forked from protonphoton/LJ
1284 lines
36 KiB
Python
1284 lines
36 KiB
Python
#!/usr/bin/python3
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# -*- coding: utf-8 -*-
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# -*- mode: Python -*-
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'''
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Aurora interactive installation
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Quoi pour debut fin ?
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Dependre du tempo gstt.currentbpm
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LICENCE : CC
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Sam Neurohack
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CCs Aurora Style
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# 0 1 2 3 4 5 6 7
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encoders = ['steps', 'stepmax','lineSize','radius','Xcoord','Ycoord', 'Xrotdirec','Zrotdirec']
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layer = int(args[0])
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number = int(args[1])
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value = int(args[2])
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ccs[layer][number] = value
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Xcoord = 114 # /translator/X/amt
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Ycoord = 118 # /translator/Y/amt
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Zcoord = 122 # /translator/Z/amt
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scandots = 138 # /points/number
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scale= 98 # /scaler/scale is Artnet 98
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Xrotdirec = 102 # /rotator/X/direct
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Yrotdirec = 106 # /rotator/Y/direct
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Zrotdirec = 110 # /rotator/Z/direct
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rotspeed = 100 # /rotator/X/speed
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color
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run
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step
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steps
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stepmax
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stepvals
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lineSize
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radius
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intensity = 92 # /intensity/freq
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# /aurora/transpeed layernumber axe transpeed
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# /aurora/transamt layernumber axe maxposition
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LINK
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- bpm
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- beatnumber -> Event
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MIDI
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- cc : channel = layer / ccnumber = steps / ccvalue = stepmax -> /aurora/cc channel ccnumber ccvalue
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- notes
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if midi.sync :
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- midix.bpm
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- start -> /aurora/start
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- stop -> /aurora/stop
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- clock -> /aurora/clock
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OSC
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- /aurora/scim layernumber
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- /aurora/amp layer side axe amp
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- /aurora/cc layer steps stepmax
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- /aurora/color/layername colorname
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- /aurora/fx/layernumber fxname ("ScanH", "ScanV", "Wave", "Circle", "Dot00", "Zero", "Maxwell", "Starfield", "Trckr", "Word")
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- /aurora/intensity layernumber intensity
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- /aurora/linesize layer value
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- /aurora/noteoff layer note
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33 (B0) ScanH / 35 (B0) ScanV / 24 (C0) Wave / 26 (D0) Circle
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- /aurora/noteon layer note velocity
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- /aurora/part partname
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- /aurora/radius layernumber value
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- /aurora/rawcc layer encoder value (to change given encoder parameter ie 0 = steps)
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X 102 Y 106 Z 110
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- /aurora/rotdirec layernumber axe rotdirec
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X 100 Y 104 Z 108
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- /aurora/rotspeed layernumber axe speed
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Scale 98
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- /aurora/scale layer value
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X 114 Y 118 Z 122
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- /aurora/transamt layernumber axe maxposition
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- /aurora/transpeed layernumber axe transpeed
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- /aurora/trckr/frame layernumber framenumber points
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- /aurora/x/layernumber coord (0-1)
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- /aurora/xcoord layernumber coord
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- /aurora/y/layernumber coord (0-1)
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- /aurora/ycoord layernumber coord
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- /aurora/word/layernumber word
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mode ALIGN
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mode LIVE
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mode SONG
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'''
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import math
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import numpy as np
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import pdb
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from datetime import datetime
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from random import randrange
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import redis
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import sys
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import ast
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import os
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import time,traceback
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import midix, anim, user
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import log
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ljpath = r'%s' % os.getcwd().replace('\\','/')
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# import from shell
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sys.path.append(ljpath +'/../../libs3/')
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sys.path.append(ljpath +'/../libs3/')
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#import from LJ
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sys.path.append(ljpath +'/libs3/')
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sys.path.append('../libs3')
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sys.path.append(ljpath +'/../../libs3')
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import gstt
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is_py2 = sys.version[0] == '2'
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if is_py2:
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from OSC import OSCServer, OSCClient, OSCMessage
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else:
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from OSC3 import OSCServer, OSCClient, OSCMessage
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import lj23layers as lj
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import argparse
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print()
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log.infog("Aurora v0.1b")
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OSCinPort = 8090
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ljscene = 0
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StartFXs = ["anim.Trckr", "anim.Word","anim.Starfield","anim.Starfield"]
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# Useful variables init.
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white = lj.rgb2int(255,255,255)
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red = lj.rgb2int(255,0,0)
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blue = lj.rgb2int(0,0,255)
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green = lj.rgb2int(0,255,0)
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cyan = lj.rgb2int(255,0,255)
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yellow = lj.rgb2int(255,255,0)
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StartColors = [white, blue, green, red]
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screen_size = [700,700]
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xy_center = [screen_size[0]/2,screen_size[1]/2]
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width = 800
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height = 600
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centerX = width / 2
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centerY = height / 2
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# 3D to 2D projection parameters
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fov = 256
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viewer_distance = 2.2
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inv = math.pi/2
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print()
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log.info('Startup...')
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# print("Arguments parsing if needed...")
