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- #! /usr/bin/python3
- # -*- coding: utf-8 -*-
- """
- This file is part of LibreLight.
- LibreLight is free software: you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation, version 2 of the License.
- LibreLight is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
- You should have received a copy of the GNU General Public License
- along with LibreLight. If not, see <http://www.gnu.org/licenses/>.
- (c) 2012 micha@librelight.de
- """
- import sys
- import time
- import json
- import zlib
-
- rnd_id = ""
- rnd_id += " Beta 22.02 "
- import subprocess
- import tool.git as git
- rnd_id += git.get_all()
- if "__file__" in dir():
- sys.stdout.write("\x1b]2;"+str(__file__)+" "+rnd_id+"\x07") # terminal title
- else:
- sys.stdout.write("\x1b]2;"+str("__file__")+" "+rnd_if+"\x07") # terminal title
- __run_main = 0
- if __name__ == "__main__":
- __run_main = 1
- else:
- import __main__
- print(dir())
- if "unittest" not in dir(__main__):
- __run_main = 1
- import time
- import socket
- import struct
- import sys
- import random
- import math
- from collections import OrderedDict
-
- import lib.zchat as chat
- import lib.ArtNetNode as ANN
- import _thread as thread
- #thread.start_new_thread
- import lib.motion as motion
- #idmx = [0]*512 # incremental dmx
- dmx = [0]*512 # absolute dmx data
- gcolor = 1
- def cprint(*text,color="blue",space=" ",end="\n"):
- #return 0 #disable print dbg
- if not gcolor:
- print(text)
- return 0
- if color == "green":
- txt = '\033[92m'
- elif color == "red":
- txt = '\033[0;31m\033[1m'
- elif color == "yellow":
- txt = '\033[93m\033[1m'
- elif color == "cyan":
- txt = '\033[96m'
- else:
- txt = '\033[94m'
- for t in text:
- txt += str(t ) +" "
- #HEADER = '\033[95m'
- #OKBLUE = '\033[94m'
- #OKCYAN = '\033[96m'
- #OKGREEN = '\033[92m'
- #WARNING = '\033[93m'
- #FAIL = '\033[91m'
- #ENDC = '\033[0m'
- #BOLD = '\033[1m'
- #UNDERLINE = '\033[4m'
- txt += '\033[0m'
- print(txt,end=end)
- #return txt
- def artnet_loop():
- #artnet = ANN.ArtNetNode(to="127.0.0.1",port=6555,univ=12)
- #artnet = ANN.ArtNetNode(to="127.0.0.1",port=6555,univ=0)
- artnet = ANN.ArtNetNode(to="10.10.10.255",univ=0)
- #artnet = ANN.ArtNetNode(to="2.0.0.255",univ=0)
- #artnet = ANN.ArtNetNode(to="10.10.10.255",univ=1)
- #dmx[205] = 255 #205 BLUE
- artnet.dmx= dmx #[0]*512
- artnet.send()
- while 1:
- #artnet._test_frame()
- artnet.next()
- time.sleep(0.01)
- class CLOCK():
- def __init__(self):
- self.__time = 0
- self.__start = time.time() # only for debugging
- self.__tick = 0.01 # incremental timer drift's on highe cpu load ?
- def time(self):
- return self.__time
- def get_drift(self):
- run_time = time.time() - self.__start
- tick_time = self.__time # * self.__tick
- print( "runtime:{:0.2f} tick_timer:{:0.2f} drift:{:0.2f}".format(run_time,tick_time,run_time-tick_time))
- def loop(self):
- while 1:
- self.__time +=self.__tick
- #if int(self.__time*100)/10. % 10 == 0:# self.__time % 2 == 0:
- # print( self.get_drift())
- #print(self.__time)
- #for i in range(10):
- time.sleep(self.__tick)
- class CLOCK_REAL():
- def __init__(self):
- self.__time = 0
- self.__start = time.time() # only for debugging
- self.__tick = 0.01 # incremental timer drift's on highe cpu load ?
