layer,scene,laser,'?') if Findest(layer, scene, laser) == -1: newdest = DestsObjects.counter + 1 Dest0 = lj.DestObject(str(newdest), newdest, True, layer , scene, laser) print("New destination added with number", newdest) else: print("Destination already existed") # OSC add a destination for a given layer # /pluginame/dest layer, scene, laser def OSCadddest(path, tags, args, source): Addests(int(args[0]),int(args[1]),int(args[2])) # Find layer destination with its parameters in destinations dictionnary def Findest(layer, scene, laser): print(name, 'searching layer,scene,laser',layer,scene,laser) for item in DestObjects.getinstances(): #print(item) if item.layer == layer and item.scene == scene and item.laser == laser: #Dests.append(item[0]) print('found number',item.number) return item.number else: print('no destination found') return -1 ''' #Dests = list() allDests = Dests.items() for item in allDests: print(item) if item[1] == layer and item[2] == scene and item[3] == laser: #Dests.append(item[0]) return Dests[item[0]] else: return -1 ''' # Find and remove a layer destination with its parameters in destinations dictionnary def Deldest(layer, scene, laser): Destnumber = Findest(layer, scene, laser) print(name,'deleting Destination layer, scene, laser', layer,scene, laser) if Destnumber != -1: print('found DestObject', Destnumber) delattr(DestObjects, str(Destnumber)) print("Destination", Destnumber,"was removed") else: print("Destination was not found") # OSC Delete a destination for a given layer # /pluginame/deldests layer, scene, laser def OSCdeldest(path, tags, args, source): Deldests(args[0], args[1], args[2]) # pluginame/dest layer, scene, laser def OSCdest(path, tags, args, source): # For single layer plugin : add a new destination Addest(0, args[0], args[1]) # For single layer plugin : remove a destination # For multiple layers plugin : add or remove # Replace Drawlayer if Destinations paradigm is implemented in plugin code def DrawDests(): # Objects style #print("DrawDest") for destination in DestObject.getinstances(): #print(Dests[str(destination)]) #print('/pl/'+str(Dests[str(destination)]["scene"])+'/'+str(Dests[str(destination)]["laser"]), ":", str(layers[Dests[str(destination)]["PL"]])) #print(len(layers[destination.layer])) if destination.active == True: if r.set('/pl/'+str(destination.scene)+'/'+str(destination.laser), str(layers[destination.layer])) == True: #print ('layer', destination.layer, '/pl/'+str(destination.scene)+'/'+str(destination.laser), str(layers[destination.layer])) pass else: print('Redis key modification failed') # Maybe one layer can be sent to multiple destination so they are all reset *after* all sending. for layerss in range(4): layers[layerss] = [] ''' # Dictionnary style #print(Dests) for destination in range(len(Dests)): #print(Dests[str(destination)]) #print('/pl/'+str(Dests[str(destination)]["scene"])+'/'+str(Dests[str(destination)]["laser"]), ":", str(layers[Dests[str(destination)]["layer"]])) if r.set('/pl/'+str(Dests[str(destination)]["scene"])+'/'+str(Dests[str(destination)]["laser"]), str(layers[Dests[str(destination)]["layer"]])) == True: #print '/pl/'+str(ClientNumber)+'/'+str(layer), str(layers[layer]) pass else: print('Redis key modification failed') # Maybe one layer can be sent to multiple destination so they are all reset *after* all sending. for destination in range(len(Dests)): layers[Dests[str(destination)]["layer"]] = [] ''' ''' scenes = 4 def DrawDestslayer(layer): for scene in range(scenes): if Dests[laser]["scene"] != -1: if r.set('/pl/'+str(Dests[laser]["scene"])+'/'+str(Dests[laser]["laser"]), str(layers[Dests[laser]["laser"]])) == True: if r.set('/pl/'+str(ClientNumber)+'/'+str(layer), str(layers[layer])) == True: #print '/pl/'+str(ClientNumber)+'/'+str(layer), str(layers[layer]) layers[Dests[laser]["laser"]] = [] return True else: return False ''' # # High level drawing functions # # Font1 ASCII_GRAPHICS = [ #implementé [(-50,30), (-30,-30), (30,-30), (10,30), (-50,30)], # 0 [(-20,30), (0,-30), (-20,30)], # 1 [(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], # 2 [(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], # 3 [(30,10), (-30,10), (0,-30), (0,30)], # 4 [(30,-30), (-30,-30), (-30,0), (0,0), (30,10), (0,30), (-30,30)], # 5 [(30,-30), (0,-30), (-30,-10), (-30,30), (0,30), (30,10), (30,0), (-30,0)], # 6 [(-30,-30), (30,-30), (-30,30)], # 7 [(-30,30), (-30,-30), (30,-30), (30,30), (-30,30), (-30,0), (30,0)], # 8 [(30,0), (-30,0), (-30,-10), (0,-30), (30,-30), (30,10), (0,30), (-30,30)], # 9 # A implementer [(-30,10), (30,-10), (30,10), (0,30), (-30,10), (-30,-10), (0,-30), (30,-10)], #: [(-30,-10), (0,-30), (0,30)], [(-30,30), (30,30)], # ; [(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], # < [(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], # = [(30,10), (-30,10), (0,-30), (0,30)], # > [(30,-30), (-30,-30), (-30,0), (0,0), (30,10), (0,30), (-30,30)], # ? [(30,-30), (0,-30), (-30,-10), (-30,30), (0,30), (30,10), (30,0), (-30,0)], # @ # Implementé 65-90 [(-30,30), (-30,-30), (30,-30), (30,30), (30,0), (-30,0)], # A [(-30,30), (-30,-30), (30,-30), (30,30), (30,0), (-30,0)], # A [(-30,30), (-30,-30), (30,-30), (30,30), (-30,30), (-30,0), (30,0)], # B [(30,30), (-30,30), (-30,-30), (30,-30)], # C [(-30,30), (-30,-30), (30,-30), (30,30), (-30,30)], # D [(30,30), (-30,30), (-30,-0), (30,0), (-30,0), (-30,-30), (30,-30)], # E [(-30,30), (-30,-0), (30,0), (-30,0), (-30,-30), (30,-30)], # F [(0,0), (30,0), (30,30), (-30,30), (-30,-30),(30,-30)], # G [(-30,-30), (-30,30), (-30,0), (30,0), (30,30), (30,-30)], # H [(0,30), (0,-30)], # I [(-30,30), (0,-30), (0,-30), (-30,-30), (30,-30)], # J [(-30,-30), (-30,30), (-30,0), (30,-30), (-30,0), (30,30)], # K [(30,30), (-30,30), (-30,-30)], # L [(-30,30), (-30,-30), (0,0), (30,-30), (30,30)], # M [(-30,30), (-30,-30), (30,30), (30,-30)], # N [(-30,30), (-30,-30), (30,-30), (30,30), (-30,30)], # O [(-30,0), (30,0), (30,-30), (-30,-30), (-30,30)], # P [(30,30), (30,-30), (-30,-30), (-30,30), (30,30),(35,35)], # Q [(-30,30), (-30,-30), (30,-30), (30,0), (-30,0), (30,30)], # R [(30,-30), (-30,-30), (-30,0), (30,0), (30,30), (-30,30)], # S [(0,30), (0,-30), (-30,-30), (30,-30)], # T [(-30,-30), (-30,30), (30,30), (30,-30)], # U [(-30,-30), (0,30), (30,-30)], # V [(-30,-30), (-30,30), (0,0), (30,30), (30,-30)], # W [(-30,30), (30,-30), (-30,-30), (30,30)], # X [(0,30), (0,0), (30,-30), (0,0), (-30,-30)], # Y [(30,30), (-30,30), (30,-30), (-30,-30)], # Z # A implementer [(-30,-10), (0,-30), (0,30)], [(-30,30), (30,30)], # [ [(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], # \ [(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], # ] [(30,10), (-30,10), (0,-30), (0,30)], # ^ [(30,-30), (-30,-30), (-30,0), (0,0), (30,10), (0,30), (-30,30)], # _ [(30,-30), (0,-30), (-30,-10), (-30,30), (0,30), (30,10), (30,0), (-30,0)], # ` # Implementé 97-122 [(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], # a [(-20,20), (-20,-20), (20,-20), (20,20), (-20,20), (-20,0), (20,0)], # b [(20,20), (-20,20), (-20,-20), (20,-20)], # c [(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], # d [(20,20), (-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], # e [(-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], # f [(0,0), (20,0), (20,20), (-20,20), (-20,-20),(20,-20)], # g [(-20,-20), (-20,20), (-20,0), (20,0), (20,20), (20,-20)], # h [(0,20), (0,-20)], # i [(-20,20), (0,-20), (0,-20), (-20,-20), (20,-20)], # j [(-20,-20), (-20,20), (-20,0), (20,-20), (-20,0), (20,20)], # k [(20,20), (-20,20), (-20,-20)], # l [(-20,20), (-20,-20), (0,0), (20,-20), (20,20)], # m [(-20,20), (-20,-20), (20,20), (20,-20)], # n [(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], # o [(-20,0), (20,0), (20,-20), (-20,-20), (-20,20)], # p [(20,20), (20,-20), (-20,-20), (-20,20), (20,20),(25,25)], # q [(-20,20), (-20,-20), (20,-20), (20,0), (-20,0), (20,20)], # r [(20,-20), (-20,-20), (-20,0), (20,0), (20,20), (-20,20)], # s [(0,20), (0,-20), (-20,-20), (20,-20)], # t [(-20,-20), (-20,20), (20,20), (20,-20)], # u [(-20,-20), (0,20), (20,-20)], # v [(-20,-20), (-20,20), (0,0), (20,20), (20,-20)], # w [(-20,20), (20,-20)], [(-20,-20), (20,20)], # x [(0,20), (0,0), (20,-20), (0,0), (-20,-20)], # y [(20,20), (-20,20), (20,-20), (-20,-20)], # z # A implementer [(-2,15), (2,15)], # Point a la place de { [(-30,-10), (0,-30), (0,30)], [(-30,30), (30,30)], # | [(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], # } [(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], # [(30,10), (-30,10), (0,-30), (0,30)], # DEL # Accents 128-151 a implementer [(30,30), (-30,30), (-30,-30), (30,-30)], # C [(-20,-20), (-20,20), (20,20), (20,-20)], # û [(20,20), (-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], # é [(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], # â [(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], # ä [(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], # a [(20,20), (-20,20), (-20,-20), (20,-20)], # c [(20,20), (-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], # é [(20,20), (-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], # é [(20,20), (-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], # é [(0,20), (0,-20)], # i [(0,20), (0,-20)], # i [(0,20), (0,-20)], # i [(-30,30), (-30,-30), (30,-30), (30,30), (30,0), (-30,0)], # A [(-30,30), (-30,-30), (30,-30), (30,30), (30,0), (-30,0)], # A [(30,30), (-30,30), (-30,-0), (30,0), (-30,0), (-30,-30), (30,-30)], # E [(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], # a [(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], # a [(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], # o [(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], # o [(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], # o [(-20,-20), (-20,20), (20,20), (20,-20)], # u [(-20,-20), (-20,20), (20,20), (20,-20)] # u ] def DigitsDots(number,color): dots =[] for dot in ASCII_GRAPHICS[number]: #print dot dots.append((gstt.xy_center[0]+dot[0],gstt.xy_center[1]+dot[1],color)) #self.point_list.append((xy + (c,))) return dots def CharDots(char,color): dots =[] for dot in ASCII_GRAPHICS[ord(char)-46]: dots.append((dot[0],dot[1],color)) return dots def Text(message, c, layer, xpos, ypos, resize, rotx, roty, rotz): dots =[] l = len(message) i= 0 #print() # print (message) for ch in message: #print "" # texte centre en x automatiquement selon le nombre de lettres l x_offset = 26 * (- (0.9*l) + 3*i) # Digits if ord(ch)<58: char_layer_list = ASCII_GRAPHICS[ord(ch) - 48] # Uppercase elif 64 < ord(ch) < 91 : char_layer_list = ASCII_GRAPHICS[ord(ch) - 46] # Lowercase elif 96 < ord(ch) < 123 : char_layer_list = ASCII_GRAPHICS[ord(ch) - 45] char_draw = [] #dots.append((char_layer_list[0][0] + x_offset,char_layer_list[0][1],0)) for xy in char_layer_list: char_draw.append((xy[0] + x_offset,xy[1],c)) i +=1 print(ch, c, xpos, ypos, resize, char_draw) rPolyLineOneColor(char_draw, c, layer , False, xpos, ypos, resize, rotx, roty, rotz) #dots.append(char_draw) def TextRGB(message,c, layer, xpos, ypos, resize, rotx, roty, rotz): Text(message,int('0x%02x%02x%02x' % (red,green,blue),0), layer, xpos, ypos, resize, rotx, roty, rotz)