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argsparser = argparse.ArgumentParser(description="Aurora for LJ")
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argsparser.add_argument("-r","--redisIP",help="IP of the Redis server used by LJ (127.0.0.1 by default) ",type=str)
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argsparser.add_argument("-m","--myIP",help="IP to bind (0.0.0.0 by default) ",type=str)
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argsparser.add_argument("-s","--scene",help="LJ scene number (0 by default)",type=int)
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argsparser.add_argument("-v","--verbose",help="Verbosity level (0 by default)",type=int)
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argsparser.add_argument("-L","--Lasers",help="Number of lasers connected (1 by default).",type=int)
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argsparser.add_argument('-song',help="Run according to external (LIVE is default)", dest='song', action='store_true')
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argsparser.set_defaults(song=False)
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argsparser.add_argument('-link',help="Enable Ableton Link (disabled by default)", dest='link', action='store_true')
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argsparser.set_defaults(link=False)
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args = argsparser.parse_args()
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if args.verbose:
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debug = args.verbose
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else:
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debug = 0
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if args.scene:
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ljscene = args.scene
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else:
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ljscene = 0
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# Redis Computer IP
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if args.redisIP != None:
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redisIP = args.redisIP
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else:
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redisIP = '127.0.0.1'
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# myIP
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if args.myIP != None:
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gstt.myIP = args.myIP
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else:
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gstt.myIP = '0.0.0.0'
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# Lasers = number of laser connected
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if args.Lasers != None:
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lasernumber = args.Lasers
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else:
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lasernumber = 1
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# with Ableton Link
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if args.link == True:
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import alink
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alink.Start()
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linked = True
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else:
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print("Link DISABLED")
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linked = False
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# Mode song
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if args.song == True:
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print("Mode SONG")
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mode = "song"
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else:
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print("Mode LIVE")
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mode = "live"
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lj.Config(redisIP, ljscene, "aurora")
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ccs =[[0] * 140] *4
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# Layer FXs
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FXs = ["ScanH", "ScanV", "Wave", "Circle", "Dot00", "Zero", "Maxwell", "Starfield", "Trckr", "Word"]
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AllFXDisplay = [True, True, True, True]
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# Animation parameters for each layer
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Layer = [] *lasernumber
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Stars = []
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for l in range(lasernumber):
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Layer.append({'number': 0, 'FX': "user.User4",
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'Xcoord': 45, 'Ycoord': 45, 'Zcoord': 0,
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'scandots': 64, 'scale': 45, 'color': white, "run": False,
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'intensity': 255, 'closed': False,
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'lineSize': 64, 'radius': 45, 'wavefreq': 3,
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'word': "Sonoptik",
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'step': 0, 'steps': 60, 'stepmax': 60, 'stepvals': [],
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'Xtransamt': 0, 'Ytransamt': 0, 'Ztransamt': 0,
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'Xtranspeed': 0, 'Ytranspeed': 0, 'Ztranspeed': 0,
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'Xrotdirec': 0, 'Yrotdirec': 0, 'Zrotdirec': 0,
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'Xrotspeed': 0, 'Yrotspeed': 0, 'Zrotspeed': 0,
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'rotspeed': 0
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})
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Layer[l]['number']= l
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Layer[l]['FX'] = StartFXs[l]
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Layer[l]['color'] = StartColors[l]
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multi = {"radius": 300 }
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#
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# Destination : name, number, active, layer , scene, laser)
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#
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Dest000 = lj.DestObject('FX0', 0, True, 0 , 0, 0)
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if lasernumber >1:
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Dest101 = lj.DestObject('FX1', 1, True, 1 , 0, 1)
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if lasernumber >2:
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Dest202 = lj.DestObject('FX2', 2, True, 2 , 0, 2)
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if lasernumber >3:
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Dest303 = lj.DestObject('FX3', 3, True, 3 , 0, 3)
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'''
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# RelativeObject name, active, intensity, xy, color, red, green, blue, layer , closed, xpos , ypos , scale , rotx , roty , rotz
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FX0Form = lj.RelativeObject('FX0', True, 255, [], Layer[0]['color'], 255, 0, 0, 0 , False, 250 , 250, 1 , 0 , 0 , 0)
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FX1Form = lj.RelativeObject('FX1', True, 255, [], Layer[1]['color'], 255, 0, 0, 1 , False, 250 , 250, 1 , 0 , 0 , 0)
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FX2Form = lj.RelativeObject('FX2', True, 255, [], Layer[2]['color'], 255, 0, 0, 2 , False, 250 , 250, 1 , 0 , 0 , 0)
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FX3Form = lj.RelativeObject('FX3', True, 255, [], Layer[3]['color'], 255, 0, 0, 3 , False, 250 , 250, 1 , 0 , 0 , 0)
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'''
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#
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# OSC
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#
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oscserver = OSCServer( (gstt.myIP, OSCinPort) )
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oscserver.timeout = 0
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#oscrun = True
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# this method of reporting timeouts only works by convention
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# that before calling handle_request() field .timed_out is
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# set to False
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def handle_timeout(self):
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self.timed_out = True
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# funny python's way to add a method to an instance of a class
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import types
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oscserver.handle_timeout = types.MethodType(handle_timeout, oscserver)
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# /aurora/ljscene
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def OSCljscene(path, tags, args, source):
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log.info("Aurora OSC : got /aurora/ljscene with value" + str(args[0]))
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lj.WebStatus("aurora to virtual "+ str(args[0]))
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ljscene = args[0]
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lj.ljscene(ljscene)
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# default handler
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def OSChandler(path, tags, args, source):
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global TrckrPts
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oscaddress = ''.join(path.split("/"))
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#print()
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print("Aurora default OSC Handler : " + str(path) + " from Client : " + str(source[0]))
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if len(args) > 0:
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pass
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#Convert from TouchOSC full text OSC style (no args)
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if path.find(" ") != -1:
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prevargs = []
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if len(args) > 0:
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prevargs = args
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print(prevargs)
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newargs = path.split(" ")
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args=[]
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#print(newargs, len(newargs))
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for arg in range(len(newargs)-1):
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args.append(newargs[arg+1])
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args.append(prevargs[0])
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print("correction", path, args)
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#log.info("with args " + str(args))
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# /aurora/fx/layernumber FXname
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if path.find('/aurora/fx') == 0:
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#print("path", path, 'args', args)
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#print("layer", path[11:12])
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layer = int(path[11:12])
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if layer <= lasernumber-1:
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fx = args[0]
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if fx in FXs:
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Layer[layer]['FX'] = "anim."+fx
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print("Aurora default OSC got FX generator for layer", layer,":", Layer[layer]['FX'] )
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lj.SendLJ("/line1",[fx])
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midix.SendUI('/status', [fx])
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else:
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print("unknwon FX.")