- def time(self):
- self.__time = time.time()
- return self.__time
- def get_drift(self):
- run_time = time.time() - self.__start
- tick_time = self.__time # * self.__tick
- print( "runtime:{:0.2f} tick_timer:{:0.2f} drift:{:0.2f}".format(run_time,tick_time,run_time-tick_time))
- def loop(self):
- pass
- #clock = CLOCK()
- clock = CLOCK_REAL()
- if __run_main:
- thread.start_new_thread(clock.loop,())
- class Fade():
- def __init__(self,start,target,ftime,clock,delay=0):
- #print("init Fade ",start,target,ftime,clock)
- if delay < 0:
- delay = 0.0001
- if ftime <= 0:
- ftime = 0.0001
- clock += delay
- self.__delay = delay
- self.__clock = clock
- self.__clock_curr = clock
- self.__ftime = ftime
- self.__start = start
- self.__last = start
- self.__target = target
- self.run = 1
- #print("INIT", str(self) )
- def __str__(self):
- return self.__repr__()
- def __repr__(self):
- return "<FADE Next:{:0.2f} from:{:0.2f} to:{:0.2f} ft:{:0.2f} Clock:{:0.2f} run:{} delay:{:0.2f}>".format(
- self.__last, self.__start,self.__target,self.__ftime,self.__clock_curr,self.run,self.__delay )
- def next(self,clock=None):
- if self.__ftime <= 0 and self.__delay <= 0:
- self.__last = self.__target
- self.run = 0
-
- if type(clock) is float or type(clock) is int:#not None:
- self.__clock_curr = clock
- if self.__target > self.__start:
- if self.__last >= self.__target:
- self.run = 0
- return self.__target
- else:
- if self.__last <= self.__target:
- self.run = 0
- return self.__target
-
- current = (self.__clock - self.__clock_curr) / self.__ftime
- length = self.__start - self.__target
- self.__last = self.__start+ length*current
- #if self.__last < 0:
- # self.__last = 0
- #if self.__last > 255:
- # self.__last = 255
- self.run = 1
- return self.__last
- def ctl(self,cmd="",value=None): # if x-fade cmd="%" value=50
- # start,stop,fwd,bwd,revers
- pass
- class _MASTER():
- def __init__(self,name="None"):
- self.__data = {}
- self.name = name
- def val(self,name,value=None):
- _value = 100 #%
- name = str(name)
- if name not in self.__data:
- self.__data[name] = 100
- _value = self.__data[name]
- if value is not None:
- if _value != value:
- print(self.name,"CHANGE MASTER:",name,"from:",_value,"to:",value)
- self.__data[name] = value
- _value = self.__data[name]
- return _value /100.
-
- exec_size_master = _MASTER("EXEC-SIZE")
- exec_speed_master = _MASTER("EXEC-SPEED")
- exec_offset_master = _MASTER("EXEC-OFFSET")
- size_master = _MASTER("SIZE")
- speed_master = _MASTER("SPEED")
- exe_master = []
- exe_master.append({"SIZE":100,"SPEED":100,"id":12,"link-ids":[2]})
- class MASTER_FX():
- def __init__(self):
- #cprint(self,"MASTER_FX INIT !",color="green")
- self.__data = []
- self.__ok = []
- self.i=0
- self.old_offsets = []
- self.offsets = []
- self.count = -1
- self.init = 10
- def add(self,fx):
- if fx not in self.__data:
- #cprint(self,"ADD TO MASTER !",color="green")
- self.__data.append(fx)
- info = fx._get_info()
- #cprint(self,"ADD" ,info,color="green")
- offset = 0
- if "offset" in info:
- offset = info["offset"]
- self.old_offsets.append(offset)
- self.offsets.append(offset)
- if "xtype" in info:
- if info["xtype"] == "rnd":
- self._shuffle()
- #self.init += 1
-
- def _shuffle(self):
- #cprint(self,"REORDER RANDOM !",color="green")
- #self.init = 0
- #cprint(self.old_offsets)
- random.shuffle(self.old_offsets)
- #cprint(self.old_offsets)
- def _init(self):
- self._shuffle()
- #self.offsets = []
- for i,v in enumerate(self.old_offsets):
- offset = self.old_offsets[i]
- self.offsets[i] = offset
- self.init = 0
- def next(self,child):
- i = self.__data.index(child)
- offset = self.old_offsets[i]
- self.offsets[i] = offset
- return offset
- #for i,v in enumerate(self.old_offsets):
- # offset = self.old_offsets[i]
- # self.offsets[i] = offset
- def get(self,child,count):
- offset = 0
- if child not in self.__data:
- return offset
- if self.init:
- self._init()
- idx = self.__data.index(child)
- if (self.count != count and idx == 0 ) or self.init == 0:
- self.init = 1
- self._shuffle()
- #print( count)
- self.count=count
-
- idx = self.__data.index(child)
- offset = self.offsets[idx]
- return offset
-
- class FX():
- def __init__(self,xtype="sinus",size=10,speed=10,invert=0,width=100,start=0,offset=0,base="",clock=0,master=None,master_id=0):
- self.__xtype=xtype
- self.__size = size
- self.__start = start
- self.__master_id = master_id
- if width > 200:
- width = 200
- if width <= 0:
- width = 1
- self.__fade_in_master = 0
- self.__width = width
- self.__invert = invert
- self.__base = base
- self.__speed = speed
- self.__offset = offset
- self.__clock = clock