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else:
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print("NOT POSSIBLE : only", lasernumber,"laser requested at startup")
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lj.SendLJ("/line1",str(lasernumber)+ " Laser")
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# /aurora/color/layernumber colorname
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if path.find('/aurora/color') == 0:
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#if args[1] =='1':
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layer = int(path[14:15])
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if layer <= lasernumber-1:
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color = args[0]
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Layer[layer]['color'] = eval(color)
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print("Aurora default OSc for Layer", layer,Layer[layer]['FX'], "Got color change to", color)
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else:
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print("NOT POSSIBLE : only", lasernumber,"laser requested at startup")
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lj.SendLJ("/line1",str(lasernumber)+ " Laser")
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# [0,1] or [0,127]
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# /aurora/x/layernumber coord
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if path.find('/aurora/x') == 0:
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layer = int(path[10:11])
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value = float(args[0])
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if value >1:
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value = value /127
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#print("xdefault layer", layer, "value", value)
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Layer[layer]['Xcoord'] = value * screen_size[0]
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print("Aurora default OSC got X coord for layer", layer,":", Layer[layer]['Xcoord'])
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midix.SendUI('/status', ["X : "+str(value * screen_size[0])])
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# [0,1] or [0,127]
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# /aurora/y/layernumber coord
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if path.find('/aurora/y') == 0:
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layer = int(path[10:11])
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value = float(args[0])
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if value >1:
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value = value /127
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#print("ydefault layer", layer, "value", value)
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Layer[layer]['Ycoord'] = value * screen_size[1]
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print("Aurora default OSC got Y coord for layer", layer,":", Layer[layer]['Ycoord'])
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midix.SendUI('/status', ["Y : "+str(value * screen_size[0])])
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# /aurora/trckr/frame layernumber framenumber points
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if path.find('aurora/trckr/frame') == 0:
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if debug != 0:
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print("Aurora default OSC got trckr frame", args[1], "for layer", args[0], "with path", path)
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print(len(args),"args", args)
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counter =0
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'''
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TrckrPts = []
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for dot in range(2,len(args)-1,2):
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TrckrPts.append([float(args[dot]), float(args[dot+1])])
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'''
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TrckrPts[args[0]] = []
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for dot in range(2,len(args)-1,2):
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TrckrPts[args[0]].append([float(args[dot]), float(args[dot+1])])
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# /aurora/word/layer word
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if path.find('/aurora/word') == 0:
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layer = int(path[13:14])
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value = args[0]
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Layer[layer]['word'] = value
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print("Aurora default OSC got word", args[0], "for layer", layer)
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midix.SendUI('/status', ["Word : "+str(value * screen_size[0])])
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# /aurora/word/layer word
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if path.find('/aurora/rawcc') == 0:
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layer = int(args[0])
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number = int(args[1])
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value = int(args[2])
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midix.SendUI('/beatstep/'+ "m" +str(layer+1)+ str(number+1) + '/value', [format(value, "03d")])
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#ccs[layer][number] = value
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print(encoders[number],": value", value, "steps", Layer[layer]['steps'],"stepmax", Layer[layer]['stepmax'], "lineSize", Layer[layer]['lineSize'])
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print("Aurora Default OSC Got rawCC for layer", layer, "encoder", encoders[number], "value", value)
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#print(value, Layer[layer]['stepmax'])
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if value * 2 < Layer[layer]['stepmax']:
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Layer[layer][encoders[number]] = value * 5
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Layer[layer]['stepvals'] = anim.sbilinear(Layer[layer]['steps'], 0, Layer[layer]['stepmax'])
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# /aurora/scim
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if path.find('/aurora/scim') == 0:
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print("OScim sending to LJ /scim",int(args[0])+24)
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lj.SendLJ("/scim", [int(args[0])+24])
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'''
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# /aurora/color/layernumber color
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def OSCcolor(path, tags, args, source):
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print("Aurora OSC : color got", path, args)
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if args[1] == '1':
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layer = int(path[14:15])
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color = args[0]
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Layer[layer]["color"] = eval(color)
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print("Aurora OSC :", color ,"for layer", layer)
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'''
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# /aurora/scim layernumber
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def OSCim(path, tags, args, source):
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newarg = path.split(" ")
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newlaser = args[0]+24
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print("OSim sending to LJ /scim",str(newlaser))
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lj.SendLJ("/scim", [newlaser])
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print("sending knobs value for new layer")
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UpdateKnobs(newlaser)
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midix.SendUI('/status', ["Sim : "+newlaser])
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|
def Resampler(laser,lsteps):
|
|
|
|
# shortstep longsteps
|
|
# lsteps is like : [ 1.0, 8, 0.25, 3, 0.75, 3, 1.0, 10]
|
|
print("Resampler change for laser ", laser)
|
|
lj.SendLJ("/resampler/"+str(laser), [lsteps])
|
|
|
|
|
|
# /aurora/start
|
|
def OSCstart(path, tags, args, source):
|
|
|
|
print("Aurora OSC Got MIDI start")
|
|
for l in range(3):
|
|
Layer[l]['run'] = True
|
|
midix.SendUI('/status', ["Start"])
|
|
|
|
|
|
# /aurora/stop layer
|
|
def OSCstop(path, tags, args, source):
|
|
|
|
print("Aurora OSC Got MIDI stop for layer", int(args[0]))
|
|
Layer[int(args[0])]['run'] = False
|
|
#for l in range(3):
|
|
# Layer[l]['run'] = not Layer[l]['run']
|
|
midix.SendUI('/status', ["Stop"])
|
|
|
|
|
|
# 33 (B0) ScanH / 35 (B0) ScanV / 24 (C0) Wave / 26 (D0) Circle
|
|
# fxs = ["anim.ScanH", "anim.ScanV", "anim.Wave", "anim.Circle"]
|
|
# /aurora/noteon layer note velocity
|
|
def OSCnoteon(path, tags, args, source):
|
|
|
|
print("Aurora OSC Got MIDI noteon")
|
|
l = int(args[0])
|
|
note = int(args[1])
|
|
velocity = int(args[2])
|
|
|
|
# first led raw : FX change
|
|
|
|
# A0 / Scan H
|
|
if note == 33:
|
|
Layer[l]['FX'] = beatstepfxs[0]
|
|
# B0
|
|
if note == 35:
|
|
Layer[l]['FX'] = beatstepfxs[1]
|
|
# C0
|
|
if note == 24:
|
|
Layer[l]['FX'] = beatstepfxs[2]
|
|
# D0
|
|
if note == 26:
|
|
Layer[l]['FX'] = beatstepfxs[3]
|
|
|
|
# E0
|
|
if note == 28:
|
|
Layer[l]['FX'] = beatstepfxs[4]
|
|
# F0
|
|
if note == 29:
|
|
Layer[l]['FX'] = beatstepfxs[5]
|
|
# G0
|
|
if note == 31:
|
|
Layer[l]['FX'] = beatstepfxs[6]
|
|
# G#0
|
|
if note == 21:
|
|
Layer[l]['FX'] = beatstepfxs[7]
|
|
|
|
if 21 < note < 35:
|
|
midix.SendUI('/status', [Layer[l]['FX']])
|
|
# Second led raw : Color change
|
|
|
|
# A1
|
|
if note == 45:
|
|
Layer[l]['color'] = eval(beatstepcols[0])
|
|
# B1
|
|
if note == 47:
|
|
Layer[l]['color'] = eval(beatstepcols[1])
|
|
# C1
|
|
if note == 36:
|
|
Layer[l]['color'] = eval(beatstepcols[2])
|
|
# D1
|
|
if note == 38:
|
|
Layer[l]['color'] = eval(beatstepcols[3])
|
|
|
|
# E1
|
|
if note == 40:
|
|
Layer[l]['color'] = eval(beatstepcols[4])
|
|
# F1
|
|
if note == 41:
|
|
Layer[l]['color'] = eval(beatstepcols[5])
|
|
# G1
|
|
if note == 43:
|
|
Layer[l]['color'] = eval(beatstepcols[6])
|
|
# G#1
|
|
if note == 44:
|
|