- self.__clock_curr = clock
- self.__clock_delta = 0
- self.__clock_old = self.__clock_curr
- self.out = 0
- self.old_v = -1
- self.run = 1
- self.count = -1
- self.__angel = self.__clock_curr*360%360
- if master is None:
- cprint(master, "MASTER_FX ERR",master,color="red")
- self.__master = MASTER_FX()
- self.__master.add(self)
- else:
- #cprint( "MASTER_FX OK",master,color="red")
- self.__master = master
- self.__master.add(self)
- if self.__xtype == "rnd":
- self.__offset = self.__master.get(self,-2)
- self.__offset = self.__master.next(self)#,count)
-
- self._exec_id = None
- self.next()
- #print("init FX",self)
- def exec_id(self,_id=None):
- if type(_id) is not type(None):
- self._exec_id = str(_id)
- return self._exec_id
- def _get_info(self):
- #print("self.__offset",self.__offset)
- return {"offset":self.__offset,"xtype":self.__xtype}
- #return self.next(),self.__xtype, self.__size,self.__speed,self.__angel, self.__base,self.__clock_curr,self.run
- def __str__(self):
- return self.__repr__()
- def __repr__(self):
- return "<FX Next:{:0.2f} xtype:{} Size:{:0.2f} Speed:{:0.2f} ang:{:0.2f} base:{} Clock:{:0.2f} run:{} EXEC:{}>".format(
- self.next(),self.__xtype, self.__size,self.__speed,self.__angel, self.__base,self.__clock_curr,self.run,self._exec_id )
- def next(self,clock=None):
- if type(clock) is float or type(clock) is int:#not None:
- self.__clock_curr = clock
-
- d = (self.__clock_curr - self.__clock_old)
- #print()
- #print("A",d)
-
- m1 = ( speed_master.val(self.__master_id)) # global speed-master
- #print("B {:0.4}".format(m1))
- m2 = ( exec_speed_master.val(self._exec_id)) # exec start by 0
- #print("C {:0.4}".format(m2))
- shift = 0
- m = (m1 * m2) -1
- shift += d * m
- #print("D",shift)
- self.__clock_delta += shift
- #print(self.__clock_delta )
- self.__clock_old = self.__clock_curr
-
- t = self.__clock_curr
- t += self.__clock_delta
- t *= self.__speed / 60
- offset2 = self.__offset
- offset2 *= exec_offset_master.val(self._exec_id)
- #t += self.__offset / 100 #255 #1024 #255
- t += offset2 / 100
- t += self.__start / 1024 #255
- #t = t*speed_master.val(self.__master_id)
- tw = t%1
- count = t//1
- t = t * (100/self.__width)
- if tw > self.__width/100:
- t = 1
-
- self.__angel = t%1*360
- t = t%1
- rad = math.radians(self.__angel)
- v=0
- out = 0
- base = 0
- size = self.__size
- if self.__base == "+": # add
- base = size/2
- elif self.__base == "-": # sub
- base = size/2*-1
- if self.__xtype == "sinus":
- v = math.sin( rad )
- v/=2
- elif self.__xtype == "cosinus":
- v = math.cos( rad )
- if self.__base == "+": # add
- size *= -1
- v/=2
- elif self.__xtype == "rnd":
- #base = 0
- if self.__angel > 90 and self.__angel <=270:
- v=1
- else:
- v=0
- #if count != self.count and v: # % 2 == 0:#!= self.count:
- # #self.__offset = random.randint(0,1024)# /1024
- # self.__master._shuffle()
-
- if count != self.count and v == 0: # and v: # % 2 == 0:#!= self.count:
- self.__master.next(self)#,count)
- #self.__master.next(self)#,count)
- self.__offset = self.__master.get(self,count)
-
- base = 0
- if self.__base == "-": # sub
- if self.__invert:
- v = 1-v
- #base = -size
- size *=-1
- v *=-1
- elif self.__base == "+": # sub
- if self.__invert:
- v = v-1
- else:
- v = (t%1-0.5)
- elif self.__xtype == "on":
- #base = 0
- if self.__angel > 90 and self.__angel <=270:
- v=1
- else:
- v=0
- base = 0
- if self.__base == "-": # sub
- if self.__invert:
- v = 1-v
- #base = -size
- size *=-1
- v *=-1
- elif self.__base == "+": # sub
- if self.__invert:
- v = v-1
- else:
- v = (t%1-0.5)
- elif self.__xtype == "ramp" or self.__xtype == "ramp":
- v = (t%1)
- base = 0
- if self.__base == "-": # sub
- if self.__invert:
- v = 1-v
- #base = -size
- size *=-1
- v *=-1
- elif self.__base == "+": # sub
- if self.__invert:
- v = v-1
- else:
- v = (t%1-0.5)
- elif self.__xtype == "ramp2" or self.__xtype == "bump2":
- v = (t%1)
- v = 1-v
- if v == 1:
- v=0
- base = 0
- if self.__base == "-": # sub
- if self.__invert:
- v = 1-v
- #base = -size
- size *=-1
- v *=-1
- elif self.__base == "+": # sub
- if self.__invert:
- v = v-1
- else:
- v = (t%1-0.5)
- elif self.__xtype == "fade":
- x = t * 2
- if x > 1:
- x = 2-x
- x -= 0.5
- v = x*2
- #base /= 2
- #base *=2
- if self.__base == "+": # add
- pass#base /= 2
- else:
- v *= -1
- v/=2
- if self.__invert:
- v *=-1
-
- #if self.__fade_in_master < 255:
- # self.__fade_in_master += v*size
- out = v *size +base
- self.out = out
- self.count = count
- out = out * size_master.val(self.__master_id) # master
- out = out * exec_size_master.val(self._exec_id) # master
- #* (self.__fade_in_master /255.)