Layer[l]['color'] = eval(beatstepcols[7])
|
|
|
|
if 36 < note < 47:
|
|
midix.SendUI('/status', [Layer[l]['color']])
|
|
|
|
|
|
print ("Aurora OSC Got new MIDI FX/color for layer", l, ":", Layer[l]['FX'],"/",(Layer[l]['color']) )
|
|
|
|
|
|
# /aurora/noteoff layer notenumber
|
|
def OSCnoteoff(path, tags, args, source):
|
|
|
|
print("Aurora OSC Got MIDI noteoff")
|
|
l = int(args[0])
|
|
note = int(args[1])
|
|
|
|
|
|
# /aurora/fx layer FXname
|
|
def OSCfx(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
fx = args[1]
|
|
print(layer, fx)
|
|
if fx in FXs:
|
|
Layer[layer]['FX'] = "anim."+fx
|
|
print("Aurora OSC Got new WS FX generator for layer", layer, ":", Layer[layer]['FX'])
|
|
else:
|
|
print("unknwon FX.")
|
|
|
|
#
|
|
# /aurora/xcoord layer value
|
|
def OSCXcoord(path, tags, args, source):
|
|
|
|
#Layer[layer]['run'] = False
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
if value >0:
|
|
value = value /127
|
|
#print("xdefault layer", layer, "value", value)
|
|
Layer[layer]['Xcoord'] = value * screen_size[0]
|
|
print("Aurora OSC got X coord for layer", layer,":", Layer[layer]['Xcoord'])
|
|
|
|
|
|
|
|
# /aurora/ycoord layer value
|
|
def OSCYcoord(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
if value >0:
|
|
value = value /127
|
|
#print("xdefault layer", layer, "value", value)
|
|
Layer[layer]['Ycoord'] = value * screen_size[0]
|
|
print("Aurora OSC got Y coord for layer", layer,":", Layer[layer]['Ycoord'])
|
|
|
|
# [0-1] ?
|
|
# /aurora/scale layer value
|
|
def OSCale(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
#if value >1:
|
|
# value = value /127
|
|
print("New scale", value, "for layer", layer)
|
|
Layer[int(args[0])]['scale'] = value*3
|
|
ccs[layer][98] = value * 127
|
|
|
|
|
|
# /aurora/scandots layernumber value
|
|
def OSCandots(path, tags, args, source):
|
|
|
|
if int(args[1]) > 2:
|
|
Layer[int(args[0])]['scandots'] = int(args[1])
|
|
else:
|
|
lj.WebStatus("2 dots minimum")
|
|
|
|
# ccs[layer][98] = value 2/11
|
|
|
|
|
|
# /aurora/radius layernumber radius [0-1]
|
|
def OSCradius(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
if value >1:
|
|
value = value /127
|
|
print("aurora OSC got radius", value, (value * multi["radius"]), "layer", layer)
|
|
Layer[layer]['radius'] = value * multi["radius"]
|
|
midix.SendUI('/status', ["Radius : ", value * multi["radius"]])
|
|
|
|
|
|
# /aurora/amp layer side axe type
|
|
def OSCamp(path, tags, args, source):
|
|
pass
|
|
|
|
# /aurora/linesize layer value
|
|
def OSClinesize(path, tags, args, source):
|
|
|
|
#Layer[layer]['run'] = False
|
|
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
if value >1:
|
|
value = value /127
|
|
Layer[layer]['lineSize'] = value*400
|
|
midix.SendUI('/status', ["linesize : ", value*400])
|
|
|
|
|
|
# /aurora/steps layer value
|
|
def OSCsteps(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
print("aurora OSC got steps", value, (value * 5), "layer", layer)
|
|
|
|
if value * 2 < Layer[layer]['stepmax']:
|
|
|
|
Layer[layer]['step'] = 0
|
|
Layer[layer]['steps'] = round(value * 5)
|
|
Layer[layer]['stepvals'] = anim.sbilinear(Layer[layer]['steps'], 0, Layer[layer]['stepmax'])
|
|
|
|
|
|
# /aurora/stepmax layer value
|
|
def OSCstepmax(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
value = float(args[1])
|
|
print("aurora OSC got stepmax", value, (value * 5), "layer", layer)
|
|
|
|
if value * 2 < Layer[layer]['stepmax']:
|
|
|
|
Layer[layer]['step'] = 0
|
|
Layer[layer]['stepmax'] = value * 5
|
|
Layer[layer]['stepvals'] = anim.sbilinear(Layer[layer]['steps'], 0, Layer[layer]['stepmax'])
|
|
|
|
|
|
# /aurora/rotdirec layer axe direc
|
|
def OSCrotdirec(path, tags, args, source):
|
|
|
|
layer = int(args[0])
|
|
axe = args[1]
|
|
direc = int(args[2])
|
|
|
|
#print(layer, axe, direc)
|
|
if axe =="X":
|
|
Layer[layer]['Xrotdirec'] = ccs[layer][102] = direc
|
|
if axe =="Y":
|
|
Layer[layer]['Yrotdirec'] = ccs[layer][106] = direc
|
|
if axe =="Z":
|
|
Layer[layer]['Zrotdirec'] = ccs[layer][110] = direc
|
|
|
|
|
|
# /aurora/rotspeed layernumber axe speed
|
|
def OSCrotspeed(path, tags, args, source):
|
|
|
|
print("Aurora OSC : rotspeed got", path, args)
|
|
layer = int(args[0])
|
|
axe = args[1]
|
|
speed = int(args[2])
|
|
|
|
if axe =="X":
|
|
Layer[layer]['Xrotspeed'] = ccs[layer][100] = speed
|
|
if axe =="Y":
|
|
Layer[layer]['Yrotspeed'] = ccs[layer][104] = speed
|
|
if axe =="Z":
|
|
Layer[layer]['Zrotspeed'] = ccs[layer][108] = speed
|
|
|
|
|
|
# /aurora/transamt layernumber axe maxposition
|
|
def OSCtransamt(path, tags, args, source):
|
|
|
|
print("Aurora OSC : transamt got", path, args)
|
|
layer = int(args[0])
|
|
axe = args[1]
|
|
maxpos = int(args[2])
|
|
|
|
if axe =="X":
|
|
Layer[layer]['Xtransamt'] = ccs[layer][114] = maxpos
|
|
if axe =="Y":
|
|
Layer[layer]['Ytransamt'] = ccs[layer][118] = maxpos
|
|
if axe =="Z":
|
|
Layer[layer]['Ztransamt'] = ccs[layer][122] = maxpos
|
|
|
|
|
|
|
|
# /aurora/transpeed layernumber axe transpeed
|
|
def OSCtranspeed(path, tags, args, source):
|
|
|
|
print("Aurora OSC : transspeed got", path, args)
|
|
layer = int(args[0])
|
|
axe = args[1]
|
|
speed = int(args[2])
|
|
|
|
if axe =="X":
|
|
Layer[layer]['Xtranspeed'] = ccs[layer][112] = speed
|
|
if axe =="Y":
|
|
Layer[layer]['Ytranspeed'] = ccs[layer][116] = speed
|
|
if axe =="Z":
|
|
Layer[layer]['Ztranspeed'] = ccs[layer][120] = speed
|
|
|
|
|
|
# /aurora/part partname
|
|
def OSCpart(path, tags, args, source):
|
|
|
|
print("aurora part got", path, args)
|
|
gstt.aurorapart = args[0]
|
|
|
|
|
|
# /aurora/bpm set current bpm
|
|
def OSCbpm(path, tags, args, source):
|
|
|
|
pass
|
|
#gstt.currentbpm = int(args[0])
|
|
#print("Aurora OSC New BPM :", int(args[0]))
|
|
|
|
|
|
#/aurora/clock
|
|
def OSClock(path, tags, args, source):
|
|
|
|
pass
|
|
#print("Aurora OSC Got MIDI clock")
|
|
|
|
# /aurora/trckr/frame
|
|
def OSCtrckr(path, tags, args, source):
|
|
global TrckrPts
|
|
|
|
|
|
#print("trckr got frame", args[0])
|
|
if debug != 0:
|
|
print("trckr got frame", args[1], "for layer", layer)
|
|
print(len(args),"args", args)
|
|
counter =0
|
|
TrckrPts[args[0]] = []
|
|
|
|
for dot in range(2,len(args)-2,2):
|
|
|
|
TrckrPts[args[0]].append([float(args[dot]), float(args[dot+1])])
|
|
|
|
|
|
# /aurora/rawcc layer encoder value (Aurora style)
|
|
encoders = ['Xcoord','Ycoord', 'resize', 'scandots', 'Xrotdirec', 'Yrotdirec', 'Zrotdirec', 'radius','steps', 'stepmax','lineSize','radius','radius','radius','radius','radius']
|
|
def OSCrawcc(path, tags, args, source):
|
|
|
|
if path.find(" ") != -1:
|
|
newargs = path.split(" ")
|
|
args=[]
|
|
#print(newargs, len(newargs))
|
|
for arg in range(len(newargs)-1):
|
|
args.append(newargs[arg+1])
|
|
print(path, args)
|
|
|
|
layer = int(args[0])
|
|
number = int(args[1])
|
|
value = int(args[2])
|
|
|
|
#print("OSC rawcc")
|
|
midix.SendUI('/beatstep/'+ "m" +str(layer+1)+ str(number+1) + '/value', [format(value, "03d")])
|
|
#print('/beatstep/'+ "m" +str(layer+1)+ str(number+1) + '/value', [format(value, "03d")])
|
|
#ccs[layer][number] = value
|
|
|
|
print(encoders[number],": value", value, "steps", Layer[layer]['steps'],"stepmax", Layer[layer]['stepmax'], "lineSize", Layer[layer]['lineSize'])
|
|
#print("Aurora OSC Got rawCC for layer", layer, "encoder", encoders[number], "value", value)
|
|
#print(value, Layer[layer]['stepmax'])
|
|
if value * 2 < Layer[layer]['stepmax']:
|
|
|
|
Layer[layer][encoders[number]] = value * 5
|
|
Layer[layer]['stepvals'] = anim.sbilinear(Layer[layer]['steps'], 0, Layer[layer]['stepmax'])
|
|
|
|
|
|
# /aurora/cc channel CC value
|
|
# /aurora/cc layer steps stepmax
|
|
def OSCcc(path, tags, args, source):
|
|
|
|
print("Aurora OSC Got CC")
|
|
channel = int(args[0])
|
|
ccnumber = int(args[1])
|
|
ccvalue = int(args[2])
|
|
|
|
Layer[channel]['step'] = 0
|
|
Layer[channel]['steps'] = ccnumber * 5
|
|
Layer[channel]['stepmax'] = ccvalue * 5
|
|
Layer[channel]['stepvals'] = anim.sbilinear(Layer[channel]['steps'], 0, Layer[channel]['stepmax'])
|
|
|
|
|
|
# /aurora/intensity layernumber intensity
|
|
def OSCintensity(path, tags, args, source):
|
|
|
|
print("Aurora OSC : intensity got", path, args)
|
|
layer = int(args[0])
|
|
Layer[layer]['intensity'] = int(args[1])
|
|
lj.SendIntensity(layer, int(args[1]))
|
|
|
|
|
|
# /aurora/kpps layernumber kpps
|
|
def OSCkpps(path, tags, args, source):
|
|
|
|
print("Aurora OSC : kpps got", path, args)
|
|
layer = int(args[0])
|
|
lj.Sendkpps(layer, int(args[1]))
|
|
|
|
|
|
|
|
#
|
|
# OSC Audio
|
|
#
|
|
|
|
# /aurora/audioR value
|
|
def OSCaudioR(path, tags, args, source):
|
|
global audioR
|
|
|
|
audioR = abs(float(args[0])* audiosize)
|
|
#print("Aurora OSC Got audioR value", audioR )
|
|
|
|
|
|
# /aurora/audioL value
|
|
def OSCaudioL(path, tags, args, source):
|
|
global audioL
|
|
|
|
audioL = abs(float(args[0]) * audiosize)
|
|
#print("Aurora OSC Got audioR value", audioL )
|
|
|
|
|
|
|
|
|
|
#
|
|
# OSC Beatstep
|
|
#
|
|
|
|
beatstepfxs = ["anim.ScanH", "anim.ScanV", "anim.Wave", "anim.Circle", "anim.Starfield", "anim.Word", "anim.Trckr", "anim.ScanH"]
|
|
beatstepcols = ["red", "yellow", "green", "blue", "cyan", "white", "white", "white"]
|
|
def beatstepUI():
|
|
|
|
midix.SendUI('/beatstep', [1])
|
|
midix.SendUI('/beatstep/on', [1])
|
|
midix.SendUI('/status', ["Aurora"])
|
|
if linked:
|
|
midix.SendUI('/bpm', alink.bpm)
|
|
|
|
for l in range(4):
|
|
|
|
# First encoder line
|
|
midix.SendUI('/beatstep/'+ "m1" + str(l+1) + '/line1', '')
|
|
midix.SendUI('/beatstep/'+ "m1" + str(l+1) + '/line2', encoders[l])
|
|
midix.SendUI('/beatstep/'+ "m1" + str(l+1) + '/value', [format(0, "03d")])
|
|
midix.SendUI('/beatstep/'+ "m1" + str(4+l+1) + '/line1', '')
|
|
midix.SendUI('/beatstep/'+ "m1" + str(4+l+1) + '/line2', encoders[l])
|
|
midix.SendUI('/beatstep/'+ "m1" + str(4+l+1) + '/value', [format(0, "03d")])
|
|
|
|
# First pad line
|
|
fxname = beatstepfxs[l].split('.')
|
|
print(fxname)
|
|
midix.SendUI('/beatstep/'+ "m3" + str(l+1) + '/line1', fxname[0])
|
|
midix.SendUI('/beatstep/'+ "m3" + str(l+1) + '/line2', fxname[1])
|
|
midix.SendUI('/beatstep/'+ "m3" + str(4+l+1) + '/line1', fxname[0])
|
|
midix.SendUI('/beatstep/'+ "m3" + str(4+l+1) + '/line2', fxname[1])
|
|
|
|
|
|
#
|
|
# 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))
|
|
|
|
#
|
|
# Compute animations speed
|
|
#
|
|
|
|
def animSpeeds():
|
|
|
|
print("Compute animations speed for", lasernumber, "lasers...")
|
|
|
|
for l in range(lasernumber):
|
|
Layer[l]['stepvals'] = anim.sbilinear(Layer[l]['steps'], 0, Layer[l]['stepmax'])
|
|
|
|
#
|
|
# Starfields
|
|
#
|
|
|
|
StarFields = []
|
|
|
|
# Init Starfields
|
|
def prepareStarfield():
|
|
|
|
print("Init starfields...")
|
|
lj.WebStatus("Init starfields...")