- return out
- class DMXCH(object):
- def __init__(self,dmx=-1):
- self._base_value = 0
- self._fade = None
- self._fx = [None,None] # None
- self._fx_value = 0
- self._dmx = dmx
- self._dmx_fine = 0
- self._flash = None
- self._flash_fx = None
- self._flash_fx_value = 0
- self._last_val = None
- self._exec_id = None
- #self.next(clock)
- #print("init",self)
-
- def fade(self,target,ftime=0,clock=0,delay=0):
- if target != self._base_value:
- try:
- target = float(target)
- self._fade = Fade(self._base_value,target,ftime=ftime,clock=clock,delay=delay)
- #self._fade.next()
- #self._fade.next()
- except Exception as e:
- print( "Except:fade",e,target,ftime,clock)
- self.next(clock)
- #print("init fade",self)
- def fx(self,xtype="sinus",size=40,speed=40,invert=0,width=100,start=0,offset=0,base="", clock=0,master=None):
- #print("DMXCH.fx",[self,xtype,size,speed,start,offset,base, clock])
- self._fx[0] = self._fx[1]
- if str(xtype).lower() == "off":
- fx_value = self._fx_value
- if fx_value != 0:
- cprint("???????______ FX OFF AS FADE",fx_value,0,255)
- self._fx[1] = Fade(fx_value,0,ftime=0.5,clock=clock)
- else:
- self._fx[1] = None
- self._fx_value = 0
- else:
- self._fx[1] = FX(xtype=xtype,size=size,speed=speed,invert=invert,width=width,start=start,offset=offset,base=base,clock=clock,master=master,master_id=1)
- self._fx[1].exec_id(self._exec_id)
- self.next(clock)
- #print("init fx",self)
- def flash(self,target,ftime=0,clock=0,delay=0):
- if str(target).lower() == "off":
- self._flash = None
- else:#elif target != self._base_value:
- try:
- target = float(target)
- self._flash = Fade(self._last_val,target,ftime=ftime,clock=clock,delay=delay)
- except Exception as e:
- print( "Except:flash",target,ftime,clock,__name__,e,)
- self.next(clock)
- #print("init flush",self)
- def flash_fx(self,xtype="sinus",size=40,speed=40,invert=0,width=100,start=0,offset=0,base="",clock=0,master=None):
- if str(xtype).lower() == "off":
- fx_value = self._fx_value
- self._flash_fx = None
- self._flash_fx_value = 0
- else:
- self._flash_fx = FX(xtype=xtype,size=size,speed=speed,invert=invert,width=width,start=start,offset=offset,base=base,clock=clock,master=master,master_id=0)
- self._flash_fx.exec_id(self._exec_id)
- self.next(clock)
- #print("init flash_fx",self)
- def fx_ctl(self,cmd=""): #start,stop,off
- pass
-
- def __str__(self):
- return self.__repr__()
- def exec_id(self,_id=None):
- if type(_id) is not type(None):
- self._exec_id = _id
- #print("set exec_id",_id)
- return self._exec_id
- def __repr__(self):
- return "<BUFFER {} {} v:{:0.2f} EXEC:{}> fx:[{}] fd:{}".format(self._dmx,self._dmx_fine, self._last_val,self._exec_id,self._fx,self._fade)
-
- def fade_ctl(self,cmd=""): #start,stop,backw,fwd,bounce
- pass
-
- def next(self,clock=0):
- try:
- self._next(clock)
- except Exception as e:
- cprint("Exception DMXCH.next()" ,e)
- out = self._last_val
- return out
- def _next(self,clock=0):
- value = self._base_value
- if self._last_val is None:
- self._last_val = value
- fx_value = self._fx_value
- if self._flash is not None:
- value = self._flash.next(clock)
- #flicker bug ?!