|
|
|
|
for field in range(lasernumber):
|
|
|
|
StarFields.append({'stars': [], 'starfieldcount': 0, 'starspeed': 0.05, 'displayedstars': 5, 'num_stars': 50, 'max_depth': 20})
|
|
for i in range(StarFields[field]['num_stars']):
|
|
|
|
# A star is represented as a list with this format: [X,Y,Z]
|
|
star = [randrange(-25,25), randrange(-25,25), randrange(1, StarFields[field]['max_depth'])]
|
|
StarFields[field]['stars'].append(star)
|
|
|
|
#
|
|
# faces tracker
|
|
#
|
|
|
|
|
|
TrckrPts =[[],[],[],[]]
|
|
#print(TrckrPts)
|
|
|
|
def prepareTrckr():
|
|
|
|
for l in range(lasernumber):
|
|
#print()
|
|
TrckrPts[l] = [[159.39, 137.68], [155.12, 159.31], [155.56, 180.13], [159.81, 201.6], [170.48, 220.51], [187.46, 234.81], [208.4, 244.68], [229.46, 248.21], [246.44, 244.91], [259.69, 234.83], [270.95, 221.51], [278.54, 204.66], [283.53, 185.63], [286.27, 165.79], [284.72, 144.84], [280.06, 125.01], [274.35, 118.7], [260.71, 117.23], [249.52, 118.86], [182.04, 121.5], [193.63, 114.79], [210.24, 114.77], [222.35, 117.57], [190.6, 137.49], [203.59, 132.42], [214.75, 137.58], [203.04, 140.46], [203.32, 136.53], [272.45, 141.57], [263.33, 135.42], [250.31, 138.89], [262.15, 143.27], [261.99, 139.37], [235.82, 131.74], [221.87, 156.09], [213.66, 165.88], [219.28, 173.53], [236.3, 175.25], [249.02, 174.4], [254.22, 167.81], [248.83, 157.39], [237.94, 147.51], [227.01, 168.39], [245.68, 170.02], [204.94, 197.32], [217.56, 192.77], [228.27, 190.55], [234.66, 192.19], [240.47, 191.09], [247.96, 193.87], [254.52, 199.19], [249.35, 204.25], [242.74, 207.16], [233.2, 207.87], [222.13, 206.52], [212.44, 203.09], [220.34, 198.74], [233.31, 200.04], [244.0, 199.6], [244.27, 197.8], [233.81, 197.44], [220.88, 196.99], [239.57, 162.69], [196.52, 133.86], [210.2, 133.98], [209.43, 139.41], [196.59, 139.47], [268.99, 137.59], [256.36, 136.02], [255.95, 141.5], [267.9, 142.85]]
|
|
#print(l, ":",TrckrPts[l])
|
|
|
|
#
|
|
# ALl FXs points generation
|
|
#
|
|
|
|
def AllFX():
|
|
global step, shapestep
|
|
|
|
for l in range(lasernumber):
|
|
if AllFXDisplay[l]: #and 0 <= x0 < screen_size[0] - 2 and 0 <= y0 < screen_size[1] - 2:
|
|
|
|
LAY = Layer[l]
|
|
dots = []
|
|
##log.err(str(l) + " "+ str(LAY))
|
|
# Generators sending directly their points.
|
|
if LAY['FX'] == "anim.Starfield":
|
|
anim.Onefield(LAY, StarFields[l], hori=0, verti=0)
|
|
|
|
elif LAY['FX'] == "anim.Trckr":
|
|
anim.Trckr(LAY, TrckrPts[l])
|
|
|
|
elif LAY['FX'] == "anim.Word":
|
|
anim.Word(LAY)
|
|
|
|
elif LAY['FX'] == "anim.User1":
|
|
user.User1(LAY)
|
|
|
|
elif LAY['FX'] == "anim.User2":
|
|
user.User2(LAY)
|
|
|
|
elif LAY['FX'] == "anim.User3":
|
|
dots = user.User3(LAY)
|
|
|
|
elif LAY['FX'] == "anim.User4":
|
|
|
|
dots = user.User4(LAY)
|
|
if LAY['FX'] != "Zero" or lent(dots) != 0:
|
|
#print(dots, LAY['color'])
|
|
lj.rPolyLineOneColor(dots, c = LAY['color'], layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
|
|
|
|
|
|
elif LAY['FX'] == "anim.Butterfly":
|
|
anim.Butterfly(LAY)
|
|
|
|
# Generic generators : return dots list
|
|
else:
|
|
dots = eval(LAY['FX']+"(LAY)")
|
|
if LAY['FX'] != "Zero" or lent(dots) != 0:
|
|
#print(dots, LAY['color'])
|
|
lj.rPolyLineOneColor(dots, c = LAY['color'], layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
|
|
else:
|
|
lj.rPolyLineOneColor((0,0,0), c = 0, layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
|
|
# OSC cc Audio reactive audioR -> size
|
|
|
|
# Animation
|
|
if LAY['run']:
|
|
|
|
lsteps = [ (1.0, 8), (0.25, 3), (0.75, 3), (1.0, 10)]
|
|
#Resampler(l,lsteps)
|
|
|
|
if LAY['step'] < LAY['steps']-1:
|
|
LAY['step'] +=1
|
|
else:
|
|
LAY['step'] = 0
|
|
# print("stepmax", LAY['stepmax'], 'step', LAY['step'])
|
|
|
|
if shapestep < shapesteps-1:
|
|
shapestep +=1
|
|
else:
|
|
shapestep =0
|
|
'''
|
|
# morphing
|
|
gstt.patchnumber[layer] = number
|
|
for ccnumber in range(len(maxwell['ccs'])):
|
|
gstt.morphCCinc[ccnumber] = (getPatchValue(gstt.patchnumber[layer], ccnumber) - gstt.ccs[layer][ccnumber]) / gstt.morphsteps
|
|
gstt.morphCC[ccnumber] = gstt.ccs[layer][ccnumber]
|
|
print("CC", ccnumber, "was", gstt.ccs[layer][ccnumber],"will be", getPatchValue(gstt.patchnumber[layer], ccnumber), "so inced is", gstt.morphCCinc[ccnumber])
|
|
gstt.morphing = 0
|
|
'''
|
|
# Update Pose webUI
|
|
def UpdateAuroraUI():
|
|
|
|
lj.WebStatus("Aurora Connected")
|
|
|
|
|
|
def UpdateKnobs(layernumber):
|
|
|
|
LAY = Layer[layernumber]
|
|
|
|
lj.SendLJ("/forwardui", "aurora/word " + LAY['word'])
|
|
|
|
lj.SendLJ("/forwardui", "aurora/Xcoord " + str(LAY['Xcoord']))
|
|
lj.SendLJ("/forwardui", "aurora/Ycoord " + str(LAY['Ycoord']))
|
|
lj.SendLJ("/forwardui", "aurora/scale " + str(LAY['scale']))
|
|
lj.SendLJ("/forwardui", "aurora/scandots " + str(LAY['scandots']))
|
|
lj.SendLJ("/forwardui", "aurora/rotdirec X " + str(LAY['Xrotdirec']))
|
|
lj.SendLJ("/forwardui", "aurora/rotdirec Y " + str(LAY['Yrotdirec']))
|
|
lj.SendLJ("/forwardui", "aurora/rotdirec Z " + str(LAY['Zrotdirec']))
|
|
|
|
lj.SendLJ("/forwardui", "aurora/steps " + str(LAY['steps']))
|
|
lj.SendLJ("/forwardui", "aurora/stepmax " + str(LAY['stepmax']))
|
|
lj.SendLJ("/forwardui", "aurora/linesize " + str(LAY['lineSize']))
|
|
lj.SendLJ("/forwardui", "aurora/radius " + str(LAY['radius']))
|
|
|
|
|
|
prepareStarfield()
|
|
prepareTrckr()
|
|
|
|
log.info("Starting OSC server at " + str(gstt.myIP)+ " port "+ str(OSCinPort)+ " ...")