- value = self._flash.next(clock)
- fx_value = 0
- elif self._fade is not None:#is Fade:# is Fade:
- self._base_value = self._fade.next(clock)
- self._base_value = self._fade.next(clock) #flicker bug ?!
- value = self._base_value
-
- if self._flash_fx is not None:# is FX:
- fx_value = self._flash_fx.next(clock)
- else:
- self._fx_value = 0
- if self._fx[-1] is not None and self._flash is None:# is FX:
- self._fx_value += self._fx[-1].next(clock)
- fx_value = self._fx_value
- self._last_val = value + fx_value
- #out = self._last_val * htp_master.master_by_dmx(self._dmx)
- out = self._last_val
- return out
- Bdmx = []
- for i in range(512*7+1):
- Bdmx.append( DMXCH(i) )
- #print(type(dmx[i]))
- _id = 1
- def split_cmd(data):
- if "cmd" in data:
- cmd = data["cmd"]
- #print("cmd",cmd)
- if "," in cmd:
- cmds = cmd.split(",")
- else:
- cmds = [cmd]
- return cmds
- class VDMX():
- """functional implementation as class for namespace encapsulation
- """
- def __init__(self):
- self.data = OrderedDict()
- self.data[4] = {"DMX":[21,22,23],"VALUE":255, "LIMIT":255} #,"DMXCH":DMXCH("V4")}
- for k,v in self.data.items():
- pass
- #dmxch = v["DMXCH"]
- #dmxch.fade(10,0)
- #dmxch.fx(size=200,speed=200,base="-") #self,xtype="sinus",size=40,speed=40,invert=0,width=100,start=0,offset=0,base="", clock=0,master=None):
- def _list_by_dmx(self,_dmx=0):
- data = OrderedDict()
- for i,link in self.data.items(): # enumerate(self.data):
- if _dmx in link["DMX"]:
- #print( "_list_by_dmx",i,link)
- data[i] = link
- return data
- def dmx_by_id(self,_id=0):
- #print("dmx by master-id:",_id)
- if _id in self.data:
- for i,link in self.data[_id].items():
- #print("dmx_by_id", i,link)
- return (i,link)
- return 0,{}
- def by_dmx(self,clock,dmx):
- #print("master of dmx:",dmx)
- val=0
- flag = 0
- data = self._list_by_dmx(dmx)
- for i,row in data.items():
- if "DMXCH" not in row:
- row["DMXCH"] = DMXCH("V{}".format(i))
- row["DMXCH"].fade(255,0)
- v = row["DMXCH"].next(clock)
- #row["DMXCH"].fade(200,20)
- if v >= val:
- val = v
- flag = 1
- out = 1.
- if val > 255:
- val = 255
-
- if flag:
- out = val/255.
- else:
- out = 1.
- return out
- vdmx = VDMX()
- class HTP_MASTER():
- """functional implementation as class for namespace encapsulation
- """
- def __init__(self):
- self.data = OrderedDict()
- #self.data[1] = {"DMX":[1,2,3],"VALUE":80, "LIMIT":255}
- #self.data[2] = {"DMX":[12,13,22],"VALUE":70, "LIMIT":255}
- #self.data[3] = {"DMX":[22,23,24],"VALUE":99, "LIMIT":255}
- self.data[4] = {"DMX":[22,23,24],"VALUE":99, "LIMIT":255,"DMXCH":DMXCH(4)}
- def _list_by_dmx(self,_dmx=0):
- data = OrderedDict()
- for i,link in self.data.items(): # enumerate(self.data):
- if _dmx in link["DMX"]:
- #print( "_list_by_dmx",i,link)
- data[i] = link
- return data
- def dmx_by_id(self,_id=0):
- #print("dmx by master-id:",_id)
- if _id in self.data:
- for i,link in self.data[_id].items():
- #print("dmx_by_id", i,link)
- return (i,link)
- return 0,{}
- def val_by_dmx(self,dmx=0):
- #print("master of dmx:",dmx)
- val=0
- flag = 0
- data = self._list_by_dmx(dmx)
- for i,link in data.items():
- #print("master_by_dmx", i,link)
- if link["VALUE"] > val:
- #print("master_by_dmx", i,link)
- val = link["VALUE"]
- flag=1
- out = 1.
- if flag:
- out = val/255.
-
- return out
- htp_master = HTP_MASTER()
- #htp_master.data[_id] = {"DMX":[1,2,3],"VALUE":80, "LIMIT":255,"DMXCH":DMXCH()}
- class Main():
- def __init__(self):
- #artnet = ANN.ArtNetNode(to="127.0.0.1",port=6555,univ=12)
- #artnet = ANN.ArtNetNode(to="127.0.0.1",port=6555,univ=0)
- #artnet = ANN.ArtNetNode(to="2.0.0.255",univ=0)
- #artnet = ANN.ArtNetNode(to="10.10.10.255",univ=1)
- self.artnet = {}
- #self.artnet["0"] = ANN.ArtNetNode(to="10.10.10.255",univ=0)
- #self.artnet["0"].dmx[512-1] = 10
- #self.artnet["1"] = ANN.ArtNetNode(to="10.10.10.255",univ=1)
- #self.artnet["1"].dmx[512-1] = 11
- self.fx = {} # key is dmx address
- self.lock = thread.allocate_lock()
- def loop(self):
- #dmx[205] = 255 #205 BLUE
- #self.artnet.send()
- xx = [0]*512
- #artnet = self.artnet["0"]
- #artnet.dmx = xx# [:] #dmx #[0]*512
- ii = 0
- old_univ = -1
- xx = [0]*512
- for ii,dmxch in enumerate(Bdmx):
- i = ii%512
- univ = ii//512
- if str(univ) not in self.artnet:
- print("add uiv",univ)
- self.artnet[str(univ)] = ANN.ArtNetNode(to="10.10.10.255",univ=univ)
- #self.artnet[str(univ)].dmx[512-1] = 100+univ
- if univ != old_univ:
- old_univ = univ
- #print("UNIV",ii/512)
- try:
- artnet.next()
- except:pass
- artnet = self.artnet[str(univ)]
- artnet.dmx = [0]*512
- fps_start = time.time()
- fps = 0
- while 1:
- self.lock.acquire_lock()
- t = clock.time()
- ii = 0
- old_univ = -1
- xx = [0]*512
- for ii,dmxch in enumerate(Bdmx):
- i = ii%512
- univ = ii//512
- if str(univ) not in self.artnet:
- print("add uiv",univ)
- self.artnet[str(univ)] = ANN.ArtNetNode(to="10.10.10.255",univ=univ)
- #self.artnet[str(univ)].dmx[512-1] = 100+univ
- if univ != old_univ:
- old_univ = univ
- #print("UNIV",ii/512)
- try:
- artnet.next()
- except:pass
- artnet = self.artnet[str(univ)]
- #artnet.dmx = xx
- old_univ = -1
- xx = [0]*512
- for ii,dmxch in enumerate(Bdmx):
- i = ii%512
- univ = ii//512
- if univ != old_univ:
- old_univ = univ
- artnet = self.artnet[str(univ)]
- xx = artnet.dmx
-
- v = dmxch.next(t)
- vv = vdmx.by_dmx(clock=i,dmx=ii+1)
- try:
- v = v*vv # disable v-master
- except Exception as e:
- cprint("Exception v*vv",[v,vv],e)
- continue
- xx[i] = int(v)
- old_univ = -1
- xx = [0]*512
- for ii,dmxch in enumerate(Bdmx): #fine loop
- i = ii%512
- univ = ii//512
- if univ != old_univ:
- artnet = self.artnet[str(univ)]
- xx = artnet.dmx# = xx
-
- v = dmxch.next(t)
- vv = vdmx.by_dmx(clock=i,dmx=ii+1)
- try:
- v = v*vv # disable v-master
- except Exception as e:
- cprint("Exception v*vv",[v,vv],e)
- continue
- #xx[i] = int(v)
- dmx_fine = dmxch._dmx_fine
- if dmx_fine > 0:
- vf = int(v%1*255)
- #print(dmx_fine,end=" ")
- dmx_fine = dmx_fine%512
- #print(dmx_fine,end=" ")
- #print(int(v),end=" ")
- #print(vf,end=" ")
- #print()
- #univ = ii//512
- try:
- #xx[dmx_fine+1] = 9# int(v%1*255)
- if v >= 255:
- xx[dmx_fine-1] = 255
- elif v < 0:
- xx[dmx_fine-1] = 0
- else:
- xx[dmx_fine-1] = int(v%1*255)
- except Exception as e:
- print("E dmx_fine",e,dmx_fine)
- try:
- artnet.next()
- except:pass
- self.lock.release_lock()
- #self.lock.acquire_lock()
- time.sleep(0.01)
- fps += 1
- if fps >= 100:
- fps_t = time.time()
- #print(int((fps_t-fps_start)*1000),"ms")
- print(round(100/(fps_t-fps_start),2),"core/fps")
- fps = 0
- fps_start = time.time()
- main = Main()
- if __run_main:
- #thread.start_new_thread(artnet_loop,())