|
|
#print("TouchOSC", gstt.TouchOSCIP)
|
|
oscserver.addMsgHandler("/aurora/ljscene", OSCljscene)
|
|
|
|
oscserver.addMsgHandler("/aurora/noteon", OSCnoteon)
|
|
oscserver.addMsgHandler("/aurora/fx", OSCfx)
|
|
oscserver.addMsgHandler("/aurora/noteoff", OSCnoteoff)
|
|
#oscserver.addMsgHandler("/aurora/color", OSColor)
|
|
oscserver.addMsgHandler("/aurora/bpm", OSCbpm)
|
|
oscserver.addMsgHandler("/aurora/clock", OSClock)
|
|
oscserver.addMsgHandler("/aurora/start", OSCstart)
|
|
oscserver.addMsgHandler("/aurora/stop", OSCstop)
|
|
oscserver.addMsgHandler("/aurora/part", OSCpart)
|
|
|
|
oscserver.addMsgHandler("/aurora/steps", OSCsteps)
|
|
oscserver.addMsgHandler("/aurora/stepmax", OSCstepmax)
|
|
|
|
|
|
oscserver.addMsgHandler("/aurora/rawcc", OSCrawcc)
|
|
oscserver.addMsgHandler("/aurora/cc", OSCcc)
|
|
|
|
oscserver.addMsgHandler("/aurora/audioR", OSCaudioR)
|
|
oscserver.addMsgHandler("/aurora/autioL", OSCaudioL)
|
|
|
|
oscserver.addMsgHandler("/aurora/Xcoord", OSCXcoord)
|
|
oscserver.addMsgHandler("/aurora/Ycoord", OSCYcoord)
|
|
oscserver.addMsgHandler("/aurora/linesize", OSClinesize)
|
|
oscserver.addMsgHandler("/aurora/scale", OSCale)
|
|
oscserver.addMsgHandler("/aurora/radius", OSCradius)
|
|
oscserver.addMsgHandler("/aurora/scandots", OSCandots)
|
|
oscserver.addMsgHandler("/aurora/scim", OSCim)
|
|
|
|
oscserver.addMsgHandler("/aurora/intensity", OSCintensity)
|
|
oscserver.addMsgHandler("/aurora/rotspeed", OSCrotspeed)
|
|
oscserver.addMsgHandler("/aurora/transamt", OSCtransamt)
|
|
oscserver.addMsgHandler("/aurora/rotdirec", OSCrotdirec)
|
|
oscserver.addMsgHandler("/aurora/trckr/frame", OSCtrckr)
|
|
# Add OSC generic layerugins commands : 'default", /ping, /quit, /pluginame/obj, /pluginame/var, /pluginame/adddest, /pluginame/deldest
|
|
lj.addOSCdefaults(oscserver)
|
|
oscserver.addMsgHandler( "default", OSChandler )
|
|
#anim.prepareSTARFIELD()
|
|
|
|
beatstepUI()
|
|
|
|
#beatstep.UpdatePatch(beatstep.patchnumber)
|
|
|
|
print("Updating Aurora UI...")
|
|
UpdateAuroraUI()
|
|
|
|
midix.check()
|
|
|
|
animSpeeds()
|
|
|
|
audioR = 1
|
|
audioL = 1
|
|
audiosize = 1.1
|
|
|
|
'''
|
|
steps = 500
|
|
step = 0
|
|
stepmax = 200
|
|
stepvals = anim.sbilinear(steps, 0, stepmax)
|
|
'''
|
|
|
|
shapesteps = 50
|
|
shapestep = 0
|
|
shapemax = 2
|
|
shapevals = anim.ssquare(shapesteps, 1, 0, shapemax)
|
|
|
|
#Layer[1]['FX']="anim.StarField"
|
|
#Layer[0]['FX']="anim.Maxwell"
|
|
|
|
#lsteps = [ (1.0, 3), (0.25, 3), (0.75, 3), (1.0, 10)]
|
|
#Resampler(l,lsteps)
|
|
print(anim.randlinear2(8,0,100))
|
|
|
|
def Run():
|
|
|
|
log.infog("Running...")
|
|
try:
|
|
while lj.oscrun:
|
|
|
|
# If you want an idea
|
|
# t0 = time.time()
|
|
lj.OSCframe()
|
|
if linked:
|
|
alink.BeatEvent()
|
|
|
|
AllFX()
|
|
|
|
time.sleep(0.002)
|
|
|
|
#t1 = time.time()
|
|
# looptime = t1 - t0
|
|
# 25 frames/sec -> 1 frame is 0.04 sec long
|
|
# if looptime is 0.01 sec
|
|
# 0.04/0.01 = 4 loops with the same anim
|
|
# so speedanim is 1 / 4 = 0.25
|
|
# speedanim = 1 / (0.04 / looptime)
|
|
|
|
lj.DrawDests()
|
|
#print("Took %f" % (t1 - t0, ))
|
|
|
|
#except KeyboardInterrupt:
|
|
# pass
|
|
except Exception:
|
|
log.err("Exception")
|
|
traceback.print_exc()
|
|
|
|
# Gently stop on CTRL C
|
|
finally:
|
|
|
|
lj.WebStatus("Aurora Disconnected")
|
|
log.info("Stopping OSC...")
|
|
lj.OSCstop()
|
|
|
|
log.infog("Aurora Stopped.")
|
|
|
|
Run()
|
|
|