- thread.start_new_thread(main.loop,())
- def JCB(data,sock=None): #json client input
- t_start = time.time()
- #print("-->-",data)
- jdatas = []
- l2 = 0
- for line in data:
- data2 = json.loads(line)
- l2 += len(data2)
- #print("line:",line)
- jdatas.append(data2) #["CMD"])
- print("INPUT JCB =>",len(data),":",l2)
- c = clock.time()
- c = float(c)
- ftime = 0
- delay = 0
- for cmds in jdatas:
- #print("cmds:",cmds)
- master_fx = MASTER_FX()
- if not cmds:
- continue
- try:
- out = {}
- for x in cmds:
- if "CMD" in x:
- print("CMD:",x)
- if "EXEC-SPEED-MASTER" == x["CMD"]:
- exec_speed_master.val(x["NR"],x["VALUE"])
- if "EXEC-SIZE-MASTER" == x["CMD"]:
- exec_size_master.val(x["NR"],x["VALUE"])
- if "EXEC-OFFSET-MASTER" == x["CMD"]:
- exec_offset_master.val(x["NR"],x["VALUE"])
- if "SPEED-MASTER" == x["CMD"]:
- speed_master.val(x["NR"],x["VALUE"])
- if "SIZE-MASTER" == x["CMD"]:
- size_master.val(x["NR"],x["VALUE"])
- else:
- if "DMX" in x:
- DMX = int(x["DMX"])
- else:continue
- if DMX > 0:
- DMX -=1
- else:continue
-
- exec_id = None
- if "EXEC" in x:
- exec_id = x["EXEC"]
- if "VALUE" in x:# and x["VALUE"] is not None:
- v = x["VALUE"]
- else:continue
- if "FX" in x:# and x["VALUE"] is not None:
- fx = x["FX"]
- else:fx=""
- if "FX2" in x:# and x["VALUE"] is not None:
- fx2 = x["FX2"]
- else:fx2={}
- if "FADE" in x:
- ftime = x["FADE"]
- else:ftime=0
- if "DELAY" in x:
- delay = x["DELAY"]
- else:delay=0
- if "DMX-FINE" in x:
- try:
- Bdmx[DMX]._dmx_fine = int(x["DMX-FINE"])
- except Exception as e:
- cprint(x,color="red")
- cprint("except 3455",e,color="red")
- if len(Bdmx) < DMX:
- continue
- if "FLASH" in x and v == "off" and Bdmx[DMX].exec_id() != exec_id:
- continue # stop
-
- Bdmx[DMX].exec_id(exec_id)
- out[DMX] = {"flash":{},"fade":{},"fx":{},"flash_fx":{}}
- if v is not None:
- if "FLASH" in x:
- out[DMX]["flash"] = {"target":v,"ftime":ftime, "clock":c,"delay":delay}
- else:
- out[DMX]["fade"] = {"target":v,"ftime":ftime, "clock":c,"delay":delay}
-
- if type(fx2) is dict and fx2:
- xtype="fade"
- size = 10
- speed = 10
- start = 0
- offset= 0
- width=100
- invert=0
- base = "-"
- if "TYPE" in fx2:
- xtype = fx2["TYPE"]
- if "SIZE" in fx2:
- size = fx2["SIZE"]
- if "SPEED" in fx2:
- speed = fx2["SPEED"]
- if "OFFSET" in fx2:
- offset = fx2["OFFSET"]
- if "BASE" in fx2:
- base = fx2["BASE"]
- if "INVERT" in fx2:
- invert = fx2["INVERT"]
- if "WIDTH" in fx2:
- width = fx2["WIDTH"]
-
- if "off" == x["VALUE"]: #fix fx flash off
- xtype= "off"
- if "alloff" == xtype.lower():
- for i in Bdmx:
- if i is not None:
- i.flash_fx(xtype="off",clock=c)
- i.fx(xtype="off",clock=c)
- if "FLASH" in x:
- out[DMX]["flash_fx"] = {"xtype":xtype,"size":size,"speed":speed,
- "invert":invert,"width":width,"start":start
- ,"offset":offset,"base":base,"clock":c,"master":master_fx}
- else:
- out[DMX]["fx"] = {"xtype":xtype,"size":size,"speed":speed
- ,"invert":invert,"width":width,"start":start
- ,"offset":offset,"base":base,"clock":c,"master":master_fx}
- elif type(fx) is str and fx: # old fx like sinus:200:12:244
- ccm = str(DMX+1)+":"+fx
- print("fx",ccm)
- if "FLASH" in x:
- CB({"cmd":"fxf"+ccm})
- else:
- CB({"cmd":"fx"+ccm})
- #cprint("-","{:0.04} sec.".format(time.time()-t_start),color="yellow")
- # ------- ----------------------------------------------------
- try: # second loop to sync-start all dmxch's
- main.lock.acquire_lock()
- for DMX in out:
- line = out[DMX]
- if out[DMX]["fx"]:
- x = out[DMX]["fx"]
- Bdmx[DMX].fx(xtype=x["xtype"]
- ,size=x["size"]
- ,speed=x["speed"]
- ,invert=x["invert"]
- ,width=x["width"]
- ,start=x["start"]
- ,offset=x["offset"]
- ,base=x["base"]
- ,clock=x["clock"]
- ,master=x["master"])
- if out[DMX]["flash_fx"]:
- x = out[DMX]["flash_fx"]
- Bdmx[DMX].flash_fx(xtype=x["xtype"]
- ,size=x["size"]
- ,speed=x["speed"]
- ,invert=x["invert"]
- ,width=x["width"]
- ,start=x["start"]
- ,offset=x["offset"]
- ,base=x["base"]
- ,clock=x["clock"]
- ,master=x["master"])
- if out[DMX]["flash"]:
- x = out[DMX]["flash"]
- Bdmx[DMX].flash(target=x["target"]
- ,ftime=x["ftime"]
- ,clock=x["clock"]
- ,delay=x["delay"])
- if out[DMX]["fade"]:
- x = out[DMX]["fade"]
- Bdmx[DMX].fade(target=x["target"]
- ,ftime=x["ftime"]
- ,clock=x["clock"]
- ,delay=x["delay"])
- finally:
- main.lock.release_lock()
- except Exception as e:
- cprint("EXCEPTION JCB",e,color="red")
- cprint("----",str(jdata)[:150],"...",color="red")
- cprint("Error on line {}".format(sys.exc_info()[-1].tb_lineno),color="red")
- raise e
- #cprint(" ","{:0.04} sec.".format(time.time()-t_start),color="yellow")
-
- def CB(data): # raw/text client input
- #print("CB",data)
- cmds = split_cmd(data)
- c = clock.time()
- c = float(c)
- ftime = 0
- delay = 0
- for xcmd in cmds:
- if xcmd:
- cprint("CB",xcmd,end=" ")
- pass
- else:
- continue
- if xcmd.startswith("fxf"):
- xxcmd=xcmd[3:].split(":")
- #print("fxf:",xxcmd)
- if "alloff" == xxcmd[1].lower():
- for i in Bdmx:
- if i is not None:
- i.flash_fx(xtype="off",clock=c)
- l = xxcmd
- try:
- xtype=""
- size=40
- speed=100
- start=0
- offset=0
- base=""
- k=int(l[0])-1
- xtype=l[1]
- if len(l) >= 3:
- try:size=int(l[2])
- except:pass
- if len(l) >= 4:
- try:speed=int(l[3])
- except:pass
- if len(l) >= 5:
- try:start=int(l[4])
- except:pass
- if len(l) >= 6:
- try:offset=int(l[5])
- except:pass
- if len(l) >= 7:
- try:base=l[6]
- except:pass
-
- if len(Bdmx) > k:
- #Bdmx[k].fade(target=v,ftime=t, clock=c)
- Bdmx[k].flash_fx(xtype=xtype,size=size,speed=speed,start=start,offset=offset,base=base,clock=c)
- except Exception as e:
- print("EXCEPTION IN FX",e)
- print("Error on line {}".format(sys.exc_info()[-1].tb_lineno))
- elif xcmd.startswith("fx"):
- xxcmd=xcmd[2:].split(":")
- print("DMX:",xxcmd)
- if len(xxcmd) < 2:
- print("xxcmd err",xxcmd,xcmd)
- continue
- if "alloff" == xxcmd[1].lower():
- for i in Bdmx:
- i.fx(xtype="off",clock=c)
- l = xxcmd
- try:
- xtype=""
- size=40
- speed=100
- start=0
- offset=0
- base=""
- k=int(l[0])-1
- xtype=l[1]
- if len(l) >= 3:
- try:size=int(l[2])
- except:pass
- if len(l) >= 4:
- try:speed=int(l[3])
- except:pass
- if len(l) >= 5:
- try:start=int(l[4])
- except:pass
- if len(l) >= 6:
- try:offset=int(l[5])
- except:pass
- if len(l) >= 7:
- try:base=l[6]
- except:pass
-
- if len(Bdmx) > k:
- #Bdmx[k].fade(target=v,ftime=t, clock=c)
- Bdmx[k].fx(xtype=xtype,size=size,speed=speed,start=start,offset=offset,base=base,clock=c)
- except Exception as e:
- print("EXCEPTION IN FX",xcmd,e)
- print("Error on line {}".format(sys.exc_info()[-1].tb_lineno))
- if __run_main:
-
- s = chat.Server(cb=JCB)
- while 1:
- s.poll()
- time.sleep(0.01)